taxonID	type	description	language	source
D0118A7C5B090011FEC8FCD6FBCE791A.taxon	diagnosis	Diagnosis: Medusa with four perradial marginal bulbs bearing two or more identical tentacles, bulbs with or without ocelli; four perradial oral tentacles, usually branched and ending in nematocyst clusters; gonads interradial or adradial on manubrium, sometimes also along basal perradial extensions of the manubrium. Hydroid colony stolonal or branched, more rarely hydranths sessile; perisarc terminating at base of hydranth or extending onto hydranth as pseudohydrotheca; hydranth cylindrical to spindleshaped, tentacles in one or two closely approximated whorls, tentacle-bases never enveloped by pseudohydrotheca, tentacles alternately inclined up- and downward (amphicoronate). Gonophores develop into free medusae, arising singly or in clusters from stem, branches or stolons.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0012FEC0F9DFFF277002.taxon	diagnosis	Diagnosis: Medusa with spherical to oblong bell, four or more capitate oral tentacles arising well above mouth margin, medusa budding from manubrium. With four marginal tentacles, solid, tapering, in adults with broad, enlarged base adhering to exumbrella just above bell margin, no ocelli. Hydroids monomorphic, arising from reticulate stolons covered by perisarc. Hydranths sessile, with one whorl of filiform tentacles below conical hypostome; base of hydranths often with a perisarc collar. Gonophores develop from stolons, liberated as medusa with four tentacles.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	description	Fig. 2 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	materials_examined	Examined material: BFLA 4066; 1 specimen; 10 - APR- 2019; size 2 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528664. – BFLA 4069; 1 specimen; 11 - APR- 2019; size 1.5 mm; photographed and preserved in formalin and deposited as UF- 013780. – BFLA 4073; 1 specimen; 11 - APR- 2019; 2 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528667. – BFLA 4418; 1 specimen; 28 - MAY- 2020; size 4 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528725. – 16 - NOV- 2017; 1 specimen photographed, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	discussion	Observations: Cytaeis medusa with bell height 1.5 - 2 mm, apical jelly not much thickened and without apical process, but often with apical funnellike depression; subumbrella with shallow gastric peduncle. Manubrium spindle-shaped, reaching to velum level, with more than 10 capitate tentacles originating distinctly above mouth margin; in upper third of manubrium several medusa buds, in lower two thirds apparently with developing gonad. Four perradial tentacles, fully contracted about as long as bell height, solid, bases widened to ovoid bulbs which adhere just above bell margin, giving the impression of the tentacles being connected by a flared end (Fig. 2 B); the tentacle arises at an acute angle to the bulb and curve towards aboral.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	distribution	Distribution: Circumglobally in tropical to subtropical seas, partly oceanic (Schuchert, 2007). Type locality: Atlantic Ocean, south of Equator.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	description	16 S Data: The three obtained 16 S haplotypes have a maximal divergence of 2.2 % and are thought to represent intraspecific variation (Table 1). Blastn searches in GenBank did not yield matches at specieslevel identities. The closest matches were with several samples of Cytaeis uchidae Rees, 1962 from Japan (about 95 % identity), followed by other Cytaeis species, though with lower identity values.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B0A0013FC66FE96FBB17FE0.taxon	discussion	Remarks: The taxonomic situation and identification of Cytaeis medusae is currently not resolved (see discussion in Schuchert, 2007). The opinion of Bouillon et al. (2004) that the “ Cytaeis tetrastyla - like ” medusae should not be given a specific name until the taxonomy has been sorted out properly is still valid, in particular if they do not come from the tropical Atlantic Ocean. However, the current material does come from the same tropical waters of the Atlantic Ocean as the type material and no named or distinct Cytaeis polyps are known from this region. We can thus be reasonably sure that Cytaeis tetrastyla is most likely the correct name. The taxonomic ambiguity relating to C. tetrastyla needs to be resolved using DNA sequence data of several populations and the present samples will hopefully contribute to this end. Many cytaeidid medusae have a quite characteristic connection of the tentacles to the bell margin. The proximal ends of the tentacles are widened to an ovoid bulb which adheres along its long axis to the exumbrella just above bell margin, giving the impression of the tentacle being connected to the exumbrella by a flattened end (Fig. 2 B). The hydroid stage of this species is not known. A potential candidate is the Cytaeis hydroid from Bermuda Island described by Calder (1988).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFED4FEB6FF277BB1.taxon	diagnosis	Diagnosis: Medusa with two long opposite tentacles; with or without ocelli; gastric peduncle absent; mostly with a considerable apical projection; with or without additional marginal small cirri or marginal rudimentary bulbs; with or without mesenteries; four simple oral lips, not or not much crenulated. Gonads on manubrium in adradial or interradial position, occasionally extending to the radial canals. Hydroid colonies usually stolonal [except for one species of uncertain affinity, Amphinema biscayana (Browne, 1907)], hydranths with a well developed caulus, caulus longer than hydranth, covered by perisarc; hydranths without pseudohydrotheca, spindle-shaped, conical hypostome, one whorl of filiform, amphicoronate tentacles. Polyps bend over when disturbed. Gonophores arise either from cauli, stolons or both, released as free medusae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC9FC4EFDFE7F53.taxon	description	Figs 3 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC9FC4EFDFE7F53.taxon	materials_examined	Examined material: 02 - JUL- 2018; 1 specimen photographed; approximately 6 mm; not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC9FC4EFDFE7F53.taxon	discussion	Observations: Amphinema medusa, approximately 6 mm high, with elongated, folded gonads that extend along 5 / 6 of radial canals (Fig. 3 A-B); manubrium about half the height of the subumbrella, simple cruciform mouth with a few folds; two opposite tentacles, long, hollow, base laterally compressed and clasping bell margin, no abaxial spur, large red abaxial ocellus; about 12 rudimentary bulbs on bell margin, each with a large, red ocellus (Fig. 3 B). Adradial and interradial rudimentary bulbs bearing a thin cirrus originating in the middle of the bulb (Fig. 3 C).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC9FC4EFDFE7F53.taxon	distribution	Distribution: Florida and Bahamas; Mediterranean; Torres Strait; Papua New Guinea; Japan; Pacific Side of Mexico; Chile (Schuchert, 2007). Type locality: USA, Florida, Dry Tortugas archipelago.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC9FC4EFDFE7F53.taxon	discussion	Remarks: Amphinema turrida has recently been redescribed and discussed by Schuchert (2007). Most Pacific populations lack the cirri and their status needs to be re-evaluated using genetic data.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC6F82AFC7179DA.taxon	type_taxon	type species Tiara superba Mayer, 1900, by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001CFEC6F82AFC7179DA.taxon	diagnosis	Diagnosis: Pandeid medusa with solid apical projection; 4 or 8 large hollow marginal tentacles alternating with rudimentary marginal bulbs, each carrying a single lateral cirrus; all marginal bulbs with ocelli; gonads adradial, with diverging folds directed perradially, with interradial transverse fold connecting the adradial groups of gonads; with long mesenteries. Hydroid unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001FFC7EFDD4FA567AEF.taxon	description	Figs 4 A-D, 5	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001FFC7EFDD4FA567AEF.taxon	materials_examined	Examined material: BFLA 4087; 1 specimen; 07 - MAY- 2019; preserved in ethanol for DNA extraction; 16 S sequence MW 528672. – 30 - JUL- 2018; 1 specimen photographed; not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001FFC7EFDD4FA567AEF.taxon	discussion	Observations: Pandeid medusa 7 mm high and 5 mm wide, bright pink manubrium and tentacle bulbs, apical process of variable size present, apical exumbrella with perradial furrows. Manubrium filling more than half of the volume of the subumbrella, mouth rim complexly folded. Gonads on stomach forming folds diverging from interradial, in each quadrant two adradial series of folds that are connected interradially by a transverse fold. Four broad radial canals, connected to stomach via funnel-like widenings. Four long, tapering, perradial tentacles, base laterally compressed and clasping bell margin, no abaxial spur, large red abaxial ocellus near abaxial end. Alternating with the tentacles three small bulbs, each with an abaxial ocellus and a thin cirrus usually originating laterally from bulb. All small bulbs of equal size. 16 S Data: The partial 16 S gene sequence (MW 528672) obtained was used to search for similar sequences in GenBank using the blastn function. Similar sequences found were mostly from Leuckartiara species and other Pandeidae, giving sequence identities in the 90 % range. However, there was also one sequence (MH 361354) which had only a single mismatch in 599 aligned bases (99.8 % identity, = 0.2 % divergence), a value which certainly represents intraspecific variation (reference values for Pandeidae acc. Schuchert, 2018, table 2). The matching sequence was obtained from a hydroid originating from Caribbean Sea close to Panama and identified as Thecocodium spec. (Miglietta et al., 2018 b). The hydroid is described and depicted in the supplementary material of Miglietta et al. (2018 b) It is a polyp lacking tentacles. The typical capitate dactylozooids of the genus Thecocodium were not observed, which means that it could also belong to other genera with hydroids lacking tentacles, e. g. Hydrichthys (Pandeidae, see Schuchert, 2007).. The obtained 16 S sequence did not cluster with any other genus of Pandeidae for which there were sequences available (Fig. 8), but this is due to the poor resolving power of the 16 S marker above the genus level. Remarks: Cirrhitiara superba has only rarely been reported. The identity of the present material is beyond doubt as it matches very well the descriptions in Mayer (1900, 1910). Moreover, it comes from the same region and the same continental shelf region as the type material. Thiel (1938) identified a small (1 mm) juvenile medusa from Brazil as C. superba. His specimen had eight tentacles, the interradial ones being less developed. There were also 8 to (?) 16 rudimentary bulbs, each with a lateral cirrus. The presence of interradial tentacles – even less developed – argues against this being C. superba. Neither Mayer (1900, 1910) nor we observed interradial tentacles in C. superba. Vanhöffen (1913 a), who had mostly young medusae obtained from Mayer, speaks of 8 tentacles in his largest medusae, but he was likely referring to both types of tentacles, viz. four large ones and four cirri. Kramp (1953) thought that two medusae collected near the eastern coast of Australia belonged to C. superba despite they lacked cirri. Additionally, the interradial bulbs were larger than the adradial ones and no ocelli were observed. This makes the identification rather doubtful. The medusae are perhaps referable to Leuckartiara fujianensis Huang, Xu, Lin & Qiu, 2008 or Leuckartiara neustona Xu & Huang, 2004. The medusa shown in Van der Spoel & Bleeker (1988: fig. 8) originating from Indonesia had thick cirri and 8 long tentacles and thus unlikely belong to the present species.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B04001FFC7EFDD4FA567AEF.taxon	distribution	Distribution: Florida, Bahamas (Mayer, 1910). Records from Brazil (Thiel, 1938), north-eastern Australia (Kramp, 1953), and Indonesia (Van der Spoel & Bleeker, 1988) are likely misidentifications (see above). Type locality: USA, Florida, Dry Tortugas archipelago.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B07001FFC06FC8EFB217D9C.taxon	type_taxon	type species Pandea violacea Agassiz & Mayer, 1899 by original designation.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B07001FFC06FC8EFB217D9C.taxon	diagnosis	Diagnosis: Pandeid medusae with smooth or granulate adradial or interradial gonads, with mesenteries, stomach with cross-shaped base, manubrium not twisted, with simple or faintly crenulated oral lips; four, eight, or more tentacles, with or without rudimentary bulbs or tentacle-stumps, with or without ocelli. Hydroids, where known, colonial, arising from tubular, ramified hydrorhiza, cauli slightly branched or not, with or without pseudohydrotheca, when present not enveloping tentacles, one whorl of filiform tentacles. Medusa buds arise from stems or stolons.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	description	Fig. 6 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	materials_examined	Examined material: BFLA 4006; 1 specimen; 26 - NOV- 2018; size 12 mm high, 10 mm wide, pink colour; photographed and preserved in ethanol for DNA extraction; 16 S sequence MW 528650. – 30 - JUN- 2018; 1 specimen photographed; size approximately 7 mm, pink, only 2 rudimentary bulbs between tentacle pairs; not collected. – 09 - AUG- 2018; 1 specimen photographed; size approximately 10 mm, pink; not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	discussion	Observations: Typical medusa of the genus Merga, up to 12 mm high, characteristic light pink-purple colour of manubrium and tentacles (Fig. 6 A-E), without apical process but when fully grown with a thick apical jelly, shallow subumbrellar pockets present. Manubrium about half the height of subumbrella, very wide, connected for about half its length along the radial canals; stomach base and mouth cruciform, mouth rim slightly folded. Gonads on interradial surfaces of stomach, thin, smooth and not folded. Four radial canals broad, connected to stomach in its upper parts as mesenteries. Eight long, tapering tentacles, base laterally compressed and clasping bell margin, may be continued on exumbrella as an atypical, flat, abaxial spur (Fig. 6 B); large red abaxial ocellus near abaxial end of bulb. Rarely also 9 tentacles observed. Alternating with the tentacles 2 - 5 small bulbs (max. total 34) with a short, blunt tentacle stump, all the same size and also with a red ocellus. Usually with brown pigment dots in the stomach wall (Fig. 6 C, E).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	distribution	Distribution: Circumglobal in tropical to subtropical waters (Schuchert, 2007). Type locality: Fiji Islands.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	description	16 S Data: The partial 16 S gene sequence (MW 528650) obtained was used to search for similar sequences in GenBank using the blastn function. Other similar sequences found were as expected of Pandeidae species but had only identities below 89 %. The similarities with the Pandeopsis species described below were also relatively low (<86 %, see also Fig. 8).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B070019FC45F990FC2D79B9.taxon	discussion	Remarks: The species has recently been redescribed and discussed by Schuchert (2007), but the problem with the type locality remains unresolved. No type material could be located in the Harvard Museum of Zoology (A. Baldinger, pers. com. June 2019), the museum Agassiz and Mayer were associated with. Agassiz & Mayer (1899) introduced the name Pandea violacea in a paper reporting on medusae collected in the Fiji archipelago. In the description – no figure was given – they state that they have also found indistinguishable medusae at the Dry Tortugas Islands which they intended to illustrate in a subsequent publication. Notwithstanding, the paper dealt with specimens from Fiji and therefore the Fiji Archipelago should be considered as the type locality of the species. This could be taxonomically important if future genetic studies show that the two populations belong to separate species. In one of our specimens (BFLA 4006), some tentacle bulbs had atypical abaxial spurs formed by thickening of the exumbrellar epithelium (Fig. 6 B). Several specimens also had brown dots in the stomach wall (Fig. 6 A, C). There seem to be differences between Pacific and Atlantic individuals, including the colouration (comp. Bigelow, 1909; or Schuchert, 2020: photos of Australian Merga violacea).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010019FC75FE77FACC7D20.taxon	type_taxon	type species Pandeopsis scutigera Kramp, 1959 by original designation.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010019FC75FE77FACC7D20.taxon	diagnosis	Diagnosis: Pandeid medusae with wide, large manubrium and quadratic base, with long mesenteries; gonads smooth, sheet-like, covering interradial surface of manubrium, usually with a few dark spots in living or recently fixed specimens; mouth with four simple lips; up to 16 marginal tentacles and up to 24 rudimentary bulbs that may have a very short tentacle stump; tentacular cirri absent; tentacle bulbs without spur, with abaxial ocelli. Hydroid known only from rearing; colony with common hydrorhiza giving numerous hydranths with one whorl of 3 - 6 filiform tentacles; medusa buds unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010019FC75FE77FACC7D20.taxon	discussion	Remarks: The only tangible difference of Pandeopsis and Merga is the more quadratic stomach base in the former. While some Pandeopsis specimens examined here indeed had a wide, quadratic stomach base (Fig. 7 C), the difference to Merga is not always distinct and both genera could therefore be regarded as congeneric. The 16 S phylogenetic tree (Fig. 8) suggests that the two genera are not closely related, but this needs confirmation with additional markers.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	description	Fig. 7 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	materials_examined	Examined material: BFLA 4088; 1 specimen; 07 - MAY- 2019; size 2.5 mm, faintly greeninsh gastrodermis, no dots on manubrium seen; preserved in ethanol for DNA extraction; 16 S sequence MW 528673. – 08 - AUG- 2018; 1 specimen photographed; size approximately 5 mm, greenish manubrium, dots present; not collected. MHNG-INVE- 0092017; Japan, Mie Prefecture, Toba City; WGS 84 34.4781, 136.8670; collector and donor Takanori Suehiro; year 2015; 12 medusae cultivated from a polyp stage collected on sand, age about 3 months, examined alive and preserved, size 4 mm, 12 tentacles; 16 S sequence MG 136757.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	discussion	Observations: Sample BFLA 4088, bell height 2.5 mm, bell top rounded, lower lateral walls straighter, mesogoea thick, at apex nearly 1 / 2 of bell height, smooth. Manubrium large, base square-shaped, wide upper half, narrower lower part with cross-shaped section, mouth drawn out into four lips with smooth rim; colour greenish, no pigment dots; wall of upper half of manubrium apparently with layer of numerous developing oocytes (Fig. 7 A). Radial canals forming mesenteries along upper half of manubrium, smooth, greenish. Eight tentacles, long, tapering, with red abaxial ocellus at base. Eight adradial rudimentary bulbs with a very short, stump-like tentacle, with abaxial red ocellus (Fig. 7 B). Individual collected 08 - AUG- 2018 similar but larger (5 mm), with dots on manubrium (Fig. 7 D).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	description	16 S Data: An blastn search with the partial 16 S gene sequence (MW 528673) was used to search for similar sequences in GenBank. The closest match with 3.5 % sequence divergence was with sequence MG 136757 obtained from a Pandeopsis ikarii sample from Japan (see also Fig. 8 and the discussion of the next species).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	distribution	Distribution: Japan, Philippines, Gulf of Thailand, Java Sea, New Zealand, Indian Ocean, Red Sea. Type locality: Seto (Wakayama), Japan.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B010004FC77FADEFD607D5D.taxon	discussion	Remarks: This is the first record of this species for the Atlantic Ocean. Notably sample BFLA 4088 (Fig. 7 A-C) matched very well the existing descriptions of this species given above in the synonymy. The only difference being the absence of pigment dots on the stomach wall. They might develop later only (comp. Suehiro & Kubota, 2015). Another observed specimen (Fig. 7 D) had such spots, but as no sequence information is available for this specimen the identification remains somewhat uncertain. Pandeopsis ikarii has been widely reported in the Indian- and Pacific Oceans, but some of these records might belong to a distinct species. Bouillon (1980: 336) observed that his animals from the Bismarck Sea had a dense proliferation of medusa buds on the manubrium and developed up to 14 tentacles. The budding was sometimes already present in young animals with four tentacles only. The maximal size was up to 10 mm, thus quite larger than usually reported (4.5 mm in Kramp, 1968). Another detail mentioned by Bouillon is a band of chordoid cells along the four corners of the manubrium ending in nematocysts clusters, an element neither observed here nor mentioned in other descriptions of the species. The budding was also observed by Navas (1971, cited in Bouillon, 1980) in animals collected in the Indian Ocean, but not by any other observer. Dr Shin Kubota (pers. com.) informed us that he never observed medusa buds in Japanese P. ikarii. It is therefore very likely that Bouillon’s material belonged to another species, perhaps even Pandeopsis prolifera n. spec described below.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	description	Fig. 9 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	materials_examined	Holotype: BFLA 4442; collected 07 - JUN- 2020; size 8 mm; part of specimen preserved in formalin and deposited in Florida Museum of Natural History, catalogue number UF- 014057; before formalin fixation, about 1 / 4 of animal was cut and preserved in ethanol for DNA extraction (MHNG-INVE- 0137381); 16 S sequence MW 528727. Other examined material: BFLA 4260; 1 specimen; 07 - MAY- 2019; size 5 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528695. Type locality: USA, Florida, 5.5 - 12 km east of Palm Beach; WGS 84 26.70, - 79.94 to 26.78, - 79.94; depth 10 m.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	diagnosis	Diagnosis: Pandeopsis medusa with medusa budding on manubrium wall in mature animals, eight tentacles, approximately 24 rudimentary bulbs; stomach base square-shaped in younger animals.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	description	Description: Bell size up to 8 mm, bell higher than wide (Fig. 9 A), bullet-shaped, jelly very thick, apical jelly takes up about 1 / 3 of total height, lateral walls also thick. Exumbrella smooth. Manubrium large, squareshaped base in younger individual, more cross-shaped in older specimen (Fig. 9 C); manubrium with wide upper part (stomach) filling nearly half the subumbrella and attached to it via mesenteries, narrower lower part of manubrium with cross-shaped section, mouth drawn out into four lips with slightly undulated rim; manubrium colourless but with pigment dots (Fig. 9 D). In holotype interradial stomach wall densely beset with a layer of medusa buds of different developmental stages, about 50 per quadrant, white, in some buds red pigment dots of developing ocelli. Radial canals thick, smooth. Eight tentacles, long, tapering, not much laterally compressed, with red abaxial ocellus at base. 24 adradial rudimentary bulbs with a very short, stump-like tentacle, with abaxial red ocellus (Fig. 9 B, D). 16 S Data: See Fig. 8, Table 1, and below under Remarks.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	distribution	Distribution: Type locality only.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0004FEE8FA53FBD97F3D.taxon	discussion	Remarks: Our main argument to separate P. prolifera from P. ikarii is the distinct separation in the phylogenetic analysis (Fig. 8). The observed base pair differences between the two clades were 7.2 to 8.9 %, which is rather large in comparison to the intraspecific variation seen in the other Pandeidae (comp. Fig. 8) but could also be in part due to generally longer branches in this cluster. However, there are also morphological differences between the animals identified here as P. prolifera and P. ikarii: - medusa buds on manubrium (Fig. 9 A) versus no buds on manubrium (Fig. 7 A-B), - three rudimentary bulbs between tentacle pairs even in younger medusae (Fig. 9 D) versus one only (Fig. 7 B), - colourless manubrium (Fig. 9) versus greenish manubrium (Fig. 7). We acknowledge that all these differences could be due to a low sample number bias and not fully-grown individuals. More samples could blur the differences and require that both morphotypes be regarded as conspecific. The high intraspecific genetic divergence would be surprising though.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0006FC92F8F3FE1F7DFC.taxon	type_taxon	type species Stomotoca pterophylla Haeckel, 1879 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0006FC92F8F3FE1F7DFC.taxon	diagnosis	Diagnosis: Medusa with thick apical mesoglea and usually pointed apex; manubrium large, attached to a broad gastric peduncle, extending well beyond bell margin, mouth with crenulated lips; gonads in 8 adradial rows on manubrium, complexly transversely folded; two opposite perradial tentacles, numerous rudimentary bulbs on bell margin; no ocelli. Hydroid parasitic on fish, with plate-like naked hydrorhiza, hydranth with no tentacles; gonozooid branched, producing at ends medusa buds.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1C0006FC92F8F3FE1F7DFC.taxon	discussion	Remarks: Larson (1982) reared medusae released from a parasitic hydroid of the genus Hydrichthys Fewkes, 1887 and could identify them as Stomotoca pterophylla Haeckel, 1879. Because Larson’s hydroid showed little host specificity and many Hydrichthys polyps are rather similar, Larson concluded that they will also produce medusae referable to the genus Stomotoca L. Agassiz, 1862. Therefore, he suggested to synonymize Hydrichthys and Stomotoca. This was contested by Boero & Bouillon (1989) who could show that the type species of Stomotoca – S. atra L. Agassiz, 1862 – had a polyp stage that was completely different from Hydrichthys (free living, with scattered tentacles). Moreover, the polyp of a tentatively identified Hydrichthys mirus Fewkes, 1887 – type species of the genus Hydrichthys – produced a Leuckartiara - like medusa (Boero et al., 1991). Because Stomotoca pterophylla and Stomotoca atra have different polyps, Boero et al. (1991) proposed the new genus Larsonia for S. pterophylla. Boero et al. must have overlooked that Haeckel (1879) had already introduced a subgenus name for S. pterophylla, namely Stomotocanna Haeckel, 1879. As a subgenus level name automatically also becomes available at the genus level, Larsonia Boero, Bouillon & Gravili, 1991 is a junior synonym of Stomotocanna. However, because Haeckel’s name has not been used since its introduction and in the interest of nomenclatural stability, it should not be reactivated (ICZN, paragraph 23.9.1.1.)	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0006FF38F9B5FAD87F00.taxon	description	Fig. 10 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0006FF38F9B5FAD87F00.taxon	materials_examined	Examined material: BFLA 4453; one formalin fixed specimen deposited under catalogue number FU- 014064; collected 08 - JUN- 2020; height 27 mm. – 08 - AUG- 2018, 1 specimen photographed; not collected ...	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0006FF38F9B5FAD87F00.taxon	discussion	Observations: Medusa 27 mm, with low umbrella and big, conical, pointed apical process; subumbrella shallow; with broad gastric peduncle reaching to velum level; 4 - 5 ribbon-like radial canals; two opposite tentacles, long, whitish, with swollen base clasping bell margin, no ocelli; about 80 - 100 atentaculate bulbs along bell margin, small, wart-like, all about the same size, without ocelli (Fig. 10 C); manubrium barrelshaped, with mouth drawn out into four long perradial lips, margin crenulated; gonads large, covering stomach in eight adradial series of about 10 branched folds directed towards interradial, pairs of adradial fold series connected perradially by a thick, vertical fold; adradial folds branching with up to four ends (Fig. 10 B). Gonads and manubrium colour golden-brown or brown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0006FF38F9B5FAD87F00.taxon	distribution	Distribution: American coasts from Gulf of Maine to Brazil, West Africa, Pacific coasts of Panama to Peru, Japan, Papua New Guinea, Indian Ocean (Kramp, 1968; Bouillon, 1980; Navas-Pereira & Vannucci, 1991; Stampar & Kodja, 2007, as Stomotoca atra). Type Locality: Caribbean Sea, 20.60 ° N 79.00 ° W.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0006FF38F9B5FAD87F00.taxon	discussion	Remarks: The observed specimens agreed well with existing descriptions of Larsonia pterophylla, except that one had five radial canals instead of four. This surplus radial canal was interpreted as a developmental aberration or variation without taxonomic significance. Also other tetraradial hydromedusa species occasionally show three or five radial canals (see Clytia spec.). Stomotoca atra L. Agassiz, 1862 is a very similar species and Vanhöffen (1913 b) thought that they could be conspecific. However, S. atra is distinct from L. pterophylla, notably they have different polyp stages (comp. Larson, 1982 and Boero & Bouillon, 1989). The medusae are distinguishable: in L. pterophylla the mouth margin is crenulated and perradially drawn out into long lips, in S. atra it is not crenulated and the perradial lips are short. Additionally, the transverse gonad folds are branched several times in L. pterophylla, while they are mostly unbranched in S. atra (comp. Schuchert, 2017 b) or in loops in very mature animals (comp. Bigelow, 1918; Arai & Brinckmann-Voss, 1980). The Brazilian medusae depicted in Stampar & Kodja (2007) and identified as S. atra must thus belong to L. pterophylla.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0007FC60F811FAAA7FE3.taxon	diagnosis	Diagnosis: Medusae with high bell, proximal portion of radial canals swollen through vacuolated gastrodermal cells, forming a peduncle-like mass on top of manubrium, in larger animals continued on manubrium as perradial ribs. Tentacles numerous and evenly distributed. Mouth four-lipped, fringed with numerous spherical nematocyst clusters, these with or without a distinct stalk. Ocelli adaxial on tentacle base. Polyp stage forming erect, branching colonies, sidebranches and hydranth pedicels adnate for some distance, perisarc tubes not nested. Hydranths spindleto club-shaped; filiform tentacles scattered over much of hydranth body. Gonophores develop on the hydrocauli in perisarc covered region and are liberated as medusae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1E0007FC60F811FAAA7FE3.taxon	discussion	Remarks: The genera Turritopsis McCrady, 1857 and Oceania Péron & Lesueur, 1810 are morphologically not separable (comp. Schuchert, 2016). The purported difference of the stalked oral nematocyst buttons in Oceania is not tenable as also T. nutricula has stalked clusters (see below). However, to avoid unnecessary taxonomic changes, the two genera should not be synonymized until a comprehensive molecular phylogeny using several marker genes confirms this.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	description	Fig. 11 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	materials_examined	Examined material: BFLA 4391; 1 specimen; 17 - MAY- 2020; size 3 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528718. – BFLA 4416; 1 specimen; 28 - May- 2020; size 2 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528724.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	discussion	Observations: Typical Turritopsis medusae, bell heights up to 3 mm, manubrium yellow, blocks of vacuolated cells at manubrium base with deep interradial clefts, thus clearly separated (Fig. 11 B-C), tentacle numbers about 50, base with an adaxial ocellus, tentacle tips swollen in life. Nematocyst buttons lining the mouth margin with stalks like in Oceania armata.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	description	16 S Data: The two 16 S sequences obtained had only 0.5 % base pair divergence. In order to compare them to other existing sequences, they were added to the set of sequences used in Miglietta et al. (2018 a) and a maximum likelihood phylogenetic analysis was made (results not shown). Both sequences of this study clustered with sequences of T. nutricula from Woods Hole (GenBank numbers EU 624349 and EU 624348) and others from Panama (e. g. EU 62435), thus fall within the clade of T. nutricula of Miglietta et al. (2018 a).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	distribution	Distribution: Temperate to tropical coastal regions of the western Atlantic Ocean from Woods Hole to Brazil, Gulf of Mexico, Caribbean Sea. Type locality: Atlantic Ocean, USA, South Carolina, Charleston Harbor.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B180001FF37FE97FEF67E38.taxon	discussion	Remarks: The samples examined here matched unambiguously Turritopsis nutricula in the restricted sense of Schuchert (2004). The yellow manubrium and particularly the interradially split blocks of vacuolated cells at the manubrium base are diagnostic for Turritopsis medusae of this region. Moreover, the sampling site is in the same biogeographic region as the type locality, the latter being about 800 km away. There can thus be little doubt that these specimens represent the true T. nutricula. Species delimitation in the genus Turritopsis was difficult and until the revision of Schuchert (2004) most authors assumed that there is only a single, circum-globally occurring species named T. nutricula. Schuchert (2004) using morphological data showed that this is not the case and re-established several previously synonymized names. This was then later confirmed using genetic data [see summary in Miglietta et al. (2018 a) and references therein]. However, so far it was not clear which of the molecular clades corresponded to the true T. nutricula. Although the studies of Miglietta et al. included specimens identified as T. nutricula, their identity was uncertain because they were either based on young medusae or polyps. Both of them are not unambiguously identifiable. The results of the present study confirm the correct identification of the T. nutricula clade in Miglietta et al. (2018 a).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190001FEC7F9E9FC2A79A9.taxon	diagnosis	Diagnosis: Bythotiaridae medusae with thick umbrella, four simple radial canals; no centripetal canals; gonads interradial, no transverse folds; no secondary tentacles; no ocelli. Hydroid unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190001FEC7F9E9FC2A79A9.taxon	discussion	Remarks: For a key to the currently known species see Du et al. (2018).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190003FC67FE46FAC179B8.taxon	description	Fig. 12 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190003FC67FE46FAC179B8.taxon	materials_examined	Examined material: BFLA 4037; 1 specimen; 26 - MAR- 2019; size 12 mm high; part preserved in formalin and deposited as UF- 013457, small part in alcohol for DNA extraction; 16 S sequence MW 528657. Observations: Bythotiaridae medusa 12 mm high, bell cylindrical, not compressed laterally, mesoglea thick, especially apical jelly which is about 1 / 3 of the total bell height; bell margin with regular furrows in which lie the tentacles. Manubrium 2 / 3 the height of the subumbrella, shaped like inverted cone, section cross-shaped, interradial wall smooth, mouth cruciform, rather small, four red strands run along the interradial corners of the manubrium. Four thin radial canals, no mesenteries; circular canal thin. 10 tentacles, length about half the height of the bell, originating from under circular canals without formation of a distinct tentacle bulb but with an epidermal swelling at the junction of tentacle and circular canal, proximal part of tentacles curving adnate around bell margin in furrows, tapering only slightly distally, ending in bright orange, spherical to ovoid knob, diameter about 0.3 mm. No ocelli.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190003FC67FE46FAC179B8.taxon	description	16 S Data: A blastn search in GenBank with the sole 16 S (MW 528657) gave mostly species of Filifera / Anthoathecata, but all below 90 % identity and thus precluding any conclusions on relationships.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190003FC67FE46FAC179B8.taxon	distribution	Distribution: Widespread in warm parts of the Atlantic, Indian, and Pacific Oceans, usually in depths of 0 to 600 m (Arai & Brinckmann-Voss, 1980; corrections in Brinckmann-Voss & Arai, 1989). Type locality: Indonesia, 0.2933 ° S, 129.2418 ° E, 0 - 1000 m depth.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B190003FC67FE46FAC179B8.taxon	discussion	Remarks: Most illustrations of this species do not show the terminal swellings of the tentacles (e. g. in Kramp, 1959 a, 1968), a typical character of Bythotiaridae medusae. These are almost invariably lost in specimens caught with a plankton net, but they are normally present in this species (see Kramp, 1948, 1965; Schmidt, 1973; Arai & Brinckmann-Voss, 1980). The size of the examined medusa was at the lower end of the range usually given for this species (12 - 20 mm, Maas, 1905; Bigelow, 1909; Vanhöffen, 1911). Bigelow (1918) also found somewhat smaller (up to 13 mm) in the nearby Bermuda region, likewise Bouillon (1980) in animals from Papua New Guinea. The interradial red strands are rather conspicuous in the living and preserved animal (Fig. 12 A-B), but they have been mentioned only rarely so far. Only Vanhöffen (1911) observed them in an animal caught near the Nias Islands (Indonesia). The nematocysts have been described by Russell (1940) and Bouillon et al. (1988 a). The species has large desmonemes which are typical for the family Bythotiaridae. The taxonomic scope of Protiaropsis anonyma is not yet fully clear as there are other similar species, some of which which could prove to be conspecific (see also discussions in Schmidt, 1973). Protiaropsis minor (Vanhöffen, 1911) is somewhat smaller (6 - 12 mm), has perhaps a shorter manubrium, and 16 to 24 tentacles (see description by Pagès et al., 1992). Bouillon et al. (1988 a) found both morphotypes in sympatry and kept them distinct. Kanaka pelagica Uchida, 1947 has eight tentacles but is much smaller (1.8 mm). It was based on a single specimen which was likely a juvenile. Kramp (1953) thought it might belong to P. minor, while Schmidt (1973) and Bouillon (1980) think it is referrable to Protiaropsis anonyma. Gymnogonium zhengzhongii Xu & Huang, 1994, is small (2.2 mm), has a short manubrium, and a pair of branched radial canals, resulting in six canals in total. The manubrium of the only observed specimen had gonads. Bouillon et al. (2006: 182) thought that it could belong to Protiaropsis anonyma. As the the species is based on a single specimen, it cannot be excluded that the branched radial canals were a developmental aberration. New material has to prove the validity of the species, but as the type specimen was apparently mature at 2.2 mm, the genus and species should be retained as valid for the moment. Bouillon (1980) thought that also Bythotiara depressa Naumov, 1960 could be conspecific with P. anonyma as he found intermediate forms. Bythotiara depressa differs from P. anonyma in having an irregularly folded surface of the gonads. Brinckmann-Voss & Arai (1989) examined the problem in detail and they worked out diagnostic differences of the two species (see also Xu et al., 2016). Some of the previous records of P. anyonyma from colder waters of the North Pacific Ocean were actually B. depressa. All these ambiguities underline the need for a comprehensive dataset of 16 S DNA barcodes which will hopefully improve the species delimitations.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B0003FC68FE68FBAF7CA8.taxon	type_taxon	type species Thecocodium brieni Bouillon, 1967 by original designation.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B0003FC68FE68FBAF7CA8.taxon	diagnosis	Diagnosis: Medusa with lobed bell margin, with marginal nematocyst ring from which usually arise several centripetal nematocyst bands or exumbrellar rows of refringent spots. Four radial canals and hollow circular canal, short mesenteries. Four marginal tentacles with bases embedded in umbrellar furrows, no ocelli. Manubrium with short, perradial lips ending in nematocyst clusters; gonads interradial on manubrium. Hydroid with reticulate, tubular hydrorhiza, covered by perisarc. Polyps on stolons, sessile, naked, polymorphic, usually with gastro-gonozooids and dactylozooids. Gastro-gonozooids cylindrical or club-shaped, without tentacles, hypostome with nematocysts. Dactylozooids thin, solid gastrodermis, terminal group of capitate tentacles. Gonophores fixed sporosacs or free medusae developing in a single whorl on gonozooids. Cnidome of polyp includes desmonemes.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	description	Fig. 13 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	materials_examined	Examined material: 21 - JUL- 2018, 1 specimen photographed; not collected. – BFLA 4461; 1 specimen; 13 - JUN- 2020; size 5 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528730. – BFLA 4466; 1 specimen; 13 - JUN- 2020; size 4 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528731. MHNG-INVE- 0039477; schizoholotype, polyps obtained from original culture of Werner (courtesy Dr G. Jarms), origin of material Kenya; cultivated and reared medusae, preserved in Feb- 2006; 16 sequence FN 422379.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	discussion	Observations: Medusa with bell-shaped umbrella, up to 5 mm, mesoglea thick, including lateral walls, height of apical jelly at least 1 / 3 of total height, not delimited as apical process. Bell margin with deep perradial clefts continued as canal-like furrows to midheight of bell and housing tentacle. Bell margin appears lobed through the clefts, between the furrows on each lobe 5 - 7 meridional nematocyst tracks originating from near circular canal and curving around bell margin to exumbrella and then dissolving into arrays a few isolated nematocysts clusters,> 100 additional nematocyst buttons scattered on entire exumbrella. Four smooth radial canals widened to funnels at the junction to the manubrium. Four tentacles, directed upwards, lying in the canal-like exumbrellar furrows, usually contracted to length shorter than bell height, but able to extend to length at least> 3 times the bell height. Tentacles at origin with a small bulb with a pink to red colour, bulb adnate to exumbrella; main trunk of tentacles appears chordoid and is transparent, tapering to tip which is whitish-opaque and sometimes slightly swollen. Manubrium large, with a spherical stomach and a small neck-like oral region, small cruciform mouth; gonads much developed surrounding the manubrium entirely, with a brilliant, intense yellow-orange colour, subdivided in 8 adradial, vertical bulges (Fig. 13 B), the whole appearing like a peeled orange composed of 8 wedges, perradial and interradial clefts deep. Females with> 200 eggs.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	distribution	Distribution: Coast of Kenya (Jarms, 1987); Japan (Kubota, 1993); Taiwan (Kubota et al., 2018); Florida (Kubota & Meldonian, 2016; this study). Type locality: Indian Ocean, NE of Mombasa (hydroid, substrate unknown).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	description	16 S Data: The two obtained 16 S haplotypes differed in 0.5 % of their base pairs, the divergences to the type material were 4.3 to 4.5 % (Table 1).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B1B000CFC44FB58FBE77F6A.taxon	discussion	Remarks: The descriptions of this species (Werner, 1965; Jarms, 1987) were based on a cultivated hydroid colony and its released medusae reared to subadult stage. It was therefore with some hesitations that subsequent findings of the medusa in the plankton where attributed to this species or they were even only identified to genus level (see synonymy above). The observed specimen from Florida differed from the type material in having a slightly higher umbrella and many more exumbrellar nematocysts clusters. Moreover, the gonads are much more developed. The species has been recorded from Florida waters before (Kubota & Meldonian, 2016). Like Kubota & Meldonian (2016) we are also aware that the identification of the Florida specimens as Thecocodium quadratum is to some degree questionable for biogeographic reasons. However, comparing our photos with a medusa from Taiwan published by Kubota et al. (2018) it is evident that there are no taxonomically significant differences and this morphotype has likely a very widespread distribution. The 16 S sequences from the Florida specimens differed about in 4.5 % of the base pairs compared to the type specimen (Table 1). In comparison with other medusae this appears to us as intermediate between intraspecific or interspecific variation, but these few samples and just one marker alone cannot provide conclusive information. Because the morphology of Pacific and Atlantic medusae match, we think it should be attributed to T. quadratum until more detailed genetic data prove the contrary.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B14000DFC6EF843FF247EE9.taxon	diagnosis	Diagnosis: Medusa umbrella mostly hemispherical; with exumbrellar nematocyst patches or linear arrays of patches alternating with tentacles; radial canals branched; usually instead of circular canal a solid gastrodermal marginal strand; manubrium base with four, six or more radial gastric pouches, extending along proximal portions of radial canals, pouches in some species inconspicuous; gonads surrounding manubrium and extending onto gastric pouches; tentacles with swollen hollow base connected to the lumen of radial canals. Hydroid on rims of sabellid polychaete tubes, with creeping, naked stolons; hydranths almost sessile, polymorphic; gastrozooid with rounded hypostome, separated from body by a constriction; hypostome with large pad of nematocysts somewhat displaced onto one side, two filiform tentacles arising close together beneath hypostomial constriction and opposite to nematocyst cluster; gonozooids and dactylozooids without tentacles, mouth-less and smaller than gastrozooids; medusa buds close to gonozooid tip.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B14000DFC6EF843FF247EE9.taxon	discussion	Remarks: Species delimitation in this genus has a long history of discussions and especially the status of the various variants of P. ornata are unclear [comp. Schuchert (2009) and references therein]. The medusae of P. ornata are quite variable and a number of species and subspecies have been proposed, mainly based on the presence and position of vegetative medusa buds. Kramp (1957, 1965) examined numerous specimens and concluded that these variants likely belong to the same species, the number of canal ramifications and the place of medusa budding being variable even within the same population. However, as seen in other medusa-based species – e. g. Clytia or Zanclea – once also the polyp stage is considered, many morphospecies can sometimes be distinguished (for Zanclea see e. g. Boero et al., 2000). Hand (1954), using complete data of the medusa and polyp stage of Pacific Proboscidactyla species as well as host data of the polyp colony, found that they differ in minute details. This makes it likely that other widely distributed Proboscidactyla species which are solely based on the medusa stage could represent species complexes. DNA sequence results obtained in this study indeed indicate that this seems to be the case for at least P. ornata.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	description	Fig. 14 A-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	materials_examined	Material examined: BFLA 4349; 1 specimen; 11 - MAR- 2020; size 4 mm, 17 tentacles, presumably a mature male; preserved in alcohol for DNA extraction; 16 S sequence MW 528709. – BFLA 4354; 1 specimen; 11 - MAR- 2020; size 4 mm, 18 tentacles, with green subumbrella; preserved in alcohol for DNA extraction; 16 S sequence MW 528710. – BFLA 4356; 1 specimen; 13 - MAR- 2020; size 4 mm, 21 tentacles, mature male; preserved in alcohol for DNA extraction; 16 S sequence MW 528711. – BFLA 4357; 1 specimen; 13 - MAR- 2020; size 5 mm, 21 tentacles, mature female; preserved in alcohol for DNA extraction; 16 S sequence MW 528712 – BFLA 4454; 1 specimen; 11 - JUN- 2020; size 5 mm, 19 tentacles; preserved in formalin and deposited as FU- 014065. – BFLA 4455; 1 specimen; 11 - JUN- 2020; size 6 mm, 18 tentacles, mature male; preserved in formalin and deposited as FU- 014066. – 13 - MAR- 2020; 1 specimen photographed, not collected; 4 mm, 16 tentacles.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	discussion	Observations: Medusae with the characteristics of the genus, bell as wide as high, 4 - 6 mm, apical jelly about 1 / 3 of total height. Exumbrella with more or less linear arrays of nematocyst patches of variable length, starting from bell margin and alternating with tentacles, some reaching beyond mid part of bell, patches with up to 10 nematocysts, patches often lost in preserved animals. Manubrium rather broad, cruciform base giving impression of four (rarely 5) peradial basal pouches, gonads covering entire interradial wall of stomach, separated perradially, smooth surface; mouth rim much folded but not clearly with four lips, rim with nematocysts. Four (rarely 5) thin radial canals originate from basal manubrium pouches, branching dichotomously so that 4 to 5 ends reach circular canal (= solid strand). Tentacles only at ends of radial canals, 16 - 21 in mature animals, oviform basal bulb, tapering in much extensible tentacles; abaxial side of bulb gastrodermis with a dark pigment, lost in formalin preserved animals.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	description	16 S Data: See Table 1 and Fig. 16. The sequences of this study were quite divergent from P. ornata sequences from other regions, showing p-distances of up 7.5 % and separating into distinct mitochondrial lineages. The lineage of Florida Proboscidactyla ornata without medusa buds is also clearly different from those here identified as P. gemmifera (see below).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	distribution	Distribution: Reportedly circumglobal in tropical and temperate waters, but in view of the genetic data presented below, the known distribution must be restricted to the coastal waters of the NE Atlantic. Type locality: USA, South Carolina, Charleston Harbor.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B15000FFF2CF887FE297C3A.taxon	discussion	Remarks: The present material (Fig. 14) agreed well with the descriptions given in McCrady (1859) and Mayer (1910) who had material from the same biogeographic region (warm temperate and tropical northwestern Atlantic; Spalding et al., 2007). The observed differences concerned the tentacle numbers which were 16 to 21, thus more variable than the 16 given in Mayer (1910). Our material observed in situ also had more nematocyst patches on the exumbrella, however, these are apparently lost rapidly in preserved material (likely also in net caught material). The maximum likelihood tree (Fig. 16) strongly suggests that our current concept of P. ornata comprises several mitochondrial lineages, viz. most likely species. This is also the reason why we separated the morphotype with medusa buds into a separate species (see below). Our medusae P. ornata were all rather fully grown, at least some with developed gonads. Because vegetative medusa budding might only occur in immature specimens, we cannot exclude that also P. ornata can have such a medusa budding. In this context, an observation noted by Mayer (1910) is interesting. He states that the budding variety of P. ornata is confined to the region south of South Carolina, while the nonbudding form occurs from Florida up north to New England. Agassiz (1865, Buzzards Bay), Fewkes (1882 a, Tortugas), and Calder (1970, Virginia) raised the medusa and did not report vegetative budding. This can be interpreted as two species with differing distributions being present. The northern limit of the budding form must be corrected to at least North Carolina as the type specimen of P. gemmifera (Fewkes, 1882) came from Beaufort Inlet.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	description	Fig. 15 A-F	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	materials_examined	Material examined: BFLA 4285; 1 specimen; 06 - DEC- 2019; size 3 mm, 19 tentacles, with medusa buds; preserved in alcohol for DNA extraction; 16 S sequence MW 528699. – BFLA 4321; 1 specimen; 24 - JAN- 2020; size 2.5 mm, 17 tentacles, with medusa buds; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528699. – BFLA 4338; 1 specimen; 07 - FEB- 2020; size 3 mm, 18 tentacles, with medusa buds; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528699. – 24 - JAN- 2020; 1 specimen photographed, not collected; 3 mm, 14 tentacles, with medusa buds.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	discussion	Observation: Medusae as described for P. ornata but somewhat smaller, 2.5 - 3 mm, though none of them appear sexually mature, tentacle numbers 14 - 19, more nematocyst patches on exumbrella, these often quite irregular and some not in linear arrays, no dark pigment in gastrodermis of tentacle bulbs. The most notable difference is the presence of four blastostyles (Fig. 15 C) at each of the proximal-most branching points of the radial canals. Blastostyle resembling a polyp with one short capitate tentacle (visible in Fig. 15 A, C) and bearing one to several medusa buds of different development stages.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	description	16 S Data: See Table 1 and Fig. 16.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	distribution	Distribution: NE Atlantic from Cape Hatteras to Florida, likely more widely spread but identifications are unreliable (see P. ornata). Type locality: USA, North Carolina, Beaufort Inlet.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B17000FFF17FBF4FB377EA7.taxon	discussion	Remarks: Although the three samples used to obtain 16 S sequence data were collected at different dates they all proved to be identical and clearly distinct from P. ornata (Fig. 16). This clade seems to be about equally distant from P. ornata as it is from the Pacific P. flavicirrata Brandt, 1835. This evident barcoding gap argues for it representing a distinct species. The observed morphological differences to the sympatric P. ornata are listed above. It must be noted that P. gemmifera were found during the winter months, while the mature P. ornata were seen from March to June. Proboscidactyla gemmifera was described based on a single medusa which was probably not fully developed as it had only eight tentacles (Brooks, 1880; Fewkes, 1882 b). Mayer (1900, 1910) later supplemented more detailed descriptions of more advanced specimens from Florida. These descriptions do not agree with our specimens concerning the position of the blastostyles. Fewkes and Mayer found them at the junction of the radial canal to the manubrium, while in our samples they were located at the first bifurcation of the radial canals (Fig. 15 A). This is not necessary a significant difference. Kramp (1957, 1962) found the blastostyles in every possible position along the radial canals, this in various populations from the Pacifc (identified as P. ornata). He regarded this variation as without any systematic importance. Uchida & Sugiura (1975) examined the medusa bud development in a Japanese form of P. ornata and found that the position of the blastostyles is variable, depending on the developmental age (size) of the medusa. Smaller ones had them at the corners of the stomach, larger ones at the branching points. They also found that sexually mature medusae can continue budding medusae. Although with some hesitation, we therefore referred our medusae to Proboscidactyla gemmifera.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B170009FC72F886FEF77E99.taxon	type_taxon	type species Euphysilla pyramidata Kramp, 1955 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B170009FC72F886FEF77E99.taxon	diagnosis	Diagnosis: Medusa with pear- to egg-shaped umbrella in life; with apical chamber; manubrium with quadratic base; mouth circular; four equally developed tentacles with adaxial or abaxial nematocyst clasps and a terminal nematocyst knob; no gastric peduncle; mature gonads circular, surrounding manubrium; no ocelli. Usually with groups of medusa buds in middle part of manubrium.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B170009FC72F886FEF77E99.taxon	discussion	Remarks: The diagnosis of Euphysilla of Bouillon et al. (2006) was here slightly modified by adding “ with apical chamber ” (see below). Euphysilla pyramidata appears indistinguishable from the genus Sphaerocoryne except for the medusa budding and the absence of ocelli. It is here associated with the Sphaerocorynidae following Petersen (1990, as suborder Sphaerocorynida incerta sedis).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	description	Fig. 17 A-I	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	materials_examined	Examined material: BFLA 4396; 1 specimen; 17 - MAY- 2020; size 2.5 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528719. – BFLA 4397; 1 specimen; 17 - MAY- 2020; size 2 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528720. – BFLA 4402; 1 specimen; 26 - MAY- 2020; size 3 mm; preserved in formalin and deposited as UF- 014043. – BFLA 4468; 1 specimen; 17 - JUN- 2020; size 3 mm; preserved in formalin and deposited as UF- 014073. – BFLA 4478; 1 specimen; 18 - JUN- 2020; size 4 mm; preserved in ethanol for DNA extraction; 16 S sequence identical MW 528719.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	discussion	Observations: Umbrella 2 - 4 mm in height, oviform, with apical thickening of very variable height, lateral walls thin, exumbrella with scattered nematocysts. Above manubrium an apical chamber, without apparent connection to gastric cavity, size variable depending on size of apical process (Fig. 17 A-C). Manubrium an inverted cone, as long as bell cavity, base broad and cruciform in life (Fig. 17 D), more square-shaped when preserved, upper part of manubrium cylindrical, narrowing to tubular lower part of manubrium ending in small, circular mouth. All observed medusae were budding medusae, buds in groups on all four perradial sides of the manubrium in about the middle of the manubrium. Gonad-like opaque tissue layer covers manubrium above buds. Colour of manubrium intensively yellow-orange. Radial canals connected to manubrium by apparent short mesenteries (giving cruciform manubrium base), thin; circular canal more rectangular than circular. Four tentacles, contracted about half the length of the bell height, each with 8 - 12 crescent-shaped, clasping nematocyst pads, all in one row on adaxial side, terminal button ovoid, as wide as rest of tentacle. Four tentacle bulbs relatively small, orange-yellow, without well visible ocelli, but a faint reddish spots may be present on abaxial tentacle base (Fig. 17 A). Nematocyst (Fig. 17 F-I, preserved tissue, sizes approximative): small stenoteles (7 x 10 µm), large stenoteles (12 x 13 µm), desmonemes (4 x 9 µm), spherical microbasic eurytele with barbed filament, shaft appears without barbs (7 x 10 µm).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	description	16 S Data: The three obtained 16 S sequences represented two haplotypes, differing in only one base pair of 588. A blastn search in GenBank singled out a sequence (LT 714182) with very high similarity (99.3 %, Fig. 21). The sequence was obtained from a Sphaerocoryne polyp collected in the Maldives archipelago.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	distribution	Distribution: Circumglobal in tropical seas. Western Africa (Kramp, 1955 b); Gulf of Mexico (Segura- Puertas et al., 2003); Indian Ocean (Kramp, 1965; Vannucci & Santhakumari, 1969; Hamond, 1974); Red Sea (Schmidt, 1973); Bismarck Sea (Bouillon, 1978 b); Taiwan Strait (Xu & Huang, 2004); tropical eastern Pacific Ocean from Peru to Mexico (Segura-Puertas, 1984). Type locality: Atlantic Ocean, Gulf of Guinea, off the coast of Bénin; WGS 84 6.01667, 2.35000; depth 0 - 10 m.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B11000AFF34F892FC1A7CEB.taxon	discussion	Remarks: Euphysilla pyramidata has not been recorded frequently, this despite its apparent circumglobal distribution. Kramp’s type specimen had no medusa buds, but he states that it had developed gonads. Euphysilla pyramidata with medusa buds were then reported in nearly all descriptions subsequent to Kramp (1955 b, 1965) (see synonymy above). Hammond (1974) found both forms. Except for the medusa buds, our specimens matched Kramp (1955 b) quite well, including the yellow manubrium colour, although in Kramp’s formalin preserved material the remaining colour had become faint. The differences of our specimens and Kramp’s description in the shape of the manubrium (quadratic versus cruciform manubrium base, wide mouth versus narrow) can easily be attributed to fixation artefacts, viz. the type specimen having been preserved with an inflated stomach. Moreover, the stomach base depicted by Kramp (1955 b: pl. 2 fig. 3) is more cruciform than quadratic. Kramp (1955 b) did not mention an apical chamber, but his figure 1 on plate 1 shows such a chamber, although only faintly. Euphysilla pyramidata medusae reported from the Pacific Ocean by Bouillon (1978 b) have some differences to our material. First, the apical thickening, hence likely also the apical chamber, is absent and the umbrella is more spherical, thus unlike the type specimen figured in Kramp (1955 b). Second, Bouillon (1978 b) also describes the colour of the manubrium as rose-orange and the one of the bulbs as having a hue of red. Whether these are species level or population level differences remains to be investigated by genetic examinations. Perhaps Bouillon’s medusae are referrable to Euphysilla tubularia Huang, Xu & Lin, 2015, from which they appear not objectively separable. The tubular part of the manubrium in the mouth region in Euphysilla tubularia is certainly only a fixtion artefact. We observed the same in the present material. It is thus probable that E. pyramidata as currently perceived is a complex of species. As in other genera, including information on the polyp stage might change its scope. The 16 S sequences gave a surprising match with a hydroid of the genus Sphaerocoryne from the Maldives (LT 714182, Maggioni et al., 2017). The author of this sequence, Dr Davide Maggioni, kindly let us know that a publication describing this colony is currently in preparation.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B120034FC05FAA7FDA57B7F.taxon	diagnosis	Diagnosis: Newly liberated medusae with two opposite tentacles, umbrella bell-shaped, four perradial exumbrellar nematocyst patches or tracts containing stenoteles; four radial canals; with two or four marginal tentacles when fully grown, tentacles with numerous abaxial extensile cnidophores containing macrobasic euryteles; mouth simple, circular; gonads inter-radial; no ocelli. Hydroid stage colonial, with stolonal hydrorhiza, polyps sessile or with pedicels, usually unbranched, polyps monomorphic or polymorphic, when polymorphic polyps may be differentiated into gastrozooids, gonozooids, and dactylozooids; gastrozooids elongated, cylindrical or claviform, always with capitate tentacles, tentacles usually numerous and scattered over body, in some species reduced to a few tentacles; gonozooids and dactylozooids, when present, resembling reduced gastrozooids. Gonophores liberated as free medusae or rarely medusoids. Cnidome includes stenoteles and macrobasic euryteles, the latter type may be absent in the polyp stage.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B120034FC05FAA7FDA57B7F.taxon	discussion	Remarks: For the identification of many Zanclea species it is usually necessary to know the hydroid stage (Boero et al., 2000; Puce et al., 2002; Maggioni et al., 2018; Schuchert, 2010). Some Teisseriidae hydroids also produce Zanclea - like medusae, but they have ocelli. Boero et al. (2000) critically reviewed all known Zanclea, Zanclella, and Halocoryne and described several new species. Subsequently, a bewildering number of new species were described, based either solely on the medusa or the polyp stage (e. g. Gershwin & Zeidler, 2003; Puce et al., 2002; Galea, 2008; Puce et al., 2008; Xu et al., 2008; Pantos & Bythell, 2010; Hirose & Hirose, 2012; Varela, 2012; Montano et al., 2015; Pica et al., 2017). A molecular phylogeny was provided by Maggioni et al. (2018). It is now clear that the genus Zanclea is enormously diverse and the lumping of several nominal species into Zanclea costata as in Russell (1953) or Kramp (1959 a, 1968) is not tenable anymore.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2C0037FE99FC31FEE37A97.taxon	description	Figs 18 A-E, 19 A-H	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2C0037FE99FC31FEE37A97.taxon	materials_examined	Holotype: BFLA 4061; photographed (Fig. 18 A- E) and collected 10 - APR- 2019; 6 mm high, 3 mm wide; preserved in alcohol and used entirely for DNA extraction; frozen DNA solution deposited in MHNG under the catalogue number MHNG-INVE- 0137375; 16 S sequence MW 528663. Paratypes: BFLA 4219; 1 specimen; 27 - SEP- 2019; height 5 mm; preserved in alcohol for DNA extraction; frozen DNA solution deposited as MHNG- INVE- 0137377; 16 S sequence MW 528687. – BFLA 4281; 1 specimen; 06 - DEC- 2019; height 7 mm; preserved in alcohol for DNA extraction; frozen DNA solution deposited as MHNG-INVE- 0137378; 16 S sequence MW 528697. – BFLA 4297; 1 specimen; 09 - DEC- 2019; height 6 mm, width 4 mm; preserved in alcohol for DNA extraction; frozen DNA solution deposited as MHNG-INVE- 0137380; 16 S sequence MW 528703. Type locality: USA, Florida, 5.5 - 12 km east of Palm Beach; WGS 84 26.70, - 79.94 to 26.78, - 79.94; depth 10 m.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2C0037FE99FC31FEE37A97.taxon	etymology	Etymology: The name honours Alfred Goldsborough Mayor [Mayer] who described this species in his outstanding work of 1910 (for a biography see Stephens & Calder, 2006).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2C0037FE99FC31FEE37A97.taxon	description	Description: Mature medusa 4 to 7 mm high and 3 - 4 mm wide, bell bullet-shaped, apex rounded, lateral wall straight. Mesoglea relatively thick, thicker at apex. Exumbrella with four thick, white perradial nematocyst bands, protruding from surface, reaching from circular canal to apex, two opposite bands often recurved at apex (Fig. 18 A-C). Subumbrella with interradial pockets projecting into apical mesoglea (Fig. 18 A-B). Manubrium large, composed of a larger upper part and a thinner, short, cylindrical mouth region. Upper part of manubrium with cruciform cross-section (Fig. 19 B), gonads cover surface entirely as a thin layer, but separated perradially. Radial canals smooth. Only two tentacles, opposite, other two perradial positions without bulbs. Tentacles at base thick, without bulb formation, evenly tapering to very fine end, very contractile or extensible to more than 35 mm (Fig. 18 E). Tentacles with abaxial row of cnidophores, these relatively large, spherical, with long, contractile stalk (Figs 18 E, 19 D). No ocelli present. Colours: manubrium orange (females) or faintly orange (males), tentacles faint pink-orange. Nematocysts: macrobasic euryteles and stenoteles (Fig. 19 F-H). One medusa (Fig. 19 E) with a hydroid colony growing on upper part of manubrium, polyp with one whorl of few capitate tentacles, stolon-like processes in the manubrium tissue. It is not evident if this hydroid is derived from medusa or if it is a parasitic hydroid. 16 S data: The four available samples gave four different 16 S haplotypes with divergences of 0.8 - 1.2 %. A blastn search in GenBank with the obtained sequences yielded numerous Zanclea sequences, but all with less than 92 % identity. A maximum likelihood tree using part of the 16 S sequence data of Maggioni et al. (2018) did not associate the sample with any other (Fig. 21).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2C0037FE99FC31FEE37A97.taxon	discussion	Remarks: Mayer (1910) described and figured a single Zanclea medusa from Florida which he attributed to Zanclea costata Gegenbaur, 1857. His figure (pl. 8 fig. 6) obviously depicts the same medusa as shown here in Figs 18 - 19. Also, the size was the same (6 mm) and the umbrella shape matches. The scope of Z. costata has changed since then, although the identity of Gegenbaur’s medusa from the Mediterranean is still not entirely resolved (Brinckmann-Voss, 1970; Boero et al., 2000; Cerrano et al., 1997; Schuchert, 2010; Maggioni et al., 2018). Gegenbaur’s medusae were relatively big (2 - 5 mm), had four tentacles, and the nematocyst bands reached up to the apex. However, medusae that exactly matched Gegenbaur’s medusa have never been found again and the current scope of Z. costata goes back to Brinckmann-Voss (1970). The Mediterranean Z. costata has four marginal bulbs even in younger stages and with optimal growth it will develop four tentacles (Gegenbaur, 1857; Brinckmann-Voss, 1970; Schuchert, 2010). Zanclea mayeri is even larger than Z. costata but has only two tentacles and two bulbs. The divergence of the 16 S from Z. costata (GenBank entry FN 687559) is 9 % and 8.5 % from an unidentified Mediterranean Zanclea with four tentacles (GenBank entry KP 776810). Zanclea mayeri is distinct and does not match any of the known nominal Zanclea species. We therefore introduce it as a new nominal species. The holotype specimen of Zanclea mayeri n. spec. was used entirely to extract its DNA. The deposited type material is thus not a preserved specimen but only part of it as an extract of its genomic DNA in a buffered solution. A DNA solution serving as type specimen has so far not been used for any hydrozoan, but it is in accordance with the International Code of Zoological nomenclature as it can be regarded as a part of the type specimen (Article 72.5.1). Moreover, photos of the living holotype specimens are given in Fig. 18 A-E and applying article 72.5.6 of the ICZN the depicted specimen becomes the type specimen.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2F0030FC63FAB8FE417EBD.taxon	diagnosis	Diagnosis: Medusa with or without apical projection; four tentacles, either two long, opposed, capitate tentacles with capitate side branches and two opposed, shorter, simple capitate tentacles, or with four simple capitate tentacles; marginal tentacular bulbs clasping umbrella margin, bulbs with large hemispherical adaxial bulges covered with nematocysts, with abaxial ocelli; manubrium flask-shaped; mouth more or less cruciform, with or without simple lips; gonads interradial to adradial, smooth with interradial cleft or more adradial pads or vertical folds. Polyp stage unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B2F0030FC63FAB8FE417EBD.taxon	discussion	Remarks: The affinities of this genus were obscure for a long time. Hartlaub (1907) placed it in the Zancleidae, Mayer (1910) and Kramp (1961) in the Cladonematidae, Kramp (1965, 1968) in the Pandeidae. It was only when Bouillon (1978 b) examined the cnidome it became clear that the presence of stenoteles excluded the Pandeidae, while the desmonemes excluded the Zancleidae. Because also the Cladonematidae differ considerably, Bouillon (1978 b) proposed the new family Zancleopsidae to accommodate it. The family currently also includes the genus Dicnida Bouillon, 1978 b (Bouillon et al., 2006), but it is unclear if it belongs to the suborders Capitata or Aplanulata. Our results presented below show that the family belongs to the Capitata. The species delimitations within the genus Zancleopsis are not well worked out, despite the comparisons or keys given in Bouillon (1978 b, 1985) or Wang et al. (2016). The differences are mostly either due to mutilated- or to juvenile specimens having not yet developed diagnostic traits (Bouillon, 1978 b).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B280031FF3AF971FA427FB9.taxon	description	Figs 22 A-F, 23 A-F	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B280031FF3AF971FA427FB9.taxon	materials_examined	Examined material Small form: BFLA 4170; 1 specimen; 09 - AUG- 2019; size 3 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528683. – BFLA 4171; 1 specimen; 09 - AUG- 2019; size 3 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528684. – BFLA 4248; 1 specimen; 23 - NOV- 2019; size 2 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528692. – 13 - AUG- 2019, 3 mm, 1 specimen photographed, not collected. – 16 - OCT- 2019, no size estimate, 1 specimen photographed, not collected. Large form: BFLA 4408; 1 specimen; 26 - MAY- 2020; height 15 mm, 5 mm wide, male; preserved in alcohol for DNA extraction; 16 S sequence MW 528723. – BFLA 4436; 1 specimen; 07 - JUN- 2020; height 12 mm, female; preserved in formalin and deposited as UF- 014054. – BFLA 4467; 1 specimen; 17 - JUN- 2020; height 15 mm, 5 mm wide, female; preserved in formalin and deposited as UF- 014072, part of broken tentacle preserved in alcohol for DNA extraction; 16 S sequence MW 528732. – 11 - APR- 2019; 1 specimen photographed; size 10 - 15 mm, with male gonads; not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B280031FF3AF971FA427FB9.taxon	discussion	Observations Small form (Fig. 22): Total bell height up to 3 mm, 1 / 4 to 1 / 3 of the height taken by pointed apical process; umbrella bell-shaped to conical, relatively thick walls, with shallow interradial subumbrellar pockets, tip of apical process green (Fig. 22 A, E). Manubrium height about half the subumbrellar height when gonads start to develop, pear-shaped, short tubular oral part, mouth rim with four perradial white regions, upper part of manubrium (stomach) ochre coloured, with about 10 longitudinal, shallow gonad folds, folds mostly adradial, irregular. Radial canals not forming mesenteries, smooth. Tentacle bulbs all equally developed, almost spherical, placed adaxial of origin of tentacles, white or faintly yellow. Two long, opposite tentacles, much extendable / contractible, with up to 25 short, abaxial, side branches ending in nematocyst knobs, size of knobs gradually increasing towards distal (Fig. 22 F). The other tentacle pair very short, ending in spherical nematocyst knob. In youngest animals observed these short tentacles either missing or just beginning to develop (Fig. 22 E). All tentacle bases with a red ocellus on abaxial side. Nematocysts (alcohol preserved tissue, BFLA 4171): larger stenoteles [(24 - 26) x (22 - 23) µm], smaller stenoteles [(18 + 21) x (14 - 17) µm], desmonemes [8.5 x 5 µm], and macrobasic euryteles [(15 - 16) x (6 - 7) µm]. Large form (Fig. 23): Much larger than small form, height 8 to 15 mm and 5 mm diameter, apical process larger reaching 1 / 2 of total height, tip of apical process whitish, gonads always present, more and larger vertical gonad folds, approximately up to 15, 2 - 3 folds adradial, brownish, oocytes yellow (Fig. 23 A), tentacle bulbs with intense yellow colour, shorter tentacle pair longer than in small form, sometimes terminal knob missing (Fig. 23 B). 16 S Data: The haplotypes of the small form differed in 0.5 - 0.8 % of the base pairs, in the large form 0.3 %. The maximal divergence observed between the two forms was 6.2 % base pair difference. The maximum likelihood analysis (Fig. 21) identified Astrocoryne cabela Maggioni et al., 2017 polyps from the Red Sea and the Maldives Islands as relatively closely related, if not conspecific.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B280031FF3AF971FA427FB9.taxon	distribution	Distribution: Florida, Bermuda Islands, mid North Atlantic, Brazil (Kramp, 1959 a; Navas-Pereira, 1980). Type locality: USA, Florida, Dry Tortugas archipelago. The record for the China Sea (Xu et al., 2014) is based on a juvenile, indeterminable animal.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B280031FF3AF971FA427FB9.taxon	discussion	Remarks: This is a rare species of which only a few specimens have been reported. Our samples separated into two size categories which also had slight morphological differences, but explainable by different developmental stages being present. The smaller (bell size up to 3 mm) corresponded more to Mayer’s (1910) description, while the larger ones corresponds to Bigelow’s (1938) specimen. The only difference to Bigelow’s material was the length of the tentacles and the presence of terminal knobs in the shorter pair of tentacles. However, this is easily explained by damage during the collecting process of Bigelow’s material. Also Kramp (1965: 25) observed that the distal parts of the tentacles are often lost in net material. In one of our specimens, one knob was also missing (Fig. 23 B). Mayer (1900) described Gemmaria dichotoma based on several, but apparently all immature medusa of 3 mm bell height. He characterised them as having only a single pair of branched tentacles. This is certainly attributable to the rather young stages he had. Also in some of our younger stages the short tentacles were either just developing or absent (Fig. 22 E). Were it not for the 16 S results, we would have attributed without hesitation the two forms to two different developmental stages of the same species. The 16 S barcode sequences separated the large and small forms into two distinct lineages (Fig. 22) which differed maximally in 6.2 % of their aligned bases. We have no reference values of what constitutes intraspecific variation for this family, but the value is quite high compared to other species (comp. Table 1). Due to the absence of any other diagnostic feature, we preferred for the moment to regard these two forms as belonging to the same species and representing younger and older stages. Many hydromedusae are known to continue their growth even when their gonads get mature. Note also that both forms were found at different times of the year (August to October versus April to June). If the two forms belong to the same species, then the differences in the 16 S sequences deserves nevertheless some thoughts, beyond the possibility that they are simply stochastic variations observed in the small number of specimens. It can be argued that the larger forms are certainly also older and have thus spent more time in the current of the Gulfstream. This would then imply that the two forms come from quite different localities, the different 16 S haplotypes might therefore come from separate populations. Kramp (1968: 39) suspected that Z. dichotoma and Z. tentaculata are conspecific [for descriptions of Z. tentaculata see Kramp (1965, 1968) and Bouillon (1978 b)]. Bouillon (1978 b; 1985) kept them distinct, but he also had some doubts about the suitability of the distinguishing traits. Some of them are linked to the developmental stage (size and shape of bell, position and shape of the gonads, length and form of tentacles), others are clearly due to damages and losses during the collecting process (tentacle lengths and terminal knobs).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003CFECBFED7FAEC797B.taxon	diagnosis	Diagnosis: Medusa bell apex dome-shaped or pointed. Four marginal bulbs present, without long exumbrellar spurs. With a single tentacle or three short tentacles and one long tentacle that differs not merely in size, but also in structure. Manubrium thin-walled, sausage-shaped with flared mouth rim, reaching to umbrella margin. Cnidome comprises stenoteles, desmonemes, and haplonemes. Hydroids solitary with more or less vasiform hydranth and long caulus. Hydranth with one or several closely set oral whorls of 16 or more moniliform or filiform tentacles and one aboral whorl of 16 or more long, non-contractile filiform tentacles. Hydrocaulus stout, covered by thin perisarc, filled with parenchymatic gastrodermis, with long peripheral canals; aboral end of caulus with papillae turning more aborally into rooting filaments, rooting filaments composed of epidermis and solid gastrodermis, sometimes tips with non-ciliated statocysts. With or without asexual reproduction through constriction of tissue from aboral end of hydrocaulus. Gonophores develop on blastostyles arranged in a whorl over aboral tentacles. Gonophores remain either fixed as sporosacs or are released as free medusae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003CFECBFED7FAEC797B.taxon	discussion	Remarks: Corymorpha species usually have a rather simple medusa and a more complex hydroid stage offering more discriminating details. Corymorpha species that are solely based on the medusa stage are thus potentially species complexes which could be split into several species once their polyp stages become known. This is particularly pertinent for species with suspiciously wide distributions like C. forbesii.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003DFC66FE33FD457AE0.taxon	description	Fig. 24 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003DFC66FE33FD457AE0.taxon	materials_examined	Examined material: BFLA 4045; 1 specimen; 01 - APR- 2019; preserved in ethanol for DNA extraction; 16 S sequence MW 528642. – 24 - JUN- 2019; 1 specimen photographed, with male gonads, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003DFC66FE33FD457AE0.taxon	discussion	Observations: Umbrella bell-shaped, height size 2 mm, higher than wide, no apical process or a slight apical thickening, no exumbrellar nematocysts. Manubrium spindle-shaped, length about 2 / 3 of subumbrellar height, simple mouth, gonads encircle manubrium without interruption. Four large marginal bulbs, all of similar size or bulb opposite tentacle larger than the two other atentacular bulbs, bulb surface covered with nematocysts. Only one single tentacle, rather stiff, length 1.5 the bell height, 2 / 3 of length isodiametric and with only few nematocysts, distal third a club-shaped terminal swelling with numerous nematocysts.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003DFC66FE33FD457AE0.taxon	description	16 S Data: A blastn search in GenBank using the sole 16 S indicated Corymorpha glacialis as best match, although with only 84 % identity. This species was followed by other Corymorpha and Aplanulata species with similar low identify scores.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B24003DFC66FE33FD457AE0.taxon	distribution	Distribution: Florida, Bahamas, Brazil, Mediterranean, Red Sea, Seychelles, India, Vietnam, Papua New Guinea, southern Japan, and New Zealand (Schuchert, 2010). Type locality: Bahamas; Nassau Harbour.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	description	Fig. 25 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	materials_examined	Examined material: BFLA 4368; 1 specimen; size 4 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528715. – BFLA 4401; 1 specimen; size 6 mm; preserved in ethanol for DNA extraction; 16 S sequence identical to MW 528715.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	discussion	Observations: Umbrella bell-shaped, height 4 to 6 mm, about two times higher than wide, with very large, pointed apical process, often of the same size as the umbrella. No gastric peduncle. Manubrium tubular with some tapering towards mouth, length about 1 / 2 to 4 / 5 of the subumbrellar height, with long, conspicuous apical canal entering apical process (Fig. 25 A-B), distal end often somewhat thickened and yellow in colour. Gonads wrapping manubrium entirely without perradial interruptions. Marginal tentacles of distinct types, one long, extensible tentacle with up to 7 large, oblong nematocyst clusters encircling tentacle entirely, some smaller annular nematocyst, clusters can be present, terminal cluster oblong and slightly thicker than annular ones. The annular clusters may be absent and only a few small clasping clusters can be present (likely in regeneration after tentacles loss). Other tentacles reduced to mere cones, the one opposite the longer tentacle about twice as long as the other two. Radial canals fine, but well visible due to white-yellowish pigmentation. Gastrodermis of tentacles with some red hues.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	discussion	16 S Data: A blastn search in GenBank using the sole 16 S indicated Corymorpha nutans as best match, although with only 89 % identity. This species was followed by other Corymorpha and Aplanulata species with similar low identity scores.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	distribution	Distribution: Atlantic cost of the USA from New England to Florida (Brooks, 1883; Kramp 1959); Brazil (Kramp, 1959; Nagata et al., 2014); South Atlantic (Goy, 1979). Doubtful records from the Benguela current (Pagès et al., 1992). Type locality: USA, North Carolina, Newport River.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B25003DFF31FC9CFBFC7DA4.taxon	discussion	Remarks: The specimen depicted by Pagès et al. (1992) and identified as Euphysora gracilis (syn. Corymorpha gracilis) lacked the typical large apical projection with the gastrodermal process in it. It is therefore not unambiguously attributable to Corymorpha gracilis.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	description	Fig. 26 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	materials_examined	Holotype: BFLU 4371; 1 formalin preserved male medusa deposited as FU- 014026; collected 16 - MAR- 2020; bell height 3 mm. Other examined material: BFLA 4362; 1 specimen; 13 - MAR- 2020; preserved in ethanol for DNA extraction; 2 mm bell; 16 S sequence MW 528714. – BFLA 4363; 1 specimen; 13 - MAR- 2020; preserved in ethanol for DNA extraction; 2 mm bell; 16 S sequence identical to MW 528714. – BFLA 4364; 1 specimen; 13 - MAR- 2020; preserved in ethanol for DNA extraction; 2 mm bell; 16 S sequence identical to MW 528714. – BFLA 4365; 1 specimen; 13 - MAR- 2020; preserved in ethanol for DNA extraction; 2 mm bell; 16 S sequence identical to MW 528714. – BFLA 4437; 1 specimen; 07 - JUN- 2020; preserved formalin and submitted as FU- 014055; 4 mm bell. – 13 - MAR- 2020; 1 specimen photographed, not collected; 2 mm. – 16 - MAR- 2020; 2 specimens photographed, not collected; 2 mm. Type locality: USA, Florida, 5.5 - 12 km east of Palm Beach; WGS 84 26.70, - 79.94 to 26.78, - 79.94; depth 10 m.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	etymology	Etymology: The name refers to the Florida Peninsula were the species was found.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	diagnosis	Diagnosis: Corymorpha species with one long moniliform tentacle, one much shorter filiform tentacle opposite, and two tentacle stumps. Long tentacle with up to five orange, round to oblong nematocyst rings, including a terminal button. Bell with very small, pointed apical projection, no apical canal. Manubrium simple, on short gastric peduncle.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	description	Description: Medusa with umbrella 2 - 3 mm high and about 1.6 mm wide (Fig. 26 A-E), evenly bell-shaped, jelly relatively thin, not much thickened at apex, regularly with a small, pointed projection, not much varied in size. Manubrium on short gastric peduncle, spindle shaped, about half or somewhat more of the height of the subumbrella, mouth circular, with white rim. Gonads encircle nearly whole manubrium as relatively thin layer, without folds or perradial interruption. Four radial canals and circular canal thin, smooth. No tentacle bulbs or ocelli. Four tentacles of three types. One long tentacle, much extensible, contracted about two bell heights long, thick, only slightly tapering; nematocysts concentrated in three to five nematocyst rings, one knob in terminal position, rings more or less equidistant and well separated, shape round to oblong when tentacle extended, colour orange. Tentacle opposite the long tentacle about half the length of the bell-height, evenly thick, end rounded, without nematocyst buttons, with some nematocysts at base and at end. Other two tentacles short, length about 1 / 3 of filiform tentacle, conical, with scattered nematocysts. Variation: the mid-length tentacle was missing in one specimen (Fig. 26 E), otherwise morphology rather uniform. Corymorpha floridana, like other Corymorpha species, has a rather distinctive zigzag swimming style due to its unbalanced tentacle arrangement. 16 S Data: A blastn search in GenBank using the sole 16 S indicated Corymorpha nutans as best match, although with only 88 % identity. This species was followed by other Corymorpha and other Aplanulata species with similar low identify scores.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B26003FFED2FE96FB8F7CFC.taxon	discussion	Remarks: We were unable to identify our material with any of the described Corymorpha species (Schuchert, 2020) and therefore introduce it here as a new nominal species. With its tentacle configuration it conforms with the scope Euphysora Maas, 1905, a genus synonymized with Corymorpha M. Sars, 1835 by Petersen (1990). Some authors continue to regard it as valid, e. g. Bouillon et al. (2006). Corymorpha floridana n. spec. resembles three other species, but can easily be distinguished from them: – Corymorpha bigelowi (Maas, 1905): has a long tentacle with adaxial nematocyst clasps and not in rings, also larger apical projection; Indo-Pacific distribution (Schuchert, 2010; Madkour et al., 2019). – Corymorpha annulata (Kramp, 1928): has a distinct apical canal, a larger apical projection, many more (up to 17) nematocyst rings and these much narrower and not round or oval; Indo-Pacific distribution (Kramp, 1968). – Corymorpha crassocanalis (Xu & Huang, 2003): has a long tentacle with adaxial nematocyst clasps and not in rings, no apical canal, broad and indistinct apical projection, broad radial canals (coasts of China). Although distinct, Corymorpha floridana n. spec. is a rather simple medusa from a genus with a much more complex polyp stage. There is thus a danger that more than one polyp could be found that produce the same medusa (e. g. as for many Clytia species) and the species will thus become unrecognizable. However, through the available 16 S sequence data this problem is likely resolved. To our knowledge, there is only one polyp- based Corymorpha species that is endemic to the NW Atlantic, namely Corymorpha pendula L. Agassiz, 1862, but this species does not produce free medusae. The polyp of the medusa Corymorpha bigelowi was described by Sassaman & Rees (1978).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003FFC07FAF5FC747EE7.taxon	type_taxon	type species Medusa crucigera Gmelin, 1788 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003FFC07FAF5FC747EE7.taxon	diagnosis	Diagnosis: Medusa with four simple radial canals; gonads along radial canals; with marginal cordyli, with or without marginal cirri, with adaxial ocelli, without statocysts.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	description	Fig 27 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	materials_examined	Examined material: BFLA 3797; 1 specimen; 13 - OCT- 2018; size 6 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528645. – BFLA 3806; 1 specimen; 19 - OCT- 2018; preserved in alcohol for DNA extraction; 16 S sequence MW 528646. – BFLA 3812; 1 specimen; 20 - OCT- 2018; size 8 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528647. – BFLA 3836; 1 specimen; 19 - NOV- 2018; size 6 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528648. – BFLA 4126; 1 specimen; 06 - JUN- 2019; size 10 mm; has one branched radial canal, thus 5 radial canals in total; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528648. – 04 - MAR- 2019; 1 specimen photographed, with one radial canal joining another radial canal instead of manubrium, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	discussion	Observations: Laodicea medusae with umbrella up to 10 mm wide, all individuals not fully grown; stomach quadratic, short, with four folded lips. Gonads contiguous with stomach and spreading along proximal half to 2 / 3 (depending on bell size and age) of widened radial canals (= basal stomach pouches or extensions), flat leaf-like, pendant, sinuous. Up to 100 tentacles; small tentacle bulbs that taper gradually into tentacle, bulb usually with an adaxial ocellus, usually one marginal cirrus between successive tentacles; usually one cordylus between successive tentacles.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	description	16 S Data: A blastn search in GenBank with the four obtained sequences gave always as best match one of the European Laodicea undulate sequences, although the similarities were rather low (92 - 95 %). The haplotypes from Florida showed high divergence values of up to 10.6 % (Table 1), while the three European haplotypes have only 0.5 % bp differences. A maximum likelihood tree separated the sequenced into three distinct lineages (Fig. 28).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	distribution	Distribution: Eastern Atlantic and adjacent waters from Iceland and northern Norway to South Africa; western Atlantic from Nova Scotia to Tierra del Fuego; Mediterranean (Kramp, 1968). Some occasional records from the Indo-Pacific require a re-evaluation (Schuchert, 2017 a). Type locality: The Minch, Scotland.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B27003AFCB5F89BFDB37919.taxon	discussion	Remarks: It is arguable if the widened radial canals with the gonads (Fig. 27) should not better be interpreted as basal perradial extensions or pouches of the manubrium. Although the animals of this study were morphologically not separable, some of their 16 S sequences were very divergent, suggesting the presence of cryptic species (Fig. 28). Laodicea undulata has a complex synonymy. It includes also a nominal species of the NE Atlantic, namely Laodicea calcarata L. Agassiz, 1862 (see Agassiz, 1865), but this nominal species is currently not separable from L. undulata (comp. Cornelius, 1995; Schuchert, 2017 a). Mayer (1900) described Laodicea neptuna from Florida. As it has only eight tentacles it cannot be one of the Laodicea observed here. Kramp (1959 a) regarded it as a species inquirenda.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B22003AFEC6FE37FE107B3A.taxon	type_taxon	type species Melicertissa clavigera Haeckel, 1879 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B22003AFEC6FE37FE107B3A.taxon	diagnosis	Diagnosis: Medusae with eight unbranched radial canals; stomach with eight basal perradial stomach extensions, leaf-like; bulbs and cordyli with adaxial ocelli; with or without cirri. Hydroid Hebella like.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B22003AFEC6FE37FE107B3A.taxon	discussion	Remarks: See Uribe-Palomino et al. (2018: 26, table 1) for a synopsis of the species.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	description	Fig. 29 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	materials_examined	Examined material: BFLA 4451; 1 specimen; 08 - JUN- 2020; size 10 mm; part preserved in formalin and deposited as UF- 014062, part preserved in alcohol for DNA extraction; 16 S MW 528729.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	discussion	Observations: Melicertissa medusa with nearly hemispherical bell, diameter 10 mm, apical jelly thickened. Manubrium relatively small, cross-section an eight-rayed star, mouth with eight simple lips, base starshaped and widened, continued as eight basal perradial stomach extensions, leaf-like, replacing about 2 / 3 of radial canal, continued after this as thin, unbranched radial canal. Gonads on distal part of basal stomach extensions, flat and leaf-like on both sides of extension, occasional folds present (Fig. 29 B). Eight perradial and eight interradial tentacles fully developed, three adradial small tentacles, total number thus 19. Tentacle bulbs conical to ovoid. Between each pair of tentacles 1 - 3 cordyli, totally about 35. Adaxial ocelli on circular canal opposite each tentacle bulband cordylus. Cirri absent. Mostly colourless, gonads white, sides of tentacle bulbs with green hue.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	description	16 S Data: A blastn search in GenBank with the obtained sequences gave a good match of 98.7 % similarity with the sequence FJ 550496 obtained from the hydroid Hebella venusta (Allman, 1877). The maximum likelihood tree also shows the close relationship (Fig. 28).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	distribution	Distribution: Florida (Kramp, 1959 a);? Indian Ocean (Navas-Pereira & Vannucci, 1991; a single individual only). Type locality: USA, Florida, Dry Tortugas archipelago.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B220024FEC3FCF7FE867DC3.taxon	discussion	Remarks: Mayer (1910) identified Melicertissa medusae from Florida as M. clavigera Haeckel, 1879 despite them having 16 tentacles instead of 8 as for typical M. clavigera. He considered this as intraspecifc variation with possibly M. clavigera being a younger form. Nair (1951) questioned this, mainly based on the assumption that Haeckel described M. clavigera has having 24 cordyli at a size of 10 mm, while Mayer (1910) depicted his medusa with only 16 cordyli at a diameter of 7 mm. If Mayer’s specimens were older and had more tentacles, then they should not have fewer cordyli (although they might have been lost, they break away easily). Kramp (1959 a) adopted Nair’s suggestion and introduced the new name Melicertissa mayeri for Mayer’s specimens. However, both Nair and Kramp must have overlooked comments in Mayer (1910: 211) in which he described the variation of tentacle numbers and cordyli. Some interradial tentacles may be replaced by a cordylus (resulting thus in less than 16 tentacles). Some octants of the bell may have two tentacles and three cordyli, others had three tentacles and 2 cordyli. The number of tentacles and cordyli is thus variable and Mayer’s (1910) conclusion that M. clavigera is conspecific with the Florida population is understandable and needs re-examination using genetic methods. Our specimen had 19 tentacles and about 35 cordyli, deviating thus somewhat from the scope given in Mayer (1910) and Kramp (1959 a). Only very few specimens of both M. clavigera and M. mayeri have been described so far and it is very likely that the intraspecific variation of the tentacle- and cordylus numbers has been underestimated. Therefore, we nevertheless identified the present medusa as M. mayeri. The 16 S sequence matched rather closely (1.3 % base pair differences, Fig. 28) to a sequence obtained from the hydroid Hebella venusta (Allman, 1877) collected in Honduras and growing on the hydroid Thyroscyphus marginatus (Fig. 30). The type material of Hebella venusta came from Loggerhead Key, Florida. Recent descriptions of Hebella venusta are given by Galea (2010) and Calder (2013, 2019). It is a nominal species with very few diagnostic traits and Boero et al. (1997) are right considering it a species inquirenda as our current concept of it could include several species (viz. the same hydroid morphotype but producing different medusae). It is therefore not clear if the material from which the sequence FJ 550496 was obtained corresponds really to the H. venusta at the type locality. However, Melicertissa mayeri is clearly not a member of the Laodiceidae (Fig. 28) but must be transferred to the Hebellidae (comp. also Migotto & Andrade, 2000). According to the tree (Fig. 28) it appears even congeneric with Staurodiscus.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3C0024FECBF9BDFB227F53.taxon	type_taxon	type species Staurodiscus tetrastaurus Haeckel, 1879 (Kramp, 1961: 147).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3C0024FECBF9BDFB227F53.taxon	diagnosis	Diagnosis: Medusa with 4 or more main primary radial canals, some or all branching one or more times, primary canal and some or all of the branches reaching circular canal; gonads on primary radial canals and branches; numerous tentacles and cordyli; with or without cirri; with or without ocelli. Hydroid epizootic, Hebella - like; hydrothecae almost conical when growing on upper part of the host, cylindrical when growing on lower part of same host; asymmetrical to symmetrical; with everted margin, sharply or slightly oblique, with short to long, wrinkled or annulated pedicels; with membranous diaphragm (sometimes absent) and annular thickening; gonophores as free medusae; gonotheca as big or slightly bigger than hydrotheca, with four opercular flaps, on short pedicel, slightly undulated walls, truncated distally, tapering at base, containing up to three medusae (Bouillon et al., 2006).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3C0024FECBF9BDFB227F53.taxon	discussion	Remarks: See Kramp (1962) and Bouillon (1984 b) for emended diagnosis and synopsis of the species. For the life cycle see Migotto & Andrade (2000).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	description	Fig. 31 A-H	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	materials_examined	Examined material: BFLA 4050; 1 male; 01 - APR- 2019; size 20 mm; preserved in formalin (UF- 013450) and small part in alcohol for DNA extraction; 16 S sequence MW 528661. – BFLA 4074; 1 specimen; 11 - APR- 2019; size 13 mm; preserved in formalin (UF- 013784) and small part in alcohol for DNA extraction; 16 S sequence identical to MW 528721. – BFLA 4107; 1 specimen; 27 - MAY- 2019; size 10 mm, only 9 radial canals; preserved in formalin (UF- 013794) and small part in alcohol for DNA extraction; 16 S sequence MW 528675. – BFLA 4242; 1 specimen; 11 - NOV- 2019; size 7 mm; preserved in formalin (UF- 013835, sample macerated, only debris left) and part in alcohol for DNA extraction; 16 S sequence MW 528691. – BFLA 4399; 1 specimen; 17 - MAY- 2020; size 11 mm; preserved in formalin (UF- 014041) and small part in alcohol for DNA extraction; 16 S sequence MW 528721. – BFLA 4404; 1 specimen; 26 - MAY- 2020; size 8 mm; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528721. – BFLA 4424; 1 specimen; 28 - MAY- 2019; size 9 mm; preserved in formalin (UF- 014050) and small part in alcohol for DNA extraction; 16 S sequence MW 528726. – BFLA 4452; 1 specimen; 08 - JUN- 2020; size 14 mm; preserved in formalin and deposited as UF- 013450. – 30 - MAY- 2020; 1 specimen; photographed but not collected; 10 mm, 9 radial canals, juvenile.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	discussion	Observations: Umbrella diameter 10 - 20 mm, hemispherical or slightly flatter than hemisphere, lateral jelly thin but gradually thickening towards apex, the latter moderately thick. Manubrium rather flat, mouth wide open or a short tube with variable number of folded lips, manubrium base much enlarged and drawn out star-like into up to 12 basal extensions which may branch into two or three radial stomach extensions and reaching almost to circular canal, continued as short radial canals (about 1 / 6 of bell radius) and these all connected to circular canal, no blind ending radial canals or stomach extensions, 16 - 19 radial canals. Branching pattern variable and irregular, some radial canals not branching. Gonads develop on lateral walls of stomach extensions, reaching from branching points to beginning of radial canals, colour pale reddish-brown or brown-yellow. Tentacles 23 - 32, with distinct ovoid marginal bulb, black ocellus on adaxial side where joined to umbrella. Marginal bulbs independent of radial canals. Between each pair of tentacles usually one, sometimes 2 - 3 (especially in smaller animals) elongate cordyli, cordyli with a few terminal nematocysts, at attachment site on adaxial side a black ocellus. No statocysts.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	description	16 S Data: The six 16 S sequences obtained represented four haplotypes with only 0.16 to 0.5 % base pair differences. In the maximum likelihood tree (Fig. 28) they are well separated from the other Staurodiscus species and also Melicertissa of this study.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	distribution	Distribution: Florida and Gulf of Maine (Kramp, 1959 a). Type locality: USA, Florida, Dry Tortugas archipelago. The Mediterranean occurrence given in Bouillon et al. (2004) is based on records of the hydroid Hebella furax Millard, 1957 and is most likely incorrect because the medusa is not known to occur in this well investigated area. It is by no means evident that the simple hydroid Hebella furax corresponds to Staurodiscus kellneri in all regions it has been reported. It is highly probable that Hebella furax represent a species complex (see also Remarks below).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3D0027FF30FE96FD737CB3.taxon	discussion	Remarks: This is a rare medusa, only a few individuals have been described so far and the variation of the number of tentacles, radial canals, and the branching of the stomach extensions were not well known. Migotto & Andrade (2000) reared medusae released from a hydroid they collected in coastal waters of Brazil and identified as Hebella furax Millard, 1957. The resulting adult medusae were clearly identifiable as S. kellneri, although the authors hesitated somewhat with this identification, presumably because the branching pattern of the radial canals / stomach extensions were more variable than documented before. This trait was rather variable in our specimens too (Fig. 31 A-G) and confirms the observations of Migotto & Andrade (2000). However, Hebella furax cannot simply be synonymized with Staurodiscus kellneri. Hebella furax [see Millard (1975) and also Boero et al. (1997)] was originally described from South Africa and is a widespread, rather simple hydroid offering few diagnostic features. It is very likely that it does not produce S. kellneri medusae over its whole distribution range, just like the “ Campanulina ” - type hydroids produce medusae belonging to different genera (see Schuchert et al., 2017 for similar cases). Staurodiscus brooksii (Mayer, 1910) (see description in Kramp, 1959 a) from the Bahamas appears very similar to S. kellneri. The former has fewer tentacles and also fewer radial canals because four radial canals are unbranched. BFLA 4399 had exactly this condition (Fig. 31 F), while others like BLFA 4050 (Fig. 31 A) had it partially. Mayer (1910) described S. brooksii based on drawings made by the late William K. Brooks of a medusa collected from Nassau, Bahama Islands. The drawing did not show ocelli, but they were probably overlooked by Brooks as they are rather small and not well visible (Fig. 31 H). Kramp (1959 a) pointed out that also the cordyli were also not mentioned in Mayer (1910), but they are shown in Mayer’s figure (1910: 118 aA). Staurodiscus brooksii must evidently be a younger stage of Staurodiscus kellneri and we regard both as conspecific. Both names were introduced in Mayer (1910), with S. brooksii appearing on page 227, S. kellneri on page 229. As the current ICZN does not enforce page precedence for synonymized names appearing in the same work, acting as first revisors we prefer to use the name Staurodiscus kellneri for the present species. It is the better and more precisely known nominal species and has been reported subsequently, while S. brooksii is incompletely described and has not been reported anymore (based on Kramp, 1961). With the new data on the variability of the radial canals and their branching pattern in Staurodiscus kellneri, S. milleri (Bouillon, 1984 b) becomes hardly distinguishable. They could well be conspecific. The only tangible difference remaining being the smaller size of S. milleri (up to 8.5 mm versus 10 - 20 mm). Although we think that both names should be synonymized, we hesitate to do so for biogeographic reasons. Staurodiscus milleri is only known from the Bismarck Sea, thus both nominal species have a very disjunct distribution.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	description	Figs 32 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	materials_examined	Examined material: BFLA 3831; 1 specimen; 15 - NOV- 2018; size 7 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528662. – BFLA 4406; 1 specimen; 26 - MAY- 2020; size 8 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528722. – BFLA 4433; 1 specimen; 30 - MAY- 2020; size 5 mm; preserved in ethanol for DNA extraction; 16 S sequence identical MW 528722. – BFLA 4440; 1 specimen; 07 - MAY- 2020; size 10 mm; preserved in ethanol for DNA extraction; 16 S sequence identical to MW 528662. – BFLA 4444; 1 specimen; 07 - MAY- 2020; size 15 mm; part preserved in formalin and deposited as UF- 014059, small part preserved in ethanol for DNA extraction; 16 S sequence identical to MW 528662. – 11 - DEC- 2017; 1 specimen photographed; juvenile, gonads not yet developed, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	discussion	Observations: Bell hemispherical, 8 to 15 mm when mature, apical jelly about 1 / 3 of total height. Manubrium composed of central, cylindrical part and four basal, perradial extensions each with two lateral outgrowths in about middle of bell. Central part of manubrium tubular, with cruciform mouth opening drawn into four lips, margin slightly undulated. Basal, perradial extensions of stomach reaching almost to circular canal and thus length of radial canals to circular canal is short (1 / 4); stomach outgrowths relatively thick, giving off lateral diverticula in about the middle, these paired outgrowths opposite or not, oblique to radial axis or slightly curved, towards ends somewhat irregularly folded or undulating, not connecting to circular canal. Gonads in walls of stomach outgrowths. Mature animals with 23 - 30 tentacles and 1 - 3 cordyli between each pair of tentacles. Young animal with four perradial tentacles only and 7 - 9 cordyli per quadrant (Fig. 32 A). Tentacles with conical bulbs. Small, inconspicuous ocelli present on adaxial side of tentacles bulbs and attachment sites of cordyli (Fig. 32 F). Animal colourless or with greenish tint. Amphipods appear often to associate with the medusa (Fig. 32).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	description	16 S Data: The five obtained 16 S sequences represented 2 haplotypes differing only one position (an insertion / deletion). In the maximum likelihood tree (Fig. 28) they are well separated from the other Staurodiscus species and also Melicertissa of this study. It is part of a well supported clade comprising the Staurodiscus species of this study and some Hebellidae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	distribution	Distribution: Canary Islands, Florida, Caribbean Sea, coast of Mozambique, coasts of India, Singapore, Taiwan Strait, Bismarck Sea (Kramp, 1959 a, 1968; Bouillon 1978 a, 1984 b; Navas-Pereira & Vannuci, 1991; Zhang, 1999; Segura-Puertas et al., 2003). Type locality: Atlantic Ocean, Canary Islands, near Lanzarote.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3F0020FF28FB4FFC0479D6.taxon	discussion	Remarks: Haeckel (1879) introduced two nominal Staurodiscus species, S. tetrastaurus and S. heterosceles, both collected at the same time and near Lanzarote Island. The former had 8 - 16 tentacles, 48 cordyli, and a bell diameter of 4 - 6 mm, the latter 8 - 32 tentacles, 40 - 80 cordyli, and a bell diameter of 6 - 8 mm [note that the figures in Kramp (1959 a, 1968) depict a juvenile S. tetrastaurus with four tentacles, compare Fig. 32 A]. Additionally, Haeckel distinguished both nominal species based on the branching pattern of the radial canals (= actually basal extensions of the manubrium, comp. Fig. 32 A, E, G): S. tetrastaurus has opposite pairs, while they were not opposite in S. heterosceles. Haeckel (1879) also observed intermediate forms and explicitly expressed doubts that they are “ bona species ”, but nevertheless named both forms [Haeckel used an artificial, typological species concept and did not distinguish biological species, comp. comments in Haeckel, 1879: XXV, 109]. Kramp (1962, 1968) too thought that both names refer likely to the same species. One of our specimen (BFLA 3831) was also intermediate as it had the size and tentacle numbers of S. heterosceles, but the outgrowths of the stomach had opposite sidebranches (Fig. 32 E). Others (Fig. 32 G) had a variable branching pattern. The observed juvenile specimen (Fig. 32 A) had three opposite and one alternate pairs of side-branches. It is thus quite clear that S. tetrastaurus and S. heterosceles must be regarded as conspecific, S. tetrastaurus being the valid name. Medusae identified as Staurodiscus heterosceles have – to our knowledge – not been recorded anymore since Haeckel’s time. Andrade & Migotto (1997) reared the initial stages of medusae released from a hydroid referable to Hebella scandens (Bale, 1888) and found that they resembled our S. tetrastaurus. Our 16 S phylogeny (Fig. 28) also suggests a more close relationship to Hebellidae than to Laodiceidae. Staurodiscus tetrastaurus is the type species of the genus, thus decisive to which family the genus belongs.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FC7CF99BFB967FDC.taxon	type_taxon	type species Mesonema pileus Lesson, 1843 (Kramp, 1961).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FC7CF99BFB967FDC.taxon	diagnosis	Diagnosis: Medusa with short manubrium on large gastric peduncle; mouth with 8 - 30 sinuous or crenulated lips; eight or more radial canals, simple, ramified, or in groups of four. Up to 64 marginal tentacles; no marginal cirri, but with thin, filiform, tentaculiform structures devoid of marginal bulbs; gonads usually on proximal parts of radial canals; numerous adaxial ocelli; without statocysts, without cordyli, without excretory pores or papillae. Hydroid phase unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	description	Fig. 33 A-H	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	materials_examined	Holotype: BFLA 4284; 1 specimen; collected off Palm Beach, Florida, 06 - DEC- 2019; size 6 mm, ~ 32 tentacles; bell fragments preserved in formalin and deposited as UF- 013842, fragment in alcohol used for DNA extraction (MHNG-INVE- 0137382); 16 S sequence MW 528698. Other examined material: BFLA 3819; 1 specimen; 24 - OCT- 2018; size ~ 2.5 mm, ~ 36 tentacles; preserved in ethanol for DNA extraction; 16 S sequence identical to MW 528698. – BFLA 4458; 1 specimen, no photos taken; 11 - JUN- 2020; size ~ 8 mm; preserved in ethanol for DNA extraction; 16 S sequence identical to MW 528698. – 06 - MAY- 2017; 1 specimen photographed; 8 mm; not collected. – 26 - JUL- 2018; 1 specimen photographed; size ~ 5 mm ~ 38 tentacles; not collected. – 11 - APR- 2019; 1 specimen photographed; damaged, 8 mm, ~ 24 tentacles; not collected. – 27 - MAY- 2019; 1 specimen photographed; juvenile, ~ 2 mm, ~ 9 tentacles; not collected. – 27 - MAY- 2019; 1 specimen photographed; juvenile, 2.5 mm, ~ 6 tentacles; not collected. – 17 - MAY- 2020; 1 specimen photographed; ~ 4 mm, ~ 24 tentacles; not collected. – 13 - JUN- 2020; 1 specimen photographed; 5 mm, ~ 17 tentacles; not collected. Type locality: Atlantic Ocean, USA, Florida, approximately 6.5 km east of Palm Beach, WGS 84 rectangle between 26.70, - 79.94 and 26.78, - 79.94, occurrence depth 8 - 10 m.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	diagnosis	Diagnosis: Similar to the sympatric Staurodiscus kellneri, but smaller (<10 mm), with intensively yellow colour of stomach and its radiating extensions, and marginal bulbs; more radial canals (up to 30 and more) due to more branching, stomach extensions narrower, radial canals broader.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	description	Description: Staurodiscus medusa with bell somewhat flatter than hemisphere, largest diameter observed 8 mm, apical jelly thick, about half the umbrella height (Fig. 33 D). Conspicuous, opaque, intensively golden-yellow colour of stomach, radial canals and marginal bulbs, colour fading in peripheral regions of radial canals; colour is partially preserved in alcohol. Stomach wide, up to half the diameter of the subumbrellar diameter, shallow, base irregularly starshaped, turning into basal stomach extensions which taper radially and branch irregularly 0 to 3 times and changing gradually into 30 to 40 radial canals which all reach the circular canal, radial canals very short. Gonad tissue (gametes) could not be seen in the preserved material, thus animals likely not reproductive. About 24 to 38 tentacles, long, contracted tightly coiled, their bulbs ovoid, clearly separated from rest of tentacles. Marginal bulbs positioned independently of radial canals. Usually only one cordylus between pairs of tentacles, also in younger individuals, sometimes cordylus on a marginal bulb without tentacle. Small, brown ocellus on base of adaxial side of bulb or on radial canal at attachment sites of cordylus. On aboral side of manubrium the cross-like marks of an original state with only four radial canals can be seen (Fig. 33 E). Branching of the radial stomach extensions must occur early in development. Amphipods appear occasionally to associate with the medusa.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	etymology	Etymology: The Latin adjective luteus means yellow and refers to the striking yellow colour of this medusa.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	description	16 S Data: The three 16 S sequences obtained in this study were all identical. Staurodiscus kellneri haplotypes have about 9 % base pair differences to the one of S. luteus. The two species are clearly separated in the maximum likelihood tree (Fig. 28).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	distribution	Distribution: Known from type locality only.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B390021FEE2FE96FAA57D83.taxon	discussion	Remarks: The opaque, yellow or golden-yellow colour renders S. luteus rather conspicuous (Fig. 33), although it resembles otherwise S. kellneri and S. milleri (Bouillon, 1984 b). The latter has about the same size and is thus even more similar. The radial canals are more branched in S. luteus, resulting in 30 to 40 canals, while S. milleri has up to 18. Bouillon (1984 b) usually also observed living animals for his studies in the Hansa Bay and he would certainly have noted any conspicuous colour as it is present in S. luteus. We therefore assume that S. milleri was not pigmented. It is though possible that formalin preserved material – which loses colours after some time – has previously been mis-identified as S. kellneri in the western Atlantic. Both species can be separated based on their size, branching patterns of the radial canals, and proportions. The identification is more secure if 16 S data are used.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	description	Figs 34 A-F & 35 A-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	materials_examined	Examined material: BFLA 3785; 1 specimen; 20 - SEP- 2018; size 12 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528651. – BFLA 3810; 1 specimen; 20 - OCT- 2018; size 18 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528652. – BFLA 3813; 1 specimen; 20 - OCT- 2018; size 20 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528653. – BFLA 3816; 1 specimen; 20 - OCT- 2018; size 10 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528654. – BFLA 4132; 1 specimen; 11 - JUN- 2019; size 34 mm; preserved in ethanol for DNA extraction; 16 S sequence MW 528680. – BFLA 4183; 1 specimen; 12 - AUG- 2019; size 26 mm; preserved in formalin and deposited as UF- 013823, no alcohol sample. – BFLA 4383; 1 specimen; 09 - MAY- 2020; size 15 mm; part preserved in formalin and deposited as UF- 014033, small part preserved in ethanol for DNA extraction; 16 S sequence MW 528716. – BFLA 4387; 1 specimen; 09 - MAY- 2020; size 18 mm; part preserved in formalin and deposited as UF- 014035, part preserved in ethanol for DNA extraction; 16 S sequence MW 528717. – 9 specimens, photographed but not collected; dates 10 - APR- 2019, 26 - MAY- 2020, 05 - MAY- 2017, 17 - OCT- 2017, 28 - JUN- 2018, 26 - MAR- 2019, 07 - MAY- 2019, 20 - MAY- 2019, 17 - MAY- 2020; sizes 15 - 30 mm.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	discussion	Observations: Medusa bell diameter 10 to 34 mm when mature, almost hemispherical or somewhat shallower (Fig. 34 A, D), evenly rounded exumbrella, mesoglea thick, jelly at apex about 2 / 5 of total height; with thick, tapering gastric peduncle that protrudes through velar opening. Velum broad. Stomach complex, base in centre H- or cross-shaped (Fig. 35 A, D), then subdividing dichotomously or irregularly into elongate diverticula attached to the distal part of the gastric peduncle, walls of diverticula contain gonads and are continued on gastric peduncle as radial canals (Fig. 35 A-D). Stomach wall follows the branching of the diverticula, mouth opening with complexly folded rim, mouth rim corners at position of diverticula drawn out into lips of variable length, 10 to 16 lips more elongated, sometimes also absent due to apparent damage and subsequent healing (Fig. 35 F). Usually several radial canal in formation (Fig. 35 E) and not reaching circular canal. Circular canal broad. Along circular canal on adaxial side numerous dark ocelli, not correlated with tentacle positions. 16 to 29 tentacles, extensible but also able to contract to short length (Fig. 34 F), tentacles not in phase with the radial canals, with distinct, ovoid tentacular bulbs that taper rapidly into tentacles, bulbs divided bilaterally by a more transparent tissue in median line (Fig. 34 C). Between each pair of tentacles 4 to 12, usually around 5 to 6, short thin tentacles (Fig. 34 C), these secondary tentacles arise from circular canal, proximal half adnate to or embedded in umbrella, free part with nematocysts, contractile. Colours: stomach and diverticula with gonads can be brown-yellow in some specimens (Fig. 35 B, E, F), otherwise whitish or with a yellow hue (Fig. 35 D, G).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	description	16 S Data: The seven haplotypes found showed high divergence rates (Table 1). The sequences form a monophyletic group in the maximum likelihood tree (Fig. 28) but fell into two well separated subclades with relatively high divergence (up to 8.1 %, Table 1), while the differences within the subclades are low.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	distribution	Distribution: Western Atlantic from Maine (Pagès et al., 2006) to Brazil (Goy, 1979), but mainly Bahamas, Florida and Caribbean (Haeckel, 1879; Vanhöffen, 1913 a; Mayer, 1910; Kramp, 1959 a), Gulf of Mexico (Segura-Puertas et al., 2009), also Mediterranean (Bouillon, 1984 b) and coast of Western Africa. Type locality: West Africa (Haeckel, 1879).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B3B002EFEC3FE96FC7E7B51.taxon	discussion	Remarks: Although the 16 S data showed that our material separates in two lineages that might qualify as two distinct species (Table 1, Fig. 28), we referred all our samples to Orchistoma pileus. Orchistoma pileus was first described by Lesson (1843), presumably based on a specimen from western Africa (as “ mers d’Afrique? ”). Lesson’s drawing was rather simple, but the species is recognizable. He did not show the small tentacles and there are about 30 normal tentacles or their bulbs depicted. Haeckel (1879) restricted the type locality to Western Africa and described concomitantly O. steenstrupi based on material from Cuba. The type material of O. steenstrupi was later re-examined by Kramp (1955 a) and referred to O. pileus as it matched Mayer’s (1910) description of this species. Mayer (1910) had material from the Bahamas and Tortugas. Kramp gives the tentacle number as 64, which must be meant as a maximal number because the type specimen of Lesson had only 30. Tetracannota collapsum was described by Mayer (1900) using medusae from the Tortugas and Bahamas. Despite the strong resemblance to Orchistoma, he placed it in a separate genus because it had visibly branched radial canals. His animals were mature but had only 16 tentacles at a size of 7 mm and only 8 manubrial lips. Mayer’s branched radial canals are actually the same structure as here described for the stomach diverticula, only that the radial canals showed a grouping into four sets close to the manubrium, but more distally they are evenly distributed (comp. Fig. 35 A). Later, Vanhöffen (1913 a) found Mayer’s species in the West Indies and noted that it is more variable than given in Mayer. Vanhöffen found them to have 16 manubrial lips beginning at a size of 3 mm. Another nominal species resembling O. pileus was described by Keller (1884) as Orchistoma agariciforme. He had a single mature medusa from the Mediterranean with only 7 manubrial lips, but which was otherwise similar to O. pileus. Bouillon (1984 b) described more specimens of O. agariciforme from the Mediterranean and considerably widened its morphological scope, notably he observed that the number of the manubrial lips was usually 16. Bouillon concludes that O. agariciforme is very close to both O. pileus and O. collapsum. He gives as distinguishing traits that in O. collapsum the radial canals remain in four groups near the manubrium even in adults and it has shorter manubrial lips. Orchistoma pileus differs by attaining a larger size of up to 30 to 40 mm, with up to 32 manubrial lips and radial canals as well as up to 64 marginal tentacles. Gershwin et al. (2010) favoured splitting and retention of all these nominal species, even of O. steenstrupi, but used outdated values for O. agariciforme in their table. The material we examined in this study was very variable and referable to either O. pileus and O. agariciforme and we think these names should be synonymized, including also O. steenstrupi and O. collapsum. While we had no specimen that exactly matched O. collapsum as described by Mayer (1900, 1910), BFLA 4383 (Fig. 35 E) comes close to it in terms of tentacle and lip numbers. We nevertheless think that this nominal species was based on growth stages of O. pileus. Gonads mature in O. pileus at a size of less than 12 mm bell size (Fig. 34 A) and the medusa continues its growth and the multiplication of radial canals and tentacles. Manubrial lips numbers and sizes are variable, usually there are about 16 somewhat longer lips. The lips can be damaged and regenerated and their number is not a reliable diagnostic feature (Fig. 35 F). In general O. pileus appears as a rather variable species, mostly due to a long growth and different developmental stages. This synonymy appears to be to some degree in conflict with the DNA data obtained in this study because the 16 S sequences separate into two distinct lineages, although they are sister lineages (Fig. 28). We could not find convincing morphological traits that would allow to identify the lineages, except that in one the manubrium and gonads are brownish-yellow while in the other they are whitish (compare Fig. 35 E & 35 F versus 35 G). BFLA 4383 (Fig. 35 E) was also in this “ yellow ” clade and was mentioned above as being close to the morphotype of O. collapsum. However, the other sample from this “ yellow ” clade (BFLA 4132, Fig. 35 F) is referable to O. pileus. At this stage we cannot resolve the problem of the two lineages. The difference in colour could also be a random result due to low sample numbers. If it can be confirmed by a more detailed genetic analysis of more samples that indeed two species are involved, the two lineages are likely not separable so that they correspond to the nominal species synonymized here. The high genetic subdivision is reminiscent to the one observed above for Zancleopsis dichotoma and Laodicea undulata.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B36002EFC21FC2EFB487F63.taxon	diagnosis	Diagnosis: Medusa with more than four radial canals, sometimes partially ramified; tentacle bulbs and atentaculate bulbs with lateral sac-like appendages; large adaxial excretory papillae on marginal tentacular bulbs. Gonads on radial canals. No ocelli, no statocysts. Hydroid unknown.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B36002EFC21FC2EFB487F63.taxon	discussion	Remarks: Bouillon et al. (1988 b) when introducing the genus Wuvula included it in the family Laodiceidae based on the assertion that the appendages of the marginal bulbs resemble cordyli. Pendant cordyli (e. g. Fig. 29 C) are typical for the Laodiceidae, but they also occur in the Hebellidae. They occur mostly on the bell margin, but may also be placed on marginal bulbs. The hollow appendages in Wuvula (Fig. 36 F) are clearly not cordyli and also their paired position on the side of bulbs is not known for cordyli in the Laodiceidae. The genus must thus be removed from the Laodiceidae. Wuvula lacks ocelli, statocysts, and cordyli and could be related to the Melicertidae Agassiz, 1862 which also lack them. The absence of statocysts and cordyli is, however, likely a plesiomorphy and not suitable for postulating a relationship. Moreover, the 16 S data of W. ochracea did not indicate relationship to any group (results not shown, but see below). We therefore propose that the genus is accommodated in a new family Wuvulidae. Its diagnosis is given above and taken from the genus diagnosis.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B36002FFCAFF81CFF06795C.taxon	type_taxon	type species Dipleurosoma ochraceum Mayer, 1910 (see below).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B36002FFCAFF81CFF06795C.taxon	diagnosis	Diagnosis: With the characteristics of the family.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B36002FFCAFF81CFF06795C.taxon	discussion	Remarks: Bouillon et al. (1988 b) did not select a type species for this genus. Dipleurosoma ochraceum Mayer, 1910 is therefore here designated as type species of the genus.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	description	Fig. 36 A-I	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	materials_examined	Examined material: BFLA 4361; 1 specimen; 13 - MAR- 2020; size 3.5 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528713. – BFLA 4372 and BFLA 4373; 16 - MAR- 2020; 1 specimen that split into 4 individuals of 3 mm, and some fragments; preserved in formalin and deposited as UF- 014027 and UF- 014028, fragments in alcohol for DNA extraction; 16 S sequence identical MW 528713. – BFLA 4392; 1 specimen; 17 - MAY- 2020; size 4 mm; preserved in alcohol for DNA extraction; 16 S sequence identical MW 528713. – BFLA 4470; 1 specimen; 17 - JUN- 2020; size 3.5 mm; preserved in alcohol for DNA extraction; 16 S sequence identical MW 528713. – 1 specimen photographed 04 - JUN- 2019, not collected; size 2.5 mm. – 1 specimen photographed 16 - MAR- 2020, not collected; size 4 mm.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	discussion	Observations: Medusa 2.5 to 4 mm in diameter, bell flatter than hemisphere when relaxed, jelly relatively thin, velum very broad. Manubrium rather small, star-shaped in cross-section, mouth with about 6 corners drawn out into lips, mouth rim with no or only few folds. Six radial canals reaching circular canal, in addition up to 5 incomplete, thin radial canals originating from manubrium which do not reach circular canal. Complete radial canals with swelling at about 1 / 3 distance from manubrium, presumably the place where gonads will develop. Up to 14 relatively short and thin tentacles, all with a small, whitish marginal bulb; additionally up to 55 small, rudimentary bulbs without tentacles. All marginal bulbs with a laterally attached pair of large, club-shaped diverticula and a third sac-diverticulum above the bulb, the latter being a big excretory papilla, all these diverticula with intense yellow colour. Stomach and radial canals also yellow, but less intense than diverticula.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	description	16 S data: The partial 16 S gene sequence obtained was used to search for similar sequences in GenBank using the blastn function. The results were mostly thecate hydroids, but only with a maximal identity of 83 %.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	distribution	Distribution: Florida. Type locality: USA, Florida, Dry Tortugas archipelago.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B37002FFEDBFE53FAA97BC1.taxon	discussion	Remarks: The observed medusae were smaller (2.5 - 4 mm) than given in Mayer (1910, 8 mm), but Vanhöffen reported also animals of this size and two of our specimens were actually the result of a fragmentation and regeneration. Mayer (1910) had seen only immature animals. One of ours had bulges on the radial canals that we interpreted as the beginning of the gonad formation (Fig. 36 A-D). The small size and vigorous swimming style made it difficult to get good photographs in the sea and the resulting images are unfortunately not so suitable for seeing more details of the bell margin in the living animals. However, the unique, yellow, lateral appendages of the marginal bulbs are unmistakable and the species is unambiguously identifiable. According to Mayer (1910) the appendages contain symbiotic algae (zooxanthellae). Although Mayer (1910) observed large swarms of this medusa, it is a very rare species. To our knowledge, it was only recorded after its first description by Vanhöffen (1913 a), this from near the type locality. Neither searches in GenBank nor sequence comparisons with a number of Leptothecata gave any hint for relationships with other families (results not shown).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B370029FC44FBDCFF277D76.taxon	type_taxon	type species Aequorea forskalea Péron & Lesueur, 1810 by subsequent designation by Mayer (1910).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B370029FC44FBDCFF277D76.taxon	diagnosis	Diagnosis: Medusa manubrium very wide, circular; no gastric peduncle, but often with jelly cone within stomach; subumbrella without radial rows of gelatinous papillae. With numerous, unbranched radial canals, new radial canals develop centrifugally from stomach base. Gonads on radial canals, separated from manubrium. Marginal tentacles hollow; usually with excretory pores or papillae on adaxial side of base; no marginal or lateral cirri; statocysts closed; no ocelli. Hydroid where known of ‘ campanulinid’ type, small usually lacking species-specific characters (see Bouillon et al., 2006).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B370029FC44FBDCFF277D76.taxon	discussion	Remarks: Aequorea is a difficult genus as can be suspected from the complex synonymy given above. A comprehensive revision of its species is needed (Purcell, 2018). Kramp (1961) plainly expressed “ The species are more or less doubtful. ” Russell (1953) had similar thoughts. However, both experts contributed much in consolidating and establishing a workable species level taxonomy which is still in use today. Dawson (2004) and Zheng et al. (2009, 2014) have begun to study species level systematics using DNA sequences, but we are still missing sequence data for many populations and species and their correlation with morphotypes. Here, we separated the species first using their 16 S data and then searched for suitable names that matched their morphology. A few photographs of fully grown medusae that were not sampled could afterwards also be attributed to nominal species. It seems, however, that the sequence data are not really congruent with described nominal species. While the species level diversity is higher than expected, it is also surprising that some have a much wider distribution than thought before [see also Pruski & Miglietta (2019) for A. australis and its occurrence in the Gulf of Mexico]. Some additional species were examined for this study to allow a better comparison and species delimitation. This material is listed above in the section Material and Methods.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	description	Fig. 38 A-I	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	materials_examined	Material examined: BFLA 3783; 1 specimen; 18 - SEP- 2018; size 50 mm, with gonads; part preserved in formalin and deposited as UF- 013449, part in alcohol for DNA extraction; 16 S sequence MW 528633 – BFLA 3822; 1 specimen; 25 - OCT- 2018; size 40 mm, with gonads; part preserved in formalin and deposited as UF- 013427, part in alcohol for DNA extraction; 16 S sequence MW 528634. – BFLA 3827; 1 specimen; 14 - NOV- 2018; size 50 mm, with gonads; part preserved in formalin and deposited as UF- 013435, part in alcohol for DNA extraction; 16 S sequence MW 528635. – BFLA 4043; 1 specimen; 01 - APR- 2019; size 50 mm, with gonads; part preserved in formalin and deposited as UF- 013436, part in alcohol for DNA extraction; 16 S sequence MW 528636. – BFLA 4082; 1 specimen; 07 - MAY- 2019; size 55 mm, with gonads; part preserved in formalin and deposited as UF- 013787, part in alcohol for DNA extraction; 16 S sequence MW 528669. – BFLA 4083; 1 specimen; 07 - MAY- 2019; size 42 mm, with gonads; part preserved in formalin and deposited as UF- 013788, part in alcohol for DNA extraction; 16 S sequence MW 528670. – BFLA 4085; 1 specimen; 07 - MAY- 2019; size 60 mm, with gonads; part preserved in formalin and deposited as UF- 013789, part in alcohol for DNA extraction; 16 S sequence MW 528671. – BFLA 4236; 1 specimen; 21 - OCT- 2019; size 30 mm, with gonads; part preserved in formalin and deposited as UF- 013844, part in alcohol for DNA extraction; 16 S sequence MW 528689. – BFLA 4304; 1 specimen; 15 - JAN- 2020; size 90 mm, with gonads; part preserved in formalin and deposited as UF- 013881, no tissue sample. – 1 specimen photographed 08 - FEB- 2017, not collected; size 100 mm, with developed gonads. – 1 specimen photographed 06 - JUN- 2020, not collected; size 70 mm, with developed gonads. The formalin samples are mostly strongly fragmented and damaged.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	discussion	Taxonomy: In order to avoid a secondary homonymy with Aequorea cyanea de Blainville, 1834, we propose here the replacement name Aequorea neocyanea for Zygodactyla cyanea L. Agassiz, 1862. Zygonema Brandt, 1838 is a synonym of Aequorea Péron & Lesueur, 1810 (Ranson, 1949) and Agassiz’ Z. cyanea must be transferred to Aequorea.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	discussion	Observations: Typical Aequorea medusae, diameters of animals with well developed gonads 50 to 100 mm, sizes of animals without gonads (juveniles) up to 30 - 40 mm. Umbrella in fully grown animals relatively flat (Fig. 38 A), about 1 / 4 of diameter, in younger ones more spherical. Stomach large, diameter 1 / 2 of bell diameter, with shallow jelly cone inside. Mouth rim with short fimbriae only (Fig. 38 G), same number as radial canals, continued centrifugally as fine rib or streak on stomach and then as radial canal. Radial canals in mature animals 25 to 100, more commonly 60 to 80, lower number might also be due to regeneration from fragments. A few (2 - 4) incomplete radial canals growing centrifugally can be present, also irregularities like fusions or branching, but these likely of traumatic origin. Gonads along radial canals, spanning from almost the beginning to a short distance from circular canal (Fig. 38 A-B), bilamellar, when fully developed large and hanging into subumbrella like a curtain, walls much folded or undulated (Fig. 38 A). Fully formed tentacles 21 to 50, additionally some small ones or mere bulbs that will likely later also develop into tentacles. Observed ratios of radial canals to fully formed tentacles 1.0 - 3.0. Tentacles in life nearly always with a swollen base (Fig. 38 C, E, F, H) degree of swelling is apparently modifiable and could depend on environment or physiological state as once the animal is preserved the swelling is much reduced (Fig. 38 I). Regularly there is a faint abaxial keel, often emphasized or feigned by a whitish line on median of abaxial side (Fig. 38 E, F, H) caused by an accumulation of nematocysts, this line only visible in living animals. In swollen bulbs abaxial side or keel often elongated into abaxial spur (Fig. 38 A- D), in preserved material much less visible or absent. Excretory papillae absent, excretory pores could not be found reliably in the preserved material. Four or more statocysts (up to 14) between two tentacles or bulbs, 2 - 3 statoliths per statocyst. Colours: unpigmented, very well grown specimens with a pink hue.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	description	16 S data: The eight haplotypes had a range of divergences of 0.3 - 2.1 % (Table 1, intrapopulation variation). A maximum likelihood tree of the partial 16 S sequence (Fig. 37) yielded a diverse but welldefined clade for this species. Its sister clade comprises two samples from the Mediterranean diverging in 3.7 - 5.2 % of their aligned bases (see discussion below). No relationship to A. forskalea nor to A. macrodactyla is evident though.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	distribution	Distribution: Florida, Bermuda, perhaps also Brazil and even Mediterranean (see below). Type locality: Atlantic Ocean, USA, Florida, Key West.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B310055FED9FA09FE7E7F0B.taxon	discussion	Remarks: We think that the present material most likely belongs to the same species identified by Mayer (1900, 1904) as Zygodactyla cyanea, although there are some differences. Zygodactyla cyanea was first described by L. Agassiz (1862) based on animals from Key West, Florida. His brief description was later expanded (A. Agassiz, 1865) and a figure of a fully-grown animal provided. Agassiz (1865) reported it in great numbers along the Florida Reef. Mayer (1900, 1904) then added more details using material from Florida and the Bahamas, notably also figures of the tentacle bulbs and of younger stages. As Mayer was a collaborator of A. Agassiz, his identification was certainly discussed with the latter. In his 1910 monograph, Mayer then synonymized Z. cyanea with Aequorea forskalea Péron & Lesueur, 1810 without further discussion. Our material matches more Z. cyanea of Mayer (1900, 1904) and not A. forskalea for the following reasons: 1) Mayer found it as very common off the coast of Florida and in our study it was likewise a frequent medusa. 2) The type locality is in the same region and connected by the Gulf stream. 3) Mayer describes and depicts the tentacle bulbs with an abaxial spur, but incorrectly identified it as an exumbrellar excretory papilla (which is unknown in hydromedusae). This corresponds to the bulbs we found (Fig. 38), although this trait is not a unique diagnostic feature for the species as it occurs also in Aequora spec. 1 (see below) and others, e. g. A. krampi Bouillon, 1984. Aequorea forskalea in current understanding has evenly tapering, not much swollen tentacle bases (Fig. 39). 4) The mature animals examined genetically had diameters of 5 to 6 cm, a stomach width of 1 / 2 the bell diameter, and up to 100 radial canals, thus matching Agassiz’ and Mayer’s values. There are also traits that do not match. Notably our maximum tentacle number was about 50 and the ratio of radial canals to tentacles usually in the region of 2. Mayer gives up to 100 tentacles and a ratio of 1. These traits are known to be very variable in this genus and should be used with caution to separate species. Moreover, we found that Aequorea medusae often get fragmented and then reconstituted themselves. This vegetative reproduction via fission could account for much of the variation seen in the Aequorea (see Stretch & King, 1980). Contrary to Mayer (1910), we think that Agassiz’ medusa should be kept distinct from A. forskalea. The 16 S sequences of our material were different from A. forskalea of the NE Atlantic (Fig. 37), the bell sizes were smaller than for typical A. forskalea, and tentacles bases are usually swollen and may have an abaxial keel and spur. The name Aequorea forskalea was introduced by Péron & Lesueur, 1810 to replace the preoccupied name Medusa aequorea Forsskål, 1775 and they formally also restricted the type locality to the Mediterranean Sea. Forsskål (1775) provided a good illustration of his medusa which he had seen in the NE Atlantic or the Mediterranean and which we must assume to represent the type specimen. Forsskål’s medusa was quite large with a diameter of 23 cm [in his Latin description he states “ Diameter spithamalis ”, a spithame being an ancient Greek / Byzantine length unit corresponding to 0.231 m]. Our current scope of the species was outlined by Russell (1953) and Kramp (1959 a) who give sizes of up to 175 mm and 60 - 80 radial canals. The bases of the tentacles are almost invariably given as evenly tapering and not swollen (Fig. 39, see also Kramp, 1959 a: fig. 234 b). This is clearly different to the ones observed here (Fig. 38) but some cautionary remarks are necessary. The degree of inflation of the tentacle base, the keel formation, and the abaxial spur seem to be variable and a partly transient feature. The swelling depends perhaps on the activity of the animal, the osmotic situation, or the digestive cycle. In preserved animals it is much less pronounced (Fig. 38 I), but still apparently different from A. forskalea. The status of the closely related Mediterranean Aequorea samples (Fig. 37, MW 528733 and MW 528734, see Material & Methods) is not clear. They were immature and 4 to 5 cm in size and their tentacle bases resembled the ones shown in Fig. 38 E and not Fig. 39 B. It could be that they also belong to the present species. The A. forskalea of the Mediterranean also differentiate into two morphotypes when examined alive (unpublished observations): one with slender, evenly tapering tentacles as shown in Fig. 39 B and another with much swollen bases of the bulbs resembling the ones shown in Fig. 38 A-B. The Brazilian medusae identified as A. macrodactyla by Nogueira et al. (2016) do not match well the latter species (see Kramp, 1968; Schuchert, 2017 a) but conform much better with the scope of A. neocyanea as documented here. The status of the Mediterranean Aequorea morphotypes as well as many other populations should be examined using genetic techniques.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4D0057FEA8F8E2FADD7A3E.taxon	description	Fig. 40 A-K	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4D0057FEA8F8E2FADD7A3E.taxon	materials_examined	Material examined: BFLA 3781; 1 specimen; 18 - SEP- 2018; size 9 mm, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3788; 1 specimen; 24 - SEP- 2018; no size data, no gonads; preserved in alcohol for DNA extraction; 16 S sequence MW 528637. – BFLA 3790; 1 specimen; 24 - SEP- 2018; no size data, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631 – BFLA 3796; 1 specimen; 13 - OCT- 2018; size 6 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3809; 1 specimen; 19 - OCT- 2018; size 10 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3814; 1 specimen; 20 - OCT- 2018; size 12 mm, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631 – BFLA 3815; 1 specimen; 20 - OCT- 2018; size 10 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3817; 1 specimen; 20 - OCT- 2018; size 12 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3818; 1 specimen; 24 - OCT- 2018; size 8 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 3830; 1 specimen; 15 - NOV- 2018; size 7 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence MW 528638. – BFLA 4001; 1 specimen; 20 - NOV- 2018; size 13 mm, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence MW 528631. – BFLA 4002; 1 specimen; 20 - NOV- 2018; size 17 mm, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 4163; 1 specimen; 06 - AUG- 2019; fragments 4 and 6 mm, gonads developing; part preserved in formalin and deposited as FU- 013813, part preserved in alcohol for DNA extraction; 16 S sequence MW 528681. – BFLA 4164; 1 specimen; 06 - AUG- 2019; size 8 mm, no gonads; part preserved in formalin and deposited as FU- 013814, part preserved in alcohol for DNA extraction; 16 S sequence MW 528682. – BFLA 4167; 1 specimen; 06 - AUG- 2019; size 6 mm, no gonads; part preserved in formalin and deposited as FU- 013815, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528638. – BFLA 4168; 1 specimen; 06 - AUG- 2019; size 6 mm, no gonads; part preserved in formalin and deposited as FU- 013816, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528681. – BFLA 4205; 1 specimen; 23 - AUG- 2019; size 4 mm, gonads developing; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 4244; 1 specimen; 11 - NOV- 2019; size 10 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631 – BFLA 4443; 1 specimen; 07 - JUN- 2020; size 10 mm, no gonads; part preserved in formalin and deposited as FA- 014058, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631. – BFLA 4464; 1 specimen; 13 - JUN- 2020; size 9 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical MW 528681. – BFLA 4476; 1 specimen; 18 - JUN- 2020; size 5 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528631.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4D0057FEA8F8E2FADD7A3E.taxon	discussion	Observations: Small Aequorea medusae with bell diameters reaching 17 mm, only some with beginning gonad development (Fig. 40 A-B), gonad development starts at about 9 mm size. Bell in smaller animals nearly hemispherical, larger ones more flattened. Stomach small, in the larger individual diameter ~ 1 / 4 to 4 / 5 of bell diameter. Mouth rim with many broad fimbriae (Fig. 40 C). Radial canals thin, up to 46 seen, often also developing centrifugal canals. Gonads developing in some of the radial canals (Fig. 40 A), but apparently not fully developed. Up to 25 fully developed tentacles, additionally 1 - 5 very small tentacles or small bulbs without tentacles. Ratio of radial canals to tentacles 1.3 to 1.8 in individuals with visible gonads, thus always more radial canals than tentacles. Tentacles in life with a distinct, short, conical basal bulb (Fig. 40 A-B, D-E), with faint abaxial keel, emphasized or feigned by a whitish line on median of abaxial side (visible in life only), abaxial side of bulb usually continued onto exumbrella as a short abaxial spur (Fig. 40 E). Conspicuous excretory papilla on adaxial side of tentacle bulbs (Fig. 40 I), pointing into subumbrella. One to two statocysts between tentacles or small bulbs, statocysts with two statoliths.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4D0057FEA8F8E2FADD7A3E.taxon	description	16 S data: The five haplotypes had a range of divergences of below 1.0 % (Table 1, intrapopulation variation). A maximum likelihood tree of the partial 16 S sequence (Fig. 37) found no significant relationship to other congeners.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4D0057FEA8F8E2FADD7A3E.taxon	discussion	Remarks: This species was delimited by the 16 S sequences. Were it not for the 16 S data, we would have considered the specimens as juveniles or a smaller form of A. neocyanea, this notably for their resembling tentacle bulbs (comp. Figs 38 E and 40 E). However, the 16 S sequence data (Fig. 37) separated them into two unrelated clades. The base pair differences between sequences of the two clades were> 8.2 %. The two sample sets cannot well be compared morphologically as they represent different developmental stages. None of the specimens of the present species had fully developed gonads. One difference we noted was the presence of a large excretory papilla in a majority of specimens of the present species. We were initially tempted to identify this lineage as Aequorea floridana (L. Agassiz, 1862), a species also reported to be common along the cost of Florida and the Bahamas by Mayer (1900) [for descriptions see Mayer (1910) and Bigelow (1913, 1938)]. Mature Aequorea floridana have 16 to 24 radial canals and up to 80 - 100 tentacles (Mayer, 1910). Sixteen is the prevalent number of radial canals. Our specimens with gonads had 14 to 46 radial canals and consistently fewer tentacles than radial canals. It was mainly the low tentacle number which influenced our decision to reject an identity with A. floridana. The lack of fully developed animals and the lack of distinctive features made it advisable not to introduce a new species name. This is an unsatisfactory situation, but 16 S data of fully-grown animals and also of typical A. floridana morphotypes are needed to solve the problem and to put a name on this lineage.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	description	Fig. 41 A-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	materials_examined	Material examined: BFLA 4105; 1 specimen; 27 - MAY- 2019; size 27 mm, beginning gonad development; part preserved in formalin and deposited as UF- 013793, part preserved in alcohol for DNA extraction; 16 S sequence MW 528674. – BFLA 4173; 1 specimen; 09 - AUG- 2019; size 30 mm; part preserved in formalin and deposited as UF- 013820, part preserved in alcohol for DNA extraction; 16 S sequence MW 528685. – BFLA 4308; 1 specimen; 16 - JAN- 2020; size 31 mm, gonads visible; part preserved in formalin and deposited as UF- 013846, part preserved in alcohol for DNA extraction; 16 S sequence MW 528705. – BFLA 4332; 1 specimen; 31 - JAN- 2020; size 40 mm, gonads visible; part preserved in formalin and deposited as UF- 013890, part preserved in alcohol for DNA extraction; 16 S sequence identical MW 528705. – BFLA 4425; 1 specimen; 28 - MAY- 2020; size 50 mm, gonads visible; part preserved in formalin and deposited as UF- 014051, part preserved in alcohol for DNA extraction; 16 S sequence identical MW 528705. – 1 specimen photographed 07 - FEB- 2020, not collected; size 30 mm. The formalin samples are mostly strongly fragmented and damaged.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	discussion	Observations: Subadult Aequorea medusae with bell diameters 30 to 50 mm, gonad development starts at about 30 mm size. Bell relatively high, apical jelly about 1 / 2 of bell height. Stomach wide, 7 / 10 of bell diameter. Mouth rim with numerous, long, thin fimbriae (Fig. 41 B). Radial canals thin, 100 to 240, often also with 15 to 100 developing centrifugal canals. 14 to 25 fully developed tentacles, between pairs of tentacles 3 - 5 small bulbs without tentacles. Ratio of radial canals to tentacles 7.5 to 10, thus always many more radial canals than tentacles. Tentacles in life either with a distinct conical basal bulb with a slight depression of upper side (Fig. 41 D) or widened laterally to give a T-shape (Fig. 41 C, G). Abaxial spurs absent. Small, abaxial excretory papillae can be present, only seen in preserved material. Tentacle bases in preserved material usually also with lateral expansions (Fig. 41 F), but some simply conical (Fig. 41 E). Statocysts about as numerous as radial canals but not in phase with them, two statoliths per statocyst.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	description	16 S data: The three haplotypes had a range of base pair divergences of 0.2 to 0.5 % (Table 1). The maximum likelihood tree of the partial 16 S sequences (Fig. 37) identified them as very closely related to A. taiwanensis (p-distances 0.2 - 0.64 %).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	distribution	Distribution: Taiwan strait, Florida (this study). Type locality: Taiwan Strait.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4F0051FC41FDF1FA8D7919.taxon	discussion	Remarks: This material resembles very much Aequorea pensilis (Haeckel, 1879), only the lateral expansions of the bulbs are shorter and sometimes absent in preserved material, and small excretory papillae can be present. Our identification of the present material as A. taiwanensis was based on the strong similarity of the 16 S sequences (Table 1). The haplotype divergences to the published sequences from Taiwan Strait were only 0.2 to 0.64 %, while within the Florida population we found a maximal value of 0.5 %, thus intra- and interpopulation divergences are in the same range. In the ML tree (Fig. 37) the distance of the two population appears higher than the values obtained by pairwise comparisons. This is due to the fact that another substitution model was used for the distance calculation and more importantly, the sequences from the Taiwan Strait specimens were 112 bases shorter at the 3 ’ end, leading to a bias in the ML analysis. While the similarity of our sequences with A. taiwanensis almost certainly implies that our material is conspecific, it must be noted that so far no Aequorea pensilis 16 S sequences are available. It might turn out that A. taiwanensis is in fact a synonym of Aequorea pensilis. Aequorea taiwanensis, according to the description in Zehng et al. (2009), resembles A. pensilis but lacks the diagnostic long lateral expansions of the tentacle base and it has excretory papillae (comp. Browne, 1905; Maas, 1905; Kramp, 1968: Fig. 268). In our material, the lateral expansions were present, but also not as wide as usually shown for A. pensilis. Our material is thus intermediate between A. pensilis and A. taiwanensis. The specimens of Zheng et al. (2009) measured only 25 mm, were thus likely younger than ours, which reached up to 50 mm diameter. Pacific Aequorea pensilis reach 100 mm in diameter (Kramp, 1968). The Atlantic occurrence of a rare Aequorea medusa of the Western Pacific Ocean is surprising, but not unparalleled. Pruski & Miglietta (2019) recently found Aequorea australis in the Gulf of Mexico, a species formerly only known from the Indo-Pacific Ocean. The presence of A. taiwanensis in the Atlantic Ocean must not be interpreted as a possible recent introduction. While we found three different haplotypes, the four samples from Taiwan Strait (Zheng et al., 2014) represented only a single one. The higher haplotype diversity in the Altantic argues against a recent introduction from the Pacific. The species has likely a wide distribution.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B490051FBDCFE17FC777CD6.taxon	description	Fig. 42	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B490051FBDCFE17FC777CD6.taxon	materials_examined	Material examined: BFLA 4013; 1 specimen; 17 - DEC- 2018; preserved in alcohol for DNA extraction; 16 S sequence MW 528639.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B490051FBDCFE17FC777CD6.taxon	discussion	Observations: Small, juvenile Aequorea medusa, 7 mm, no gonads. Stomach diameter 0.3 of bell diameter. About 30 broad radial canals. Tentacles not all visible, approximate range 18 - 30. Tentacle bulbs conical, not inflated, without keel or white abaxial line, without abaxial spurs.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B490051FBDCFE17FC777CD6.taxon	description	16 S data: The single sequence proved to be quite closely related to Gangliostoma guangdongensis Xu, 1983 (Fig. 37). The base pair differences in the pairwise aligned sequences were 3.6 %.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B490051FBDCFE17FC777CD6.taxon	discussion	Remarks: We found only one specimen of this lineage and it was too immature for being identified. Additionally, the animal was attempting to swallow a much lager ctenophore and was thus quite distorted. Its 16 S sequence resembled the Chinese Gangliostoma guangdongensis. The genus Gangliostoma is distinguished from Aequorea by a papilla situated at the base of the stomach and between each pair of radial canals. This feature is not well documented and it is unclear what it is. No such papillae could be seen in the present specimen.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FC50FA57FACA7F91.taxon	type_taxon	type species Octocanna medium Kramp, 1955 (designation in Kramp, 1961).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FC50FA57FACA7F91.taxon	diagnosis	Diagnosis: Medusa without gastric peduncle, manubrium with eight lips; usually eight radial canals, variable in some species from 6 to 11; gonads on radial canals, separated from manubrium; tentacle bulbs with adaxial excretory papillae; no permanent atentaculate marginal bulbs, only developing tentacular bulbs; with closed statocysts; no ocelli; no cirri. Hydroid colony stolonal; hydrotheca pedicellate, with a conical operculum formed by numerous convergent segments that are not clearly demarcated from hydrothecal wall; hydranth with intertentacular web; gonothecae claviform, arising from stolons.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FF77FC8CFB857D79.taxon	description	Fig. 43 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FF77FC8CFB857D79.taxon	materials_examined	Examined material: BFLA 4302; 1 specimen; 15 - JAN- 2020; preserved in alcohol for DNA extraction; 16 S sequence MW 528704.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FF77FC8CFB857D79.taxon	discussion	Observations: Bell diameter 5 mm, in relaxed state wider than high, relatively flat, apical jelly about 1 / 3 of height thinning to bell margin. Manubrium relatively small, diameter> 1 / 10 bell diameter, base irregularly star-shaped, wall with radiating vertical folds, these changing into the corners of 7 (9?) simple mouth lips (Fig. 43 E). About 10 radial canals originate at manubrium base and some immediately branch once or twice so that about 16 radial canals reach the circular canal. In addition to the complete radial canals about 5 developing centrifugal canals that originate from manubrium or complete radial canal (Fig. 43 E). 14 ovoid gonads in about middle of complete radial canals, each with up to 50 oocytes, colour bright yellow with a median colourless, transparent line. 61 long, thin tentacles arising from ovoid bulbs, bulbs bright yellow, few atentaculate, small bulbs also present. One statocyst between pairs of marginal bulbs.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FF77FC8CFB857D79.taxon	description	16 S Data: The single haplotype (MW 528704) was used in a blastn search in GenBank and gave as best match with 94 % identity Cyclocanna producta (KY 570308) followed by several Mitrocomidae and Tiaropsidae with similar scores. A maximum likelihood phylogeny using a wide selection of leptomedusae also associated the sequence with the same families, but with insufficient bootstrap support (tree not shown).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FF77FC8CFB857D79.taxon	discussion	Remarks: This medusa resembles closely Zygocanna apapillatus Xu, Huang & Guo, 2014 and it could be conspecific. We were nevertheless reluctant to attribute it to this species for reasons given below. Zygocanna apapillatus is a very rare medusa only known from two specimens collected off the coast of Vietnam. The first description is only available in Chinese (Xu et al., 2014), but an English translation and the figures are given in the WoRMS database (Schuchert, 2020; urn: lsid: marinespecies. org: taxname: 828546). Our specimen differs only minimally, having a smaller manubrium diameter, less radial canals, and a higher number of gonads. However, some incomplete, developing radial canals suggest that the final number of radial canals could be higher than observed in the only specimen we had. Based on morphology alone, traditional morphology-based systematics would have treated them as conspecific. With its small stomach, Zygocanna apapillatus is an atypical member of the genus Zygocanna and the Aequoridae (comp. Kramp, 1968) and it likely belongs to another family. The comparison of the 16 S sequence obtained from our specimen indicated a similarity and possible relationship with several Mitrocomidae and Tiaropsidae but without sufficient bootstrap support due to the poor resolving power of the 16 S marker for relationships above the genus level. There was clearly no relationship with Aequoreidae (tree not shown). Mitrocomidae and Tiaropsidae are both characterized by open statocysts, an important taxonomic trait that distinguishes them from most other leptomedusae which have either closed or no statocysts (comp. Bouillon et al., 2006). Unfortunately, we were unable to determine if it had open statocysts (a microscopic examination of living tissue or of histologic sections is needed for this). Without this information a correct identification of the species is impossible. This also holds true for the original description of Zygocanna apapillatus. Because of this uncertainty we identified our specimen only as Zygocanna cf. apapillatus.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FEC1FE97FE1B7AF2.taxon	type_taxon	type species Aequorea pleuronata Péron & Lesueur, 1810 (Kramp, 1961).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FEC1FE97FE1B7AF2.taxon	type_taxon	type species Aequorea purpurea Péron & Lesueur, 1810 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FEC1FE97FE1B7AF2.taxon	type_taxon	type species Aequorea undulosa Péron & Lesueur, 1810 by designation of Mayer (1910: 339).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B4A0052FEC1FE97FE1B7AF2.taxon	diagnosis	Diagnosis: Medusa manubrium wide, no gastric peduncle, subumbrella with or without radial rows of gelatinous papillae. With more than 16 radial canals, at least some branched, new radial canals develop centrifugally from stomach base. Tentacle bulbs usually with excretory papillae. Gonads on radial canals, separated from manubrium.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	description	Fig. 44 A-F	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	materials_examined	Examined material: BFLA 3823; 1 specimen; 14 - NOV- 2018; size 24 mm; part preserved in formalin and deposited as UF- 013428, part in alcohol for DNA extraction; 16 S sequence MW 528632. – BFLA 3833; 1 specimen; 15 - NOV- 2018; size 10 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528630. – BFLA 4130; 1 specimen; 11 - JUN- 2019; size 26 mm, 10 radial canals; part preserved in formalin and deposited as UF- 013806, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528630. MHNG-INVE- 0055283; 2 specimens, badly preserved; Indonesia, Moluccas, Bay of Ambon; collected 27.06.1890 - 02.09.1890; material described and figured in Maas (1906).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	discussion	Observations on Florida specimens: Mature medusa diameter up to 26 mm, height about 10 mm, umbrella rather flat, apical jelly about half the height of the umbrella, lateral wall thin. Stomach large, tubular, base an eight-rayed star, mouth with eight long perradial lips, rim crenulated (Fig. 44 A, E). Eight to 10 radial canals, tapering somewhat from manubrium to circular canal. Gonads along distal half of radial canals but not reaching to junction with circular canal, serpentine outline (Fig. 44 A), in females with numerous small eggs. Tentacles about 90, tentacle-bulbs elongate conical, abruptly tapering into tentacle; most bulbs with a very large excretory papilla protruding into subumbrella from abaxial side above velum (Fig. 44 B, arrow), excretory papilla in preserved animals much shrunken and rather small. Left and right of tentacle bulb base often a green spot (Fig. 44 B), but which is not due to pigments. Very few incipient bulbs present. Tentacles thin, extensible to long size. One or two statocysts between tentacle pairs (Fig. 44 B). Colour: circular canal with a light green tint, green spots flanking tentacle bulbs in living animals, otherwise colourless. Immature medusa (BFLA 3833, Fig. 44 C) 10 mm in diameter; radial canals, circular canal, and bulbs green, incipient development of gonads, otherwise similar to adult.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	description	16 S Data: Searching GenBank for sequences similar to the obtained 16 S sequences indicated a relationship to other leptomedusae, but gave no matches with more than 92 % sequence identity. A maximum likelihood analysis of a wide selection of leptomedusae did not identify relationships with sufficient bootstrap support (results not shown). The two haplotypes differed in 0.8 % of their base pairs.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	discussion	Remarks: Morphologically, the adult specimen BFLA 3823 matches very well the existing descriptions and figures (Bigelow, 1928; Kramp, 1968; Bouillon, 1984 b) of O. aphrodite. Also the comparison material from the Moluccas agreed well [specimens described by Maas (1906) as O. polynema, later referred to O. aphrodite by Bigelow (1928)]. The 16 S sequence divergence of 0.8 % for sample BFLA 3823 and BFLA 3833 was interpreted as intraspecific variation (see Table 1, and Schuchert et al., 2017). BFLA 3833 is a subadult specimen and it was thus attributed to Octophialucium aphrodite mainly based on 16 S sequence similarity. It is somewhat surprising to find this Indo-Pacific medusa in the NW Atlantic Ocean, but it has already been recorded in the Gulf of Mexico by Canudas Gonzàlez (1979). However, the small size (11 mm), the low tentacle numbers (23 - 53), and the high number or radial canals (up to 15) given by Canudas Gonzàlez (1979) make this record somewhat doubtful. No illustration was provided. The animal depicted in Van der Spoel & Bleeker (1988) is unlikely O. octophialucium as it has only 24 tentacles. It is more likely O. medium Kramp, 1955 b which has only 16 tentacles, but otherwise resembles O. aphrodite very much. Octophialucium aphrodite resembles also closely O. funerarium (Quoy & Gaimard, 1827). The latter occurs in the NE Atlantic and the Mediterranean (Cornelius, 1995) and it appears more probable to be found in the westernAtlantic than the Indo-Pacific O. aphrodite. Wang et al. (2018) have recently discussed some differences of the two species, mostly using the shape of the tentacular bulbs and the average number of statocysts between two fully developed tentacles (1 versus 2). However, there are more differences. Most importantly, the manubrium and the tentacle bulbs of O. funerarium are characteristically dark coloured by a black pigment (Quoy & Gaimard, 1827; Kramp & Damas, 1925; Russell, 1953; Cornelius, 1995). Moreover, the jelly is thicker and lentil-shaped, the subumbrella very shallow, the diameter is usually larger (up to 50 mm), and rudimentary bulbs are frequent (rare in O. aphrodite). Bouillon (1984 b) remarked that some published illustrations of O. aphrodite are based on altered specimens and he provided an excellent figure. Based on the references given in the synonymy above, the following updated consensus diagnosis for O. aphrodite can thus be provided: Medusa 15 - 40 mm in diameter when mature, bell flatter than hemisphere, apical jelly about half the height of the bell, lateral wall thin. Manubrium large, tubular, base an eight-rayed star, mouth with eight perradial lips. Eight radial canals, rarely 7, 9, or 10. Gonads spindle-shaped, along distal 1 / 5 to 1 / 2 of radial canals, not reaching to junction with circular canal. 80 - 120 tentacles and as many bulbs, bulbs distinctly separated from tentacles, only few small bulbs without tentacles present. Excretory papillae tubular, large, in life reaching the same length as the bulbs. One or two statocysts between tentacle pairs, statocysts with two concretions. Colours: colourless or greenish circular canal, without black pigment in manubrium and bulbs. Hydroid colony stolonal; hydrotheca pedicellate, with a conical operculum formed by numerous convergent segments that are not clearly demarcated from hydrothecal wall; hydranth with intertentacular web; gonothecae claviform, arising from stolons.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B44005EFF14FE96FD4E7BDE.taxon	distribution	Distribution: In the Pacific Ocean known from Indonesia, Philippines, Papua New Guinea, and the South China Sea (Kramp, 1968; Bouillon, 1984 b; Wang et al., 2018); in the Indian Ocean from the Mozambique Channel (Kramp, 1957); in the Atlantic Ocean perhaps in the Gulf of Mexico (Canudas Gonzàlez, 1979) and off Florida (this study). Type locality: Sulu Sea.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B460058FECAFBD2FEFF79B9.taxon	description	Fig. 45 A-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B460058FECAFBD2FEFF79B9.taxon	materials_examined	Holotype: BFLA 4290; observed and collected 19 - DEC- 2019; size 12 mm, with incipient gonads; part preserved in formalin and deposited as UF- 013843, part preserved in alcohol for DNA extraction (MHNG- INVE- 0137379); 16 S sequence MW 528701. Other material: BFLA 3829; 1 specimen; 15 - NOV- 2018; size 4 mm, juvenile; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701. – BFLA 3838; 1 specimen; 19 - NOV- 2018; size 7 mm, without gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701. – BFLA 4131; 1 specimen; 11 - JUN- 2019; size 12 mm, without gonads; part preserved in formalin and deposited as UF- 013807, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701. – BFLA 4259; 1 specimen; 30 - NOV- 2019; size 8 mm, incipient gonads; part preserved in formalin and deposited as UF- 013838, much damaged, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701. – BFLA 4311; 1 specimen; 15 - JAN- 2020; size 5 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701. – BFLA 4377; 1 specimen; 18 - MAR- 2020; size 6 mm, no gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528701.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B460058FECAFBD2FEFF79B9.taxon	description	Description: Bell diameter 8 - 12 mm for animals with gonads, bell rather shallow, apical jelly about half of height and subumbrella relatively shallow, soft walls and rim deformed easily. Velum narrow. Manubrium cross-section like a multi-rayed star (Fig. 45 A-C, G), as many rays as radial canals, multirayed outline present from base to mouth, diameter narrowing towards mouth, mouth with about eight lips. Occasionally a secondary manubrium may be present. Radial canals 7 - 9, originating from manubrium rays, initially broad and then tapering, sometimes also one incomplete centrifugal canal present that does not reach circular canal. Arrangement of radial canals irregular, some irregularly curved, branching once, sometimes coalescing again or fusing with other radial canals, general appearance very variable, irregular, and disordered (Fig. 45 A, D, G, F). Gonads arise in middle region of complete radial canals, oblong, slightly pendant (Fig. 45 C), fully developed state unknown. Circular canal thin, in larger animals with incomplete centripetal canals arising from non-perradial bulbs, reaching about to mid-subumbrella height (Fig. 45 D). Tentacles 27 to 30, on ovoid marginal bulbs which taper rapidly into thin tentacles, these often neatly coiled when contracted (Fig. 45 E); bulbs with adaxial excretory papilla pointing into subumbrella, size variable, sometimes relatively large (Fig. 45 C). Between tentaculate bulbs 1 to 3 smaller bulbs with very short tentacle (Fig. 45 E) or without tentacle. Between successive marginal bulbs 1 to 3 closed statocysts with 2 statoliths (Fig. 45 D-E). Colours: orange gastrodermis of tentaculate marginal bulbs, gonads orange; manubrium in younger stages transparent green (Fig. 45 G), later whitish, sometimes at base in interradial position orange (Fig. 45 A) or a weak interradial, brown pigment band from base to mouth (Fig. 45 C). 16 S Data: The seven specimens gave all an identical 16 S sequence. The single haplotype (MW 528701) was used in a blastn search in GenBank and gave as best match with 93 % identity an Octophialucium indicum from New Zealand (AY 787897). The pairwise identities with the 16 S of O. aphrodite were lower, about 88 %. A maximum likelihood tree using a wide selection of leptomedusae did not yield any well supported relationship (tree not shown).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B460058FECAFBD2FEFF79B9.taxon	discussion	Remarks: There are currently 11 accepted species of Octophialucium (Schuchert, 2020). In terms of size and tentacle numbers, the new species resembles only Octophialucium mollis Bouillon, 1984 b, a species known from the tropical Western Pacific Ocean. Octophialucium mollis is also the only Octophialucium species that has centripetal canals. Octophialucium irregularis differs from O. mollis in the following aspects: it lacks the interradial rows of black spots on the manubrium wall (although in some there is a faint brown band, see Fig. 45 C), the centripetal canals are longer, and the radial canals are very irregular in appearance and number. The latter feature is the most characteristic trait of this species and its specific epithet irregularis is intended to reflect this. This irregular organisation is likely not only due to genetic factors, but – as irregularities of the bell margin suggest (Fig. 45 A, G) – also due to repeated damage and subsequent regeneration.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FEDAFD97FD9E7DC7.taxon	diagnosis	Diagnosis: Medusa with normal, curved umbrella. Manubrium short, with four short perradial lips. Velum present. Normally four radial canals, but some aberrant form may have more. Marginal tentacles> 16, with hollow bulbs; without many permanent, small, conical atentaculate bulbs, no excretory papillae. With many statocysts (> 16), usually as many or more as tentacles, no ocelli, no cirri. Gonads on radial canals, usually short, not in contact with manubrium. Hydroid typical for family, colonial, stolonal or erect branched, monosiphonic or polysiphonic. Hydrothecae deep, campanulate, hydrothecal rim sinuous or deeply indented true hydrothecal diaphragm, gonotheca conical.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FEDAFD97FD9E7DC7.taxon	discussion	Remarks: Very few nominal species of Clytia medusae are unambiguously identifiable. Most morphological characters used to distinguish Clytia species fall in the range of variation that can be expected in a single species and having little or no taxonomic value (Lindner & Migotto, 2002; Bouillon et al., 2006). Species identification requires usually knowledge of the entire life cycle. A recent extensive molecular phylogeny of the Campanulariidae (Cunha et al., 2017) found even more taxonomic inconsistencies, and also provides an excellent framework for barcoding studies. The 16 S data set of the latter study was used in a maximum likelihood phylogeny to search for relationships of the sequences obtained in this study. The tree is not shown here due to it size and the sparse results.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	description	Fig. 46 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	materials_examined	Examined material: BFLA 4077; 1 specimen; 16 - APR- 2019; size 3.5 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528668.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	discussion	Observations: Medusa 3.5 mm, bell when relaxed rather flat (Fig. 46 A), height about 1 / 3 of diameter, jelly moderately thick. Manubrium small, four very short, simple perradial lips. Four radial canals, two of them (accidentally?) approximated and therefore not giving a perfectly tetraradial symmetry. Gonads male, very thick and long, sausage shaped, arising at short distance from manubrium and stretching to almost circular canal. 39 tentacles, each arising from a spherical basal bulb, thin and long. 1 to 2 atentaculate, smaller bulbs. At least as many or more statocysts as tentacles. Colour: all tissues with a green hue, transparent.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	description	16 S Data: The 16 S sequence of our single sample was compared to the 16 S dataset of Cunha et al. (2017). It was nested within the well supported Clytia linearis clade (tree not shown). Its sister clade is made up of the sequences AY 789810 and AY 346362 from Beaufort NC and the Mediterranean respectively (provenence acc. Govindarajan et al., 2006). The sequence divergence from AY 789810 is 2.5 %.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	distribution	Distribution: Circumglobal in shallow warm waters (Lindner & Migotto, 2002). Type locality: Papua New Guinea, New Britain, Blanche Bay (Thornely, 1900; hydroid).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B400058FED8F9B8FBB07D22.taxon	discussion	Remarks: The identification of this medusa was based solely on its 16 S sequence which was nested within a well supported Clytia linearis clade. The morphology matched rather well the description of Clytia linearis in Lindner & Migotto (2002) which was based on cultivated medusae. It only had slightly more tentacles and much larger gonads, both easily attributable to more optimal growth conditions. Notable were the rather flat umbrella and the small size.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B40005AFBEBFADCFE767AC8.taxon	description	Fig. 46 C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B40005AFBEBFADCFE767AC8.taxon	materials_examined	Examined material: BFLA 4240; 1 female; 11 - NOV- 2019; size 7 mm, with gonads; preserved in alcohol for DNA extraction; 16 S sequence MW 528690. – BFLA 4283; 1 specimen; 06 - DEC- 2019; size 10 mm, with gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528690. – BFLA 4342; 1 female; 29 - FEB- 2020; size 15 mm, with gonads; part preserved in formalin and deposited as UF- 013895, part preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528690.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B40005AFBEBFADCFE767AC8.taxon	discussion	Observations: Typical Clytia medusae, bell slightly shallower than hemisphere, diameters when mature 7 to 15 mm. Manubrium urn shaped, with four long perradial lips, margin undulated. Four radial canals. Gonads thick, ovoid to oblong, in middle of radial canal, about 1 / 5 of radial canal length. 18 to 22 tentacles arising from ovoid bulbs, 0 to 4 small atentaculate bulbs. Usually 2, sometimes 1 or 3, statocysts between pairs of bulbs, 2 statoliths per statocyst. Colour: radial canals in all three specimens with brilliant green colour.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B40005AFBEBFADCFE767AC8.taxon	description	16 S Data: The three samples gave all the same 16 S sequence that did not show any sufficiently supported relationship to other Clytia medusae in the Campanulariidae 16 S dataset of Cunha et al. (2017). A blastn search in GenBank gave Clytia islandica MF 000548 as best match with 91 % sequence identity.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B40005AFBEBFADCFE767AC8.taxon	discussion	Remarks: These medusae look like a typical Clytia hemisphaerica. The only notable feature are the green radial canals. This alone, however, cannot be used as a diagnostic feature and it is likely variable as in other hydromedusae. It was not possible to identify the species with any Clytia from Florida mentioned in Mayer (1900, 1910). The hydroid stage of this species must first be found to allow a naming and complete description of the species.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFEBAFCA6FA467DC8.taxon	description	Fig. 46 D-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFEBAFCA6FA467DC8.taxon	materials_examined	Examined material: BFLA 4253; 1 specimen; 23 - NOV- 2019; size 3 mm, with developing gonads; preserved in alcohol for DNA extraction; 16 S sequence MW 528694. – BFLA 4257; 1 specimen; 23 - NOV- 2019; size 2 mm, with developing gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528694. – BFLA 4269; 1 specimen; 04 - DEC- 2019; size 4 mm, with developing gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528694. – BFLA 4274; 1 specimen; 04 - DEC- 2019; size 3 mm, with developing gonads; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528694. – 06 - DEC- 2019; 1 specimen, 6 mm, photographed, not collected; most probably also belongs to this species.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFEBAFCA6FA467DC8.taxon	discussion	Observations: Umbrella 2 to 4 mm in diameter when gonad development starts, flatter than hemisphere when relaxed, mesoglea moderately thick, thinning towards margin. Manubrium small, urn shaped, with 4 (5?) short perradial lips, margin smooth. Gonads just developing in middle of complete radial canals and also on some incomplete ones. Complete radial canals thin, numbering 5 to 9, originating from manubrium, often irregularly spaced, rarely seen branched, some not entirely straight. With 0 to 15 incomplete centripetal canals originating from circular canal (Fig. 46 D), usually from marginal bulbs but not always, not reaching manubrium, length variable from very short to about 3 / 4 of complete radial canal length. 16 to 22 tentacles arising from small conical bulbs, few atentacular bulbs (3 - 6) present. Usually 2 statocysts between pairs of bulbs, variable from 1 to 4. Colour: Most specimens without colour, one had pink bulbs. A specimen for which no 16 S data is available, but which looked otherwise indistinguishable, had two manubria (Fig. 46 G), one being smaller.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFEBAFCA6FA467DC8.taxon	description	16 S Data: The four sequenced specimens gave all the same 16 S sequence (MW 528694). In a maximum likelihood tree (not shown) obtained by comparing it to the Campanulariidae 16 S dataset of Cunha et al. (2017) it came out as sister lineage to a clade tentatively identified as Clytia cf. stolonifera Blackburn, 1938 (GenBank KX 665270, KX 665268) in Cunha et al. (2017). The base pair divergence between KX 665270 and MW 528694 is 7.2 %.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFEBAFCA6FA467DC8.taxon	discussion	Remarks: While the 16 S data clearly identified it as a Campanulariidae, finding the correct genus of this material was difficult and is still unsettled. A specimen with five radial canals (Fig. 46 F) suggests that it could be Pseudoclytia pentata Mayer, 1900, but the presence of centripetal canals is not compatible with this species. Mayer (1910) found and examined an immense number of P. pentata over several years and the number of radial canals was somewhat variable, but he never observed centripetal canals. Mayer’s medusae rarely had two manubria, just like in our case (Fig. 46 G), although we have no 16 S data for this specimen to assure that it is the same species as the others examined here. Our 16 S sequence was relatively similar to sequences obtained from two campanulariid hydroids from Belize that resembled the Australian Clytia stolonifera (see Cunha et al., 2017). The observed divergence of 7.2 % represent likely an interspecifc difference when compared to the values of Table 1, but with so few samples the value is currently inconclusive. In the phylogeny of Cunha et al. (2017), their hydroids did not cluster within the Clytia clade, but had an ambiguous phylogenetic position, frequently placed at the base of Obeliinae. This could mean that a genus other than Clytia may be needed for the specimens of Cunha et al. (2017) and also the medusa BFLA 4253 of this study. DNA sequence information of the type species of Pseudoclytia and Gastroblasta must be obtained to resolve if one of these genera also belongs to this clade and could be the appropriate genus. For recent discussion of these genera see Gravili et al. (2007).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFC75F9A6FBF87F80.taxon	type_taxon	type species Gastroblasta timida Keller, 1883 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B42005AFC75F9A6FBF87F80.taxon	diagnosis	Diagnosis: Medusa when mature with more than one urn-shaped manubrium; up to 20 radial- and as many centripetal canals, some radial canals may be branched; marginal tentacles with bulbs; numerous statocysts, oval gonads developing near the middle of radial canals or also centripetal canals. Hydroid like in genus Clytia, living embedded in sponges (Gravili et al., 2007).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B43005BFEDCFE96FAD87C48.taxon	description	Fig. 47 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B43005BFEDCFE96FAD87C48.taxon	materials_examined	Examined material: 04 - MAR- 2019; 1 specimen photographed, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B43005BFEDCFE96FAD87C48.taxon	discussion	Observations: Bell diameter 6 mm, circular circumference, flatter than hemisphere, apex rather flat, jelly moderately thick, thickness rather even. Three manubria in middle region of bell, connected by the radiating corners of their bases, urn-shaped, mouth cruciform with four simple lips, not crenulated. 15 broad, band-like radial canals reaching circular canal, 12 incomplete centripetal canals originating from circular canal at the position of bulbs, reaching to variable height but not joined to manubrium. 70 large marginal bulbs with tentacles, tentacles long. About as many statocysts as bulbs. Gonads oval thickenings on radial- and centripetal canals, all about in middle of bell.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B43005BFEDCFE96FAD87C48.taxon	discussion	Remarks: This medusa matched rather well the description and figures of Gastroblasta timida given by Keller (1883) or Mayer (1910). The species was originally described from a number of specimens caught in the Red Sea, but has never been reported subsequently (Gravili et al., 2007). A closely related and better-known Gastroblasta species is the Mediterranean G. raffaelei Lang, 1886 (see Gravili et al., 2007). It differs from G. timida in having a distinctly elliptical bell. Multioralis ovalis Mayer, 1910 is the only known medusa species from the western Atlantic having multiple manubria. It has an oval bell and only a single radial canal, even when gonads begin to mature. Although it has been reported several times from different localities (Gravili et al., 2007; Wang et al., 2019), some authors like Kramp (1968) thought it to be an abnormal Clytia. Moreover, its structure corresponds to a stage in the development of Gastroblasta raffaelei (Gravili et al., 2007). Although structurally similar to the above described Clytia spec. 2 (Fig. 46 D-G), the broad radial canals distinguish it immediately from it. Additionally, the general aspect and the tentacle number are different. Both share the presence of centripetal canals originating from tentacle bulbs. Some of them might later join the manubrium. In Gastroblasta raffaelei all but two opposite radial canals develop from centripetal canals (Gravili et al., 2007). We therefore hesitatingly attributed the present sample to Gastroblasta timida, despite the wide separation of the occurrences and the somewhat doubtful status of the species.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B43005BFEDCFE96FAD87C48.taxon	distribution	Distribution: Red Sea, Florida (this study). Type locality: Red Sea, Sudan, Suakin Harbour.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	description	Fig. 49 A-F	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	materials_examined	Examined material: BFLA 4022; 1 specimen; 15 - FEB- 2019; size 14 mm; preserved in formalin and deposited as UF- 013444. – BFLA 4023; 1 specimen; 15 - FEB- 2019; size 20 mm; preserved in formalin and deposited as UF- 013444. – BFLA 4025; 1 specimen; 15 - FEB- 2019; size 20 mm; part preserved in formalin and deposited as UF- 013446, 1 / 4 part in alcohol for DNA extraction; 16 S sequence MW 528643.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	discussion	Observations: Medusae flatter than hemisphere, 14 to 20 mm in diameter, jelly very soft and fragile, margin lobed. Stomach flat, circular, about 1 / 3 of bell diameter, mouth opening simple, circular (Fig. 49 A). 16 bandlike manubrial pouches radiating from stomach to the bell margin, pouches slightly widening to about 3 / 5 of their length, then gradually narrowing again before dividing above tentacle into two narrow peripheral canals or strands (Fig. 49 E). The proximal 3 / 5 of the gastric pockets are more opaque (Fig. 49 D) than the rest as the bottom contains the gonad tissue, in the present cases containing numerous, densely packed, small (16 µm), round cells interpreted as oogonia. Tentacles 16, between pairs of tentacles 4 to 7 otoporpae clasping bell margin (Fig. 49 E). No peronia.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	description	16 S data: The sole 16 S sequence clustered within a clade comprising Narcomedusae of different families (Fig. 48).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	distribution	Distribution: Papua New Guinea, Florida (this study). Type locality: West Pacific, Bismarck Sea, Hansa Bay.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEE8FB43FA537D3C.taxon	discussion	Remarks: Cunina becki has so far only been recorded from its type locality in the Bismarck Sea (western Pacific Ocean). It was thus very surprising to find it in the western Atlantic Ocean. The species may have been overlooked as it has a very fragile jelly, which might not withstand usual net collecting. Cunina becki is rather unusual for its genus – or even all Narcomedusae – in that the gastric pockets are very narrow and extend to the bell margin, resembling thus radial canals of other hydromedusae. While the main diagnostic features of our medusae – long and narrow gastric pockets, otoporpae, and peripheral canal or strand – match the description given in Bouillon (1985), there are nevertheless some slight differences: - larger diameter (20 versus 15 mm) - 16 gastric pockets and tentacles (versus 12 - 15) - 4 - 7 otoporpae between successive tentacles (versus 3 - 4) - the gastric pockets narrow gradually distal to the gonads (versus rather abrupt). Considering the variability of other Cunina species (see e. g. Kramp, 1959 a, 1968), we think that these differences are due to intraspecific variations and mainly correlated to the somewhat larger size. With the available material it was not possible to decide if the peripheral canal is really a canal or just a tissue strand. Histological sections are needed to answer this.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEC2FCBEFE0F7CAF.taxon	type_taxon	type species Cunina globosa Eschscholtz, 1829 (Kramp, 1961).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FEC2FCBEFE0F7CAF.taxon	diagnosis	Diagnosis: Narcomedusae with as many undivided manubrial pouches as tentacles, gonads in these pouches, primary tentacles positioned in middle of the lower margin of the stomach pouches; with otoporpae, with or without peripheral canal system, without small secondary marginal tentacles.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0044FE84FE97FD807AE1.taxon	discussion	Remarks: The families of the Narcomedusae have recently been reorganized by Lindsay et al. (2017) using DNA data. Bentlage et al. (2018) added more sequences. The 16 S sequences of these studies and the ones from the present study were combined to get a maximum likelihood tree (Fig. 48). Although 16 S has low resolving power above the genus level, some well supported nodes indicate that the Cuninidae and Solmarisidae are polyphyletic as already found by Bentlage et al. (2018). As revision of the families is beyond the scope of this study, we here used the family level taxonomy of Bouillon et al. (2006) and Lindsay et al. (2017), except for the genus Otoporpa.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0047FC7DFAF3FE0D7F01.taxon	description	Fig. 50 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0047FC7DFAF3FE0D7F01.taxon	materials_examined	Examined material: 27 - May- 2019; 1 specimen photographed, not collected; size 7 mm, with beginning gonad maturation. – 27 - NOV- 2019; 1 specimen photographed, not collected; size 4 mm. Mediterranean, France, Bay of Villefranche-sur-Mer, 43.6860 ° N 7.3170 ° E, depth 0 - 70 m; 1 specimen collected 24 - APR- 2016, used for DNA extraction, 16 S sequence MW 528627.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0047FC7DFAF3FE0D7F01.taxon	discussion	Observations: Florida specimens up to 7 mm in GLDPHWHU, VRPHZKDW ÀDWWHU WKHQ KHPLVSKHULFDO (Fig. 50 B), stomach circular, about half the diameter of bell, without mesoglea cone, with eight broad, manubrial pockets shaped like an isosceles trapezium, region between pockets narrow, band-shaped (Fig. 50 A). Eight tentacles originating in middle of pocket base with a short, conical root (Fig. 50 C); tentacles projecting from exumbrella at about ¼ between margin and apex of bell. Bell margin between pairs of tentacles lobed, with 4 - 5 otoporpae and statocysts.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0047FC7DFAF3FE0D7F01.taxon	distribution	Distribution: Widely distributed in tropical and warm-temperate parts of all oceans, including also the Mediterranean, the Chilean coast, and the South Atlantic (Kramp, 1968; Bouillon, 1999; Bouillon et al., 2004; Galea, 2007; Nagata et al., 2014). Type locality: USA, South Carolina, Charleston Harbor.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5C0047FC7DFAF3FE0D7F01.taxon	discussion	Remarks: No DNA samples could be obtained for the Florida specimens. The Mediterranean specimen differed in having 9 or 10 tentacles and pouches (damaged), one statocyst and otoporpe per lappet, manubrial pouches U-shaped.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0047FC61FABCFC697F37.taxon	type_taxon	type species Aegina rhodina Haeckel, 1879 by original designation.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0047FC61FABCFC697F37.taxon	diagnosis	Diagnosis: Narcomedusae with interradial manubrial pouches which are subdivied by a short septum in the middle; with peripheral canal system; with primary perradial tentacles alternating with pairs of marginal pouches; tentacle roots recurved orally without penetrating deep into central mesoglea; manubrial pouches begin at points of origin of primary tentacles; deep peronial grooves lined with nematocysts below but not above points of origin of primary tentacles; without secondary tentacles on umbrella margin; without otoporpae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	description	Fig 51 A-G, Fig. 52 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	materials_examined	Examined material Specimens with 5 tentacles: BFLA 4015; 1 specimen; 17 - JAN- 2019; size 18 mm; part preserved in formalin and deposited as UF- 013441, small part in alcohol for DNA extraction; 16 S sequence MW 528658. – BFLA 4047; 1 specimen; 01 - APR- 2019; size 16 mm; part preserved in formalin and deposited as UF- 013451, small part in alcohol for DNA extraction; 16 S sequence MW 528659. – BFLA 4067; 1 specimen; 10 - APR- 2019; size 20 mm; part preserved in formalin and deposited as UF- 013778, small part in alcohol for DNA extraction; 16 S sequence identical to MW 528659. – BFLA 4322; 1 specimen; 24 - JAN- 2020; size 15 mm; part preserved in formalin and deposited as UF- 013887, small part in alcohol for DNA extraction; 16 S sequence MW 528707. – 13 - MAR- 2020; 1 specimen; 15 mm; not collected. Specimens with 4 tentacles: BFLA 4120; 1 specimen; 04 - JUN- 2019; size 9 mm; part preserved in formalin and deposited as UF- 013803, small part in alcohol for DNA extraction; 16 S sequence MW 528678. – BFLA 4134; 1 specimen; 15 - JUN- 2019; size 11 mm; part preserved in formalin and deposited as UF- 013809, small part in alcohol for DNA extraction; 16 S sequence not determinable. – BFLA 4118; 1 specimen; 04 - JUN- 2019; size 9 mm; part preserved in formalin and deposited as UF- 013809, small part in alcohol for DNA extraction, not examined.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	discussion	Observations Form with 5 tentacles: Umbrella approximately hemispherical, 15 - 20 mm, jelly firm, apical mesoglea half the bell height, tentacles issue at about 2 / 3 of bell height, above tentacles a small bulge (Fig. 51 A- B). Velum broad (Fig. 51 A). Stomach about half the bell diameter, mounted on a rounded mesogleal cone of the same diameter reaching to level of bell margin (Fig. 51 A). Mouth rim can form temporary folds or even a tubular extension with terminal folds (Fig. 51 D-F). Five subdivided manubrial pockets (Fig. 51 C-D). Manubrial pockets broadly U-shaped, reaching from stomach rim to about half the distance to bell margin (Fig. 51 A), in middle a narrow septum which does not reach to the stomach level or level of tentacle origin (Fig. 51 C, smp). At bottom of left and right side of the pairs of pouches originates a broad peripheral canal, directed first along peronium towards the bell margin and then following the latter (Fig. 51 C). Five tentacles originating in upper half of medusa at about upper level of stomach, the proximal end embedded in an exumbrellar furrow, the tentacle roots rather short, entering the mesoglea, tapering, and curved towards oral (Fig. 51 B); tentacle length about 2 - 3 bell diameters, curved towards oral, nematocysts concentrated on upper side but also present on underside. Below tentacles a deep cleft in exumbrella reaching down to bell margin, its floor with a thickened epidermis containing nematocysts (= peronium, Fig. 51 C-G). 48 to ca. 68 statocysts. No otoporpae. Almost colourless, greenish or yellowish cast in daylight. Form with 4 tentacles: As above, but only four tentacles and four pairs of manubrial pouches, size 9 to 11 mm, 36 to 60 statocysts.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	distribution	16 S data: In the maximum likelihood tree (Fig. 48), all five samples clustered in a lineage that was well separated from most other Narcomedusae. The clade had a distinct internal dichotomy with the single 4 - tentacled specimen being rather apart from the 5 - tentacled medusae (7.6 to 7.8 % base pair differences). The three haplotypes of the 5 - tentacled medusae were rather similar (0.18 - 0.36 % divergences, Table 1).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	distribution	Distribution: Tropical to subtropical Atlantic Ocean (Lindsay et al., 2017). Type locality: Canary Islands, Lanzarote.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5F0042FC52F8C9FD327ED8.taxon	discussion	Remarks: Haeckel’s type material of this species consisted in three specimens. Two of them had four tentacles and a size of 40 mm, one had five tentacles and measured 50 mm. He depicted a mature female with four tentacles. The statocyst numbers were given as two per manubrial hemi-pouch (16 - 20 in total). Kramp (1955 b, 1961) synonymized this species with the similar Aegina citrea Eschscholtz, 1829, an opinion already pondered by Mayer (1910). This view was upheld until Lindsay et al. (2017) revised Aegina citrea and split it into several species and belonging to separate families, this based on morphological and genetic differences. The main morphological difference to Aegina is the shape of the tentacle root. In Aegina they are curved towards aboral, in Pseudaegina they are curved towards oral. Our specimens with 5 tentacles matched the description of Lindsay et al. (2017) very well as they came from the same region. There are, however, some differences to Haeckel’s description. Our specimens were smaller (up to 20 mm) but all immature. The most obvious difference is the number of statocysts: Haeckel saw about 16 - 20, while we found regularly 60 - 68. The haplotype divergence in our sample was high (p-value up to 7.8 %) and in the maximum likelihood tree the samples split into two sub-clades (Fig. 48). This separation coincided with two morphotypes: the four- and five-tentacled form (see above). Unfortunately, we could get only one sequence of the four-tentacled form and due to the low number of samples, this distribution could also be due to mere contingency. The four-tentacled medusae were all smaller than those with five tentacles and it is nevertheless the possible that our material was composed of two sister-species. Because the original material of Haeckel included both four- and five-tentacled forms, it is not possible to use the tentacle number in the diagnosis of a new species without the designation of a lectotype (or a neotype as Haeckel’s material is likely lost). A population-genetic study at the type locality combined with the designation of a neotype is thus needed to resolve this taxonomic problem. Because of these unresolved issues and because our samples were monophyletic, we felt it premature to describe one of the clades as a new species. One particularity not mentioned in previous descriptions concerns the temporary folds of the mouth region (Fig. 51 D-F). One of the figures in Lindsay et al. (2017: fig. 12 C) also shows this ruffling of the mouth margin. In one of our animals the mouth was even drawn out to a tube ending in a flower-like, folded mouth region. The folds disappeared after fixation. It is thus unlikely that they can ever be seen in standard net-plankton samples.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A0042FED8F8F5FB0E7EDB.taxon	type_taxon	type species Pegasia dodecagona Péron & Lesueur, 1810 by designation of Haeckel (1879).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A0042FED8F8F5FB0E7EDB.taxon	diagnosis	Diagnosis: Narcomedusae without manubrial pouches; with peripheral canal system; with gonads on periphery of stomach, ring-like, or covering bulges of the mesoglea, or pendant diverticula; with numerous tentacles leaving exumbrella at the level of manubrium attachment to subumbrella. With otoporpae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A0042FED8F8F5FB0E7EDB.taxon	discussion	Remarks: The genus Otoporpa Xu & Zhang, 1978 is here regarded as synonym of Pegantha. For more details see below under P. polystriata.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	description	Fig. 53 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	materials_examined	Examined material: BFLA 4070; 1 specimen; 11 - APR- 2019; size 10 mm, 10 tentacles; preserved in alcohol for DNA extraction; 16 S sequence MW 528666. – BFLA 4109; 1 specimen; 03 - JUN- 2019; size 8 mm, 8 tentacles; part preserved in formalin and deposited as UF- 013796, small part in alcohol for DNA extraction; 16 S sequence MW 528676. – BFLA 4336; 1 specimen; 07 - FEB- 2020; size 6 mm, 9 tentacles; preserved in alcohol for DNA extraction; 16 S sequence MW 528708. – 26 - FEB- 2018; 1 specimen photographed, not collected, 9 tentacles.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	discussion	Observations: Medusae hemispherical or slightly wider than high, diameter 6 - 10 mm, 8 - 10 tentacles and marginal lappets (Fig. 53 A, C, E), stomach wide, up to 2 / 3 of bell diameter, no gastric jelly cone (Fig. 53 B, E), without manubrial pockets, peripheral canals originating below tentacles (Fig. 53 C), first descending parallel along the peronial fold, then along lappet periphery, rather thin (1 / 6 of lappet width), width constant. Marginal lappets rectangular to rounded, with 4 - 5 otoporpae (Fig. 53 B), these short, max. twice the size of the width of the peripheral canals. Statocysts near otoporpae, about as many as otoporpae. Tentacles curved, tapering, held at approximately 45 ° upwards, proximal end pointed and horizontal; below tentacles a slight furrow in the exumbrella with the peronium (Fig. 53 A).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	description	16 S Data: The three obtained haplotypes have only low sequence divergences (Table 1, Fig. 48), but there was no significant relationship to a sequence of P. martagon from the Eastern Pacific (GenBank MG 979374, Fig. 48).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	distribution	Distribution: Widely distributed in the tropical and subtropical parts of the Atlantic and Indo-Pacific Ocean (Bigelow, 1909; Kramp, 1959 a; Bouillon, 1978 c; Bleeker & Van der Spoel, 1988; Navas-Pereira & Vannuci, 1991; Bouillon & Barnett, 1999; Segura Puerta et al., 2003, 2009; Oliveira et al., 2016), surprisingly also in the cold waters around South Georgia and in Antarctic waters (Kramp, 1959 a; Toda et al., 2008). Occurs in shallow waters, occasionally from 100 to 300 m depth (Kramp, 1957). Type locality: China Sea.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B5A004CFC61F8D5FBED7DAA.taxon	discussion	Remarks: Our samples had apparently not yet developed gonads, being thus not fully mature. The observed tentacle numbers of 8 - 10 were lower than the 16 given in Kramp (1959 a, 1968), but this is a maximal number and most animals have actually only 10 - 13 tentacles and lappets (Bigelow, 1909; Kramp, 1957, 1959 a). According to Bigelow (1909) and Kramp (1959 a: 64), the final tentacle number (10 - 11) is attained early in development, though during further growth some few tentacles and lappets may occasionally be added. Kramp (1957) observed that the lateral portions of peripheral canal in the lappets are broader than the transverse portions along the bell margin. This was not seen in the present material (Fig. 53 C-E). Pegantha simplex Bigelow, 1904 – a nominal species based on a type specimen from the Maldive Islands – was later synonymized with Pegantha martagon by Bigelow himself (Bigelow, 1909, 1918). We think that Bigelow’s specimen from the Maldives nevertheless deviates quite strongly from the scope of P. martagon as described by later authors (see synonymy above). It was a small (3 mm) medusa but with fully developed, pendant-saclike gonads. It had 8 tentacles / lappets and reportedly 25 statocysts per lappet, more than twice the number usually seen in P. martagon. Later, Bigelow (1909) reexamined this material and had to revise this number. The contraction of the alcohol preserved material feigned the presence of more statocysts. Actually, also Haeckel (1879) in his first description reported 13 - 15 statocysts per lappet. Because he also had preserved material, Bigelow (1909) assumed that he was likewise mistaken. The gonads of P. martagon are variably described as a simple ring at the periphery of the stomach, or as irregularly lobed, pendant sacs. While it is possible that these two stages are only different developmental stages, we nevertheless suspect that the wide variation of the current concept of P. martagon indicates that it comprises several species. Our 16 S sequences are very different from a tentatively identified P. martagon from California found parasitizing a planktonic polychaete Tomopteris (Bentlage et al., 2018).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	description	Fig. 54 A-G	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	materials_examined	Examined material: BFL 4450; 1 specimen; 08 - JUN- 2020; size 5 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528728. – 02 - SEP- 2020; 1 specimen photographed, not collected, 2 mm. – Photos of two specimens kindly provided by Linda Ianniello, taken 21 - MAR- 2020 and 15 - SEP- 2020 during the same series of dives as for the other medusae of this study.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	discussion	Observations: Bell diameter 5 mm, solid jelly, thickened aborally, margin subdivided in 8 to 9 U-shaped lappets (Fig. 54 A, E), at margin of lappets 3 to 5 statocysts from which originate otoporpae (tracks of thickened epidermis with nematocysts, Fig. 54 B, G) that extend almost to bell apex (Fig. 54 B), otoporpae sometimes irregular, branching, or not straight. Exumbrella apart of the nematocyst tracks smooth, without radiating keels or furrows. Velum broad (Fig. 54 A). Stomach large, circular; near its periphery and positioned interradially 8 to 9 diverticula for the gonads (Fig. 54 A-F), originating from stomach floor, in younger animals shallow, in older ones hanging into subumbrella (Fig. 54 E); diverticula with thickened walls, dense tissue, sometimes yellow-green tint. Lappets of bell margin apparently with broad peripheral canal, difficult to see and observed only in one animal (Fig. 54 E). Eight or nine thick, tapering tentacles originating in about middle of bell height in the bays between adjacent lappets (peronia), tentacles continued at right angles into the jelly as a pointed tentacle-root, tentacles held mostly in oral direction. Statocysts pendant, club shaped, with 2 to 5, usually 3, statoliths in a row, these increasing in size distally. Exumbrellar nematocysts: spherical isorhizas, ca. 10 µm (Fig. 54 G).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	description	16 S data: The single sequence obtained clustered in a clade comprising other Pegantha as well as Cunina and Pseudaegina species, but without resolved internal relationships (Fig. 48).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	distribution	Distribution: South China Sea, Taiwan Strait (Xu et al., 2014), Florida (this study). Type locality: Southern end of Taiwan Strait, 22.5 ° N, 118.5 ° E.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B54004EFC88FA45FC2879BB.taxon	discussion	Remarks: Our medusae, especially the younger ones (Fig. 54 C-D), appear indistinguishable from figures of Otoporpa polystriata given in Xu & Zhang (1978) and we are convinced that they are the same, despite this species is so far only known from the South China Sea. However, we think that this species was not classified in the correct family. The genus Otoporpa Xu & Zhang, 1978 was originally placed in the family Aeginidae (sensu Bouillon et al., 2006) because it had apparently interradial manubrial pouches. The pouches of Otoporpa are atypical for Aeginidae as they are rather shallow and most importantly they are not sub-divided by a medium septum (see Fig. 51 C, G). Likewise unusual for genera of the former Aeginidae (sensu Bouillon et al., 2006), Otoporpa has otoporpae (thickenings clasping the bell margin and usually continued as nematocyst tracks on the exumbrella, comp. Figs 50 C-D, 53 B, D). We think that Xu & Zhang (1978) misinterpreted the developing gonad diverticula typical of the genus Pegantha as manubrial pouches. This is understandable as younger stages of these diverticula resemble indeed interradial manubrial pouches (Fig. 54 C-D, F). It is possible that some of the Brazilian specimens described by Tosetto et al. (2018) as Pegantha triloba Haeckel, 1879 belong to the present species. Tosetto’s material lacked the diagnostic radial exumbrellar keels and furrows as shown in Bigelow (1909), it had 8 to 9 lappets and tentacles instead of 12 to 16 (Kramp, 1959 a), and the otoporpae continued as nematocyst tracks to almost the top of the umbrella. The otoporpae in P. triloba are usually much shorter, but Kramp (1957) found also very long ones like in the present species in young P. triloba.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B56004EFC0CFE73FBBF7BFB.taxon	diagnosis	Diagnosis: Narcomedusae without manubrial pouches; without peripheral canal system; mostly simple annular gonads on manubrial wall; with numerous tentacles leaving exumbrella at the level of manubrium attachment to subumbrella. Without otoporpae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B56004EFC0CFE73FBBF7BFB.taxon	discussion	Remarks: For a synopsis of species in this genus see Bouillon et al. (1991: 408).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	description	Fig. 55 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	materials_examined	Examined material: BFLA 3837; 1 specimen; 19 - NOV- 2018; size approximately 2 - 3 mm, 18 tentacles; preserved in alcohol for DNA extraction; 16 S sequence MW 528660. – BFLA 4123; 1 specimen; 06 - JUN- 2019; size 9 mm, 25 tentacles; preserved in alcohol for DNA extraction; 16 S sequence MW 528679. – BFLA 4314; 1 specimen; 24 - JAN- 2020; size 2 mm, 15 tentacles; preserved in alcohol for DNA extraction; 16 S sequence MW 528706. – 31 - AUG- 2018; 1 specimen photographed, 18 tentacles, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	discussion	Observations: Umbrella diameter up to 9 mm, jelly lenticular (Fig. 55 A), top with a broad, shallow apical projection; periphery with up to 25 lappets, distinctly rectangular (Fig. 55 A-C), 1 - 3 statocysts per lappet (Fig. 55 A). Stomach large, more than 2 / 3 of bell diameter, without gastric pockets, no peripheral canals. Presumable gonad tissue developing as slightly opaque ring on oral side of stomach (Fig. 55 A). Up to 25 tentacles, issuing in about middle of bell height, curving upwards, rather stiff, but able to move and even to coil, evenly tapering to tip, length about 2 - 3 bell diameters, root short. Below tentacles no exumbrellar furrows, but thin peronia delimiting the lappets. Colour: stomach and tentacles a purple hue (Fig. 55 A), some tentacle tips a very faint yellow (Fig. 55 B).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	description	16 S Data: See Table 1 and Fig. 48.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	distribution	Distribution: In the eastern Atlantic, from Norway to South Africa, in the western Atlantic from Florida to Brazil, also Indian Ocean (South Africa) (Pagès et al., 1992; Nagata et al., 2014; this study). Type locality: Mediterranean, Bay of Naples.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B560048FCBCFBB2FDB07CDB.taxon	discussion	Remarks: Our identification as S. corona was primarily based on the description given in Russell (1953) and Pages et al. (1992). It is somewhat tentative because our specimens were probably not fully grown as they did not attain the maximal tentacle number of 36 and size of 12 - 15 mm given in Kramp (1953). The observed maximal number of 25 tentacles compares more favourably with the numbers given in the original description for mature animals (27 - 30, 14 mm diameter; Keferstein & Ehlers, 1861). Russell (1953) provides a table with observed sizes and tentacle numbers for an Irish population and our specimens agree approximately. During the course of its development S. corona changes very little in general appearance. There is merely an increase in the number of marginal lappets, tentacles, and sense organs (Russell, 1953). It was not clear if the opaque ring in the stomach (Fig. 55 A) is the developing gonad tissue or some residual, digested food. The slight purple colour let us favour it being the developing gonad tissue.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B500048FEFDFAD7FB187EA5.taxon	description	Fig. 56 A-H	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B500048FEFDFAD7FB187EA5.taxon	materials_examined	Holotype: BFLA 4068, 10 - APR- 2019; size 9 mm, mature female, 9 tentacles; part preserved in formalin and deposited as UF- 013779 (damaged), small part preserved in alcohol for DNA extraction (MHNG- INVE- 0137376); 16 S sequence MW 528665. Paratype: BFLA 4273; 04 - DEC- 2019; size 9 mm, 8 tentacles; preserved in formalin and deposited as UF- 013841. Other material: BFLA 4243; 1 specimen; 11 - NOV- 2019; size 9 mm, 11 tentacles; preserved in alcohol for DNA extraction; 16 S sequence identical to MW 528665. – BFLA 4250; 1 specimen; 23 - NOV- 2019; size 8 mm, 10 tentacles, mature female; preserved in alcohol for DNA extraction; 16 S sequence MW 528693.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B500048FEFDFAD7FB187EA5.taxon	etymology	Etymology: The specific epithet is derived from the Latin words flavus (yellow) and finis (end), an allusion to the yellow tentacle tips.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B500048FEFDFAD7FB187EA5.taxon	description	Description: Bell diameter 8 - 9 mm, height ~ 4 - 5 mm, lower part shaped somewhat conical, upper part less steep, with small, rounded apical projection (Fig. 56 C); lower third of bell composed of 8 to 11 rectangular lappets (Fig. 56 A-F), 1 - 2 statocysts per lappet (Fig. 56 E). Stomach large, 2 / 3 of bell diameter, flat, without gastric pockets, no peripheral canals. Gonad tissue developing on periphery of oral side of stomach (Fig. 56 A, B, F), only females unambiguously identified, forming up to 8 very large oocytes (Fig. 56 B), often but not always in perradial position, size estimate ~ 0.7 mm, flattened lentil-shaped, well visible germinal vesicle (nucleus). 8 to 11 thin tentacles, issuing in about 1 / 3 of bell height, held upward (Fig. 56 C) or downward (Fig. 56 A), rather stiff, but able to move and even to coil (Fig. 56 F), evenly tapering to tip, length about two bell diameters, root short (Fig. 56 G). Below tentacles no exumbrellar furrows, but thin peronia delimiting the lappets. Statocysts bipartite, with inverted cone as base and spherical end with statocysts (Fig. 56 H). Colour: colourless except for yellow tentacle tips (Fig. 56 A, D). 16 S Data: See Table 1 and Fig. 48. The p-distance to S. corona was very high (32 %).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B500048FEFDFAD7FB187EA5.taxon	discussion	Remarks: The combination of the traits tentacle number (9 - 11), size (8 - 9 mm), and shape of the marginal lobes did not fit any of the known and accepted Solmaris species listed in Bouillon et al. (1991). Both the 16 S and the morphological traits varied only in a relatively narrow range and we are convinced that these medusae represent a distinct species. The species resembling S. flavifinis most closely is the Mediterranean Solmaris flavescens (Kölliker, 1853) (for a good description see Mayer, 1910: 434, figs 284 - 286). Solmaris flavescens differs in being considerably larger (diameter 15 - 23 mm) and has more tentacles (usually 13 - 15, exceptionally 12 or 17). While the yellow tentacle tips of S. flavifinis permitted distinguishing it immediately from the co-occurring S. corona (see above), this is not a diagnostic trait because it is shared with S. flavescens (Kölliker, 1853: 322; Gegenbaur, 1857: 264; Metchnikoff, 1886: 19 [257]). Another trait shared with S. flavescens is the large size of the oocytes, but several other Narcomedusae also have such large eggs (see table 4 in Bouillon, 1987).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B50004AFCADF958FD987C22.taxon	diagnosis	Diagnosis: Narcomedusae with manubrial pouches interradial, divided into two to four parts; gonads in these pouches; exumbrellar, primary tentacles between marginal lobes; without a peripheral canal system; with two or four primary tentacles leaving umbrella in apical half, well above level of stomach pouches; tentacle roots acutely recurved orally; no nematocystladen, deep peronial grooves; with peronia, equal or twice as many in number as the primary tentacles; without secondary tentacles on umbrella margin but with rudimentary bulbs; with or without nematocyst patches covering exumbrella. Represented by the genera Solmundaegina, Solmundella, Aeginopsis, and Solmundus (Lindsay et al., 2017).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B50004AFCADF958FD987C22.taxon	discussion	Remarks: When splitting the former Family Aeginidae, Lindsay et al. (2017) proposed this new family name based on their new genus Solmundaegina and included also the other genera listed above. They may have overlooked that by including the genus Solmundus Haeckel, 1879 there is already a family level name for this group available, namely the subfamily Solmundinae Haeckel, 1879, which is also valid at the family level as Solmundidae Haeckel, 1879. However, we agree with Lindsay et al. (2017) that the type species of Solmundus (S. tetralinus Haeckel, 1879) is a doubtful species, perhaps an aberrant Solmundella bitentaculata with four tentacles. Family names should not be based on dubious genera and species and it is advisable to remove Solmundus from the Solmundaeginidae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004AFEC9FBDFFED27D51.taxon	diagnosis	Diagnosis: Narcomedusae with eight manubrial pouches; without peripheral canal system; four peronia, two long tentacles; no secondary tentacles; no otoporpae.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004BFF6DFA2EFC387DE5.taxon	description	Fig. 57 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004BFF6DFA2EFC387DE5.taxon	materials_examined	Examined material: BFLA 4119; 1 specimen; 04 - JUN- 2019; size 4 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528677. – BFLA 4422; 1 specimen; 28 - MAY- 2020; size 2 mm; preserved in alcohol for DNA extraction but specimen was lost. – 24 - SEP- 2018; 1 specimen; photographed, not collected. MHNG-INVE- 31746; Mediterranean, Bay of Villefranche-sur-Mer; 43.6860 ° N 7.3170 ° E; 0 - 70 m depth; collection date 03 - MAY- 2001; 2 mature males, 4 mm diameter; part preserved in formalin, part in ethanol in alcohol for DNA extraction; 16 S sequence KX 355407. – 28 - APR- 2014; locality as previous sample; 1 specimen, 3 mm diameter, with gonads; preserved in alcohol for DNA extraction; 16 S sequence MG 811640.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004BFF6DFA2EFC387DE5.taxon	description	Description: Florida specimens with bell size up to 4 mm, as wide as high, umbrella circumference round (not oval, Fig. 57 C), apical jelly thick resembling an apical process (Fig. 57 B), evenly rounded and not keeled or oval in transverse section. Stomach wide, up to 7 / 10 of bell diameter, lenticular, without distinct gastric jelly cone; eight rectangular stomach pouches, no peripheral canal visible. Two opposite tentacles, these thick and long (~ 18 mm), tapering, originating in middle of bell, held variably upward or downward, held upwards in furrow of exumbrella that reaches almost to top of umbrella, below tentacles also a furrow with peronium, intertentacular peronium indistinct. Bases (roots) of tentacles in mesoglea, tapering, curved towards oral. 14 or more statocysts. Mouth region green, tentacles sometimes with broad yellow regions. 16 S Data: See Table 1 and Fig. 48. The available 16 S sequences appear polyphyletic, notably the one from an Antarctic medusa is clearly not related to the other ones which all form a well supported clade, but with deep subdivisions.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004BFF6DFA2EFC387DE5.taxon	distribution	Distribution: Widely distributed in all oceans, including the Mediterranean, but rare in the northern parts of the Atlantic and Pacific Oceans; circumpolar in Antarctic seas; from surface to fairly deep water (Kramp, 1959 a). This species is one of the most widespread of planktonic animals and is found at nearly all latitudes (Larson & Harbison, 1990). Type locality: Pacific Ocean, Banda Sea, Bay of Ambon (Moluccas, Indonesia).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B52004BFF6DFA2EFC387DE5.taxon	discussion	Remarks: The taxonomic history of Solmundella bitentaculata is marked by the question whether S. mediterranea is distinct from it or conspecific. Summarizing Mayer (1910) and Browne (1916), the two differ by the following traits [in square brackets traits observed in the present study]: - size when fully mature (12 - 15 mm versus 4 - 6 mm) [4 mm] - shape (bell outline, diameter in tentacular axis larger than in intertentacular axis, bell apex keel-shaped versus circular bell and apex rounded) [round] - tentacle length (up to 100 mm versus 10 - 18 mm) [18] - peronial furrows (perradial ones deep versus all shallow) [shallow] - statocysts in fully grown animals (16 versus 8) [14] Mayer (1910) and Browne (1916) thought that the two names refer to simple variants or growth stages. Thiel (1936) and Kramp (1955 b; 1961) listed them as synonyms, this being accepted by subsequent authors. Our Florida specimens matched mostly the S. mediterranea morphotype, except for the statocyst number. Another geographic variation was reported by Vanhöffen (1912) and Browne (1916) for Antarctic populations: they have clusters of nematocysts on the ex-umbrella, especially near the margin. The maximum likelihood tree (Fig. 48) shows that one sequence (EU 293998, from Antarctica according to voucher specimen data) is far apart from the other Solmundella which cluster in a monophyletic clade. However, there are possibly some problems with the identification of this specimen as it has almost the same sequence as an Aegina citrea of unknown origin (KY 007598). The 16 S of the Pacific, Mediterranean, and Gulf stream samples formed a well supported clade. The divergences within this clade are high (Table 1) and the three subclades could represent three species. A reconsideration of the morphological differences and the different nominal species in the synonymy listed above is thus warranted. Unfortunately, no morphological data are available for the Pacific specimens used to get the 16 S sequences.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B53004BFC5CF9C4FB8B703B.taxon	type_taxon	type species Aglaura hemistoma Péron & Lesueur, 1810 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B53004BFC5CF9C4FB8B703B.taxon	diagnosis	Diagnosis: Rhopalonematidae with slender gastric peduncle; with eight mobile, sausage-shaped gonads attached on peduncle and not on subumbrella; tentacles numerous, all alike; with pendant, club-shaped statocysts on bell margin.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	description	Fig. 58 A-D	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	materials_examined	Examined material: BFLA 3808; 4 specimens observed, one collected; 19 - OCT- 2018; size 2 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528640. – BFLA 4214; 1 specimen; 27 - AUG- 2019; 2 mm; parts preserved in formalin (UF- 013830) and in alcohol for DNA extraction; 16 S sequence MW 528686. – 20 - AUG- 2019; 1 specimen photographed; size 3 mm; not collected. MHNG-INVE- 0031745; Mediterranean, Bay of Villefranche-sur-Mer, 43.6860 ° N 7.3170 ° E, depth 0 - 70 m; collection date 03 - MAY- 2001; numerous specimens collected, some preserved in formalin, one used for DNA extraction, 16 S sequence KP 776748.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	discussion	Observations: Specimens from Florida with bell size of 2 mm, cylindrical shape, aboral side with funnellike depression (Fig. 58 C), wall very thin, velum broad, with slender gastric peduncle of 2 / 3 of subumbrellar height (Fig. 58 D). Manubrium protruding through velar opening (Fig. 58 A-D), bipartite, upper part saclike, lower half with cruciform cross-section, ending in four-lipped mouth (Fig. 58 B), margins smooth, not crenulated. Gonads eight sausage-shaped apendices in a whorl attached at junction of manubrium to peduncle (Fig. 58 A-C). Eight radial canals, thin and very transparent. Seven or eight statocysts (Fig. 58 B) on bell margin and about 70 thin tentacles. Mostly colourless, but interference effects often cause iridescence in rainbow colours (Fig. 58 A, D).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	description	16 S Data: The two haplotypes of this study differed in 0.9 % of the base pairs, while the minimal differences to other population were 2 to 5 % (Table 1). In a maximum likelihood tree (not shown) obtained by comparing it to the Trachymedusa 16 S dataset of Bentlage et al. (2018) and additional trachyline sequences from GenBank, all Aglaura hemistoma clustered as a monophyletic group.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	distribution	Distribution: Widely distributed and common in the warm and temperate parts of the Atlantic-, Indian-, and Pacific Oceans, usually between about 40 ° N and 40 ° S including also the Mediterranean, usually in large numbers (Kramp, 1965; Fagetti, 1973; Bouillon, 1978 b; Goy, 1979; Navas-Pereira & Vannuci, 1991; Pagès et al., 1992; Nagata et al., 2014). Type locality: Mediterranean Sea, near the town of Nice.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FF1CFE97FC237C8A.taxon	discussion	Remarks: Although Aglaura hemistoma has numerous synonyms, it is taxonomically rather unproblematic. Providing a tabular comparison of the nominal Aglaura species, Vanhöffen (1902) concluded that they are mostly developmental stages or variants of A. hemistoma. Moreover, A. hemistoma has a very thin jelly which gets deformed quite drastically when preserved (Bigelow, 1909). Our own observations on material from the Mediterranean showed that the bell actually elongates considerably in formalin. Some authors may have misinterpreted this fixation effect as a diagnostic trait and it explains the number of synonyms. The few available 16 S sequences are also relatively similar (Table 1).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FC7DFB66FAEE7DDE.taxon	type_taxon	type species Pantachogon apsteini Vanhöffen, 1902 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0074FC7DFB66FAEE7DDE.taxon	diagnosis	Diagnosis: Rhopalonematidae with short, thin gastric peduncle, exumbrella without apical process; eight ellipsoidal or sac-shaped, pendant gonads on radial canals; tentacles thin, all alike, without permanent terminal swelling; statocysts free, club-shaped.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0076FC5BF9D2FDC77F12.taxon	description	Fig. 59 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0076FC5BF9D2FDC77F12.taxon	materials_examined	Examined material: BFLA; 1 specimen; 09 - DEC- 2019; size 2 mm, juvenile; preserved in alcohol for DNA extraction; 16 S sequence could not be obtained as PCR failed repeatedly. – 05 - JUL- 2019; 2 specimens photographed, 2 mm, not collected.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0076FC5BF9D2FDC77F12.taxon	discussion	Observations: Bell diameter 2 mm, flatter than hemisphere, jelly relatively thin especially towards margin; with thin gastric peduncle reaching almost to level of velum (Fig. 59 B); stomach small, lips inconspicuous. Eight radial canals. Gonads when fully developed ellipsoidal, pendant, close to ring canal, all of equal size or larger ones and smaller ones alternating; long axis of ellipsoidal gonads vertical (Fig. 59 A). About 70 tentacles, all the same structure. One to two statocysts per octant.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0076FC5BF9D2FDC77F12.taxon	distribution	Distribution: Circumglobal in warm waters. In the Indian Ocean from Indonesia to Moçambique (Kramp, 1953, 1968; Bouillon, 1978 a); in the Pacific Ocean from eastern Australia, to the northern Part of the China Sea and Peru (Kramp, 1953, 1965; Bouillon, 1978 c; Du et al., 2010; Oliveira et al., 2016). In the South Atlantic from Argentina to Brazil and to western Africa (Kramp, 1955 b; Nagata et al., 2014; Oliveira et al., 2016). In the North Atlantic reported from the mid Atlantic to Florida (Bleeker & Van der Spoel, 1988; Larson et al., 1991; this study). Type locality: Indian Ocean, west coast of Sumatra.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6C0076FC5BF9D2FDC77F12.taxon	discussion	Remarks: Kramp (1959 a, 1965, 1968) states that the unequal size of the gonads, with small and larger ones alternating, is a characteristic trait of this species. However, this is found only in younger specimens, mature ones seem to have equally developed gonads (Bigelow, 1909; Nagata et al., 2014). Kramp gives also a bell size of 4 to 6 mm. Our specimens were smaller (2 mm). The type material was 2 to 3 mm in size, although perhaps not fully mature. Also Nagata et al. (2014) give a bell size of 2 to 3 mm.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0076FF21F8EDFC357CAA.taxon	type_taxon	type species Trachynema ciliatum Gegenbaur, 1854 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0076FF21F8EDFC357CAA.taxon	diagnosis	Diagnosis: Rhopalonematidae without gastric peduncle; gonads along radial canals; marginal tentacles solid, of two kinds: perradial tentacles long, with large, clubshaped ending; inter- and adradial tentacles short with swollen end. Statocysts enclosed in mesoglea when fully developed.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0070FC40FB47FECB7F3C.taxon	description	Fig. 60 A-E	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0070FC40FB47FECB7F3C.taxon	materials_examined	Examined material: BFLA 4289; 1 specimen; 09 - DEC- 2019; size 8 mm; no photos taken, preserved in alcohol for DNA extraction; 16 S sequence MW 528700. – BFLA 4292; 1 specimen; 09 - DEC- 2019; size 7 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528702. – 04 - MAR- 2019; 1 specimen; size 11 mm, photographed, not collected. Mediterranean, France, Bay of Villefranche-sur-Mer, 43.6860 ° N 7.3170 ° E, depth 0 - 70 m; 3 specimens collected 09 - MAY- 2001, 04 - APR- 2005, 29 - APR- 2014, used for DNA extractions, 16 S EU 293992 and KP 776749. Observations: Specimens from Florida with bell size of 7 - 11 mm, bell flatter than hemisphere, at least in some a very shallow apical process visible (Fig. 60 E). Velum very broad and hanging down like a curtain. Manubrium small, shorter than bell cavity height. Eight thin radial canals. Gonads on radial canals, elongated ovals, about 1 / 3 as long as the radial canal, placed in middle of the radial canals. About 16 statocysts, positioned closer to tentacles and not in middle of spaces between tentacles. Eight long, extensible tentacles ending in club-shaped swellings (Fig. 60 B, C); eight short, thin tentacles in interradial position, with terminal swelling (Fig. 60 B); up to two tentacle stumps in adradial position per octant (Fig. 60 C, not well visible).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0070FC40FB47FECB7F3C.taxon	description	16 S data: The two halplotypes found in the Florida material differ only in one base pair position and likewise also from a Mediterranean haplotype (Table 1). A further haplotype from Tierra del Fuego is more divergent (Table 1).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0070FC40FB47FECB7F3C.taxon	distribution	Distribution: Abundant in the warm and temperate waters of Atlantic, Indian, and Pacific oceans, including also the Mediterranean. Type locality: Mediterranean.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6E0070FC40FB47FECB7F3C.taxon	discussion	Remarks: The medusa from Florida was identified as R. velatum although it differed somewhat from typical specimens as described in Kramp (1959 a). There are currently two accepted species in the genus Rhopalonema: R. velatum and R. funerarium Vanhöffen, 1902. Rhopalonema velatum differs from the former in having a small apical process, marked off from the rest of the umbrella by a transverse circular furrow or depression. The process varies considerably in size and form (Russell, 1953). Rhopalonema funerarium lacks this proces, has long gonads on the distal 2 / 3 of the radial canals, a very short manubrium, and 32 statocysts. In one of the sample photos (Fig. 60 E), a shallow apical process is present. Additionally, the size and position of the gonads and the statocyst number and position matched more R. velatum, but the short manubrium was more like in R. funerarium. Although the latter species has been regarded as distinct by Kramp (1947, 1959 a), others had doubts [see discussion and references in Russell (1953: 435) and Bouillon et al. (2004: 244)]. It could well be that R. funerarium is only an advanced growth stage of R. velatum.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680070FC42FE97FC277BD7.taxon	type_taxon	type species Geryonia hexaphylla Péron & Lesueur, 1810.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680070FC42FE97FC277BD7.taxon	diagnosis	Diagnosis: Limnomedusae with gastric peduncle; stomach small, with 6 lips; 6 radial canals, with additional centripetal canals; 6 gonads on radial canals, flattened and leaf-shaped; two kinds of marginal tentacles, solid and hollow; ecto-endodermal statocysts enclosed in mesoglea. No polyp stage, direct developement.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680070FC42FE97FC277BD7.taxon	discussion	Remarks: Geryonia hexaphylla Péron & Lesueur, 1810, a synonym of Medusa proboscidalis Forsskål, 1775, was selected by Haeckel (1879) as type of the genus. Mayer (1910: 424) and Kramp (1961) give as type species Medusa proboscidalis Forsskål, 1775 for this genus, but this is incorrect as the name was not part of the original nominal species included in Geryonia by Péron & Lesueur.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680070FF22F814FD957030.taxon	discussion	Remarks: Following Bentalge et al. (2018), the Geryoniidae are here classified as Limnomedusae and not Trachymedusae as done traditionally.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680071FC5FFBA9FC197D9B.taxon	description	Fig. 61 A-B	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680071FC5FFBA9FC197D9B.taxon	materials_examined	Examined material: BFLA 4029; 1 specimen; 04 - MAR- 2019; diameter 10 mm; part preserved in formalin (UF- 013448) and part in alcohol for DNA extraction; 16 S sequence MW 528644. – 26 - MAR- 2019; 1 specimen photographed, diameter 20 mm, not collected. Mediterranean, France, Bay of Villefranche-sur- Mer, 43.6963 ° N 7.3075 ° E; 25 - APR- 2016; diameter 70 mm, photos see DOI: 10.5281 / zenodo. 53890; whole specimen used for DNA extraction, 16 S sequence KX 355451.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680071FC5FFBA9FC197D9B.taxon	description	Description of Florida material: Bell almost hemispherical, 10 to 20 mm wide, jelly thick. Stomach small, on a long conical peduncle, peduncle reaching a length of about twice the bell height (Fig. 61 A). Six radial canals, 3 - 7 centripetal canals betwen pairs of radial canals, ending blindly below apex of subumbrella. Gonads along the six primary radial canals, reaching from circular canal to apex of subumbrella, sheet-like, triangular, pointed end towards circular canal. Two types of tentacles. Six long, perradial tentacles with nematocyst rings, and six short interradial tentacles with adaxial nematocyst clusters, often held upwards adnate to subumbrella (Fig. 61 B). 16 S Data: The 16 S sequence (GMW 528644) shows few differences to other published sequences of G. proboscidalis (Table 1). The p-distance to the Mediterranean specimen was 0.17 %, and 0.33 % to the one from Japan. More differences where found with sequence KT 809331 (1.2 %) originating from the Sea of Cortez (Bastian Bentlage, pers. com.).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680071FC5FFBA9FC197D9B.taxon	distribution	Distribution: Occurs in tropical and subtropical parts of all three oceans, including also the Mediterranean, approximately between 35 ° and 35 ° S (Kramp, 1957, 1965). Type locality: Mediterranean Sea (Forsskål, 1775).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B680071FC5FFBA9FC197D9B.taxon	discussion	Remarks: With its six radial canals and the two types of tentacles, Geryonia proboscidalis is rather reliably identifiable. It is interesting to note the low 16 S sequence divergences observed for the sample from Florida, the Mediterranean, and Japan. Geryonia proboscidalis could thus be a good example of a hydromedusan species with a truely circumglobal distribution.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B690072FC1DF995FF067B9C.taxon	type_taxon	type species Liriope cerasiformis Lesson, 1843 (Haeckel, 1979: 288).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B690072FC1DF995FF067B9C.taxon	diagnosis	Diagnosis: Limnomedusae with long gastric peduncle; stomach small, with 4 lips; 4 radial canals, with additional centripetal canals; 4 gonads on radial canals, flattened and leaf-shaped; two kinds of marginal tentacles, solid and hollow; ecto-endodermal statocysts enclosed in mesoglea. No polyp stage, direct developement.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B690072FC1DF995FF067B9C.taxon	discussion	Remarks: Rarely, aberrant animals with more than four radial canals and gonads can occur, but the number of oral lips remains rather constantly four (Bouillon et al., 2006).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0072FF69FB93FAA37E2E.taxon	description	Fig. 62	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0072FF69FB93FAA37E2E.taxon	materials_examined	Examined material: BFLA 4026; 1 specimen; 15 - FEB- 2019; size 20 mm; preserved in alcohol for DNA extraction; 16 S sequence MW 528649. MHNG-INVE- 0031754; Mediterranean, Bay of Villefranche-sur-Mer; 43.6860 ° N 7.3170 ° E; 70 m depth; collection date 11 - MAY- 2001;> 2 specimens; size 3 - 4 mm; 1 preserved in formalin, others in ethanol for DNA extraction; 16 S sequence MW 528628. Observations: Specimen from Florida with nearly hemispherical bell, 20 mm wide, apical jelly thick, with long, thin gastric peduncle, peduncle length more than two times the bell height. Thin nematocysts tracks on exumbrella, four perradial and four interradial, interradial ones reaching only to base of short tentacles, perradial ones longer. Stomach on long gastric peduncle, relatively small, four indistinct perradial lips. Radial canals four, centripetal canals not visible on photos. Gonads very wide, flat, leaf-like, heart-shaped with pointed side pointing toward periphery. Four long perradial tentacles originating at bell margin, with ring-shaped nematocyst clusters. Four short interradial tentacles originating above bell margin on exumbrella, with adaxial nematocyst clusters.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0072FF69FB93FAA37E2E.taxon	description	16 S Data: A blastn search in GenBank with the 16 S from Florida (MW 528649) yielded numerous matches with other Liriope tetraphylla samples, but only with identities from 92 to 95.5 %. The sequence obtained from the Mediterranean specimen (MW 528628) gave identities from 90 to 99 % with other Liriope tetraphylla sequences.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0072FF69FB93FAA37E2E.taxon	distribution	Distribution: In Pacific, Indian, and Atlantic ocean, including the Mediterranean, approximately between 40 ° N and 40 ° S, in the NE Atlantic reaching to the English Channel (Kramp, 968). Type locality: Indian Ocean (Chamisso & Eysenhardt, 1821).	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0072FF69FB93FAA37E2E.taxon	discussion	Remarks: This is a rather unproblematic species, but Collins et al. (2008) suggested the existence of cryptic species based on significant divergences in mitochondrial 16 S and nuclear sequence data. The high 16 S divergences were confirmed in the present study.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0073FC02F9E0FD7A7A4D.taxon	type_taxon	type species Olindias sambaquiensis Müller, 1861 by monotypy.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0073FC02F9E0FD7A7A4D.taxon	diagnosis	Diagnosis: Olindiidae medusa with 4 radial canals and numerous centripetal canals; numerous tentacles of two kinds: primary ones directed upwards, nematocysts in transverse clasps and often with distal adhesive pads, and secondary ones directed downwards, without adhesive pads, nematocysts in rings. Gonads on papilliform diverticula of radial canals; numerous marginal bulbs which may transform into tentacles, statocysts usually in pairs at base of primary tentacles. Known hydroid either solitary and lacking tentacles, or forming small stolonal colonies and hydranths with a single filiform tentacle.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6A0073FC02F9E0FD7A7A4D.taxon	discussion	Remarks: The grammatical gender of the name is male (Calder, 2010). For descriptions of the hydroid see Weill (1936), Patry et al. (2014), and Toshino et al. (2019). Toshino et al. (2019) provide also a tabular overview on the species of this genus and a phylogenetic tree.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6B0073FE8FFD20FAD87DE1.taxon	description	Fig. 63 A-C	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6B0073FE8FFD20FAD87DE1.taxon	materials_examined	Examined material: BFLA 4232; 1 specimen, 21 - OCT- 2019; size 23 mm; part preserved in formalin (UF- 013845) and part in alcohol for DNA extraction; 16 S sequence MW 528688. Observations: Olindias medusa with bell flatter than hemisphere; diameter 23 mm. No exumbrellar pigment bands. Manubrium as long as subumbrellar height, width uniform, cruciform cross-section, mouth with four simple lips. Four radial canals with gonads along distal half to 2 / 3. Gonads in development with numerous small oogonia, gonads reaching nearly to circular canal, forming numerous diverticula-like outgrowths along entire length of the gonad (Fig. 63 A-C), along the windings of the diverticula runs a purple-pinkish stripe (Fig. 63 B). 6 to 8 centripetal canals of different lengths per quadrant (Fig. 63 A). Tentacles originating from bell margin without distinct bulb formation, two types present (Fig. 63 C): about 34 primary tentacles with scattered nematocyst clusters, part of the clusters with characteristic dark pigment; few secondary tentacles with transverse nematocysts rings (some of these tentacles likely broken off), lacking dark pigment, usually pendant. No exumbrellar tentacles. No adhesive pads on tentacles. Bell margin with about 90 bulbs lacking tentacles, with radial band of nematocysts on abaxial side. One to two round statocysts next to primary tentacles (Fig. 63 C). Colours: none except for pink stripes on gonad diverticules.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6B0073FE8FFD20FAD87DE1.taxon	description	16 S Data: A blastn search in GenBank to find matching sequences to the 16 S sequence gave a very close match with MG 979369, a sequence from a O. tenuis originating from the U. S. Virgin Islands (A. G. Collins, pers. comm.). The sequence divergence was only 0.5 %.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6B0073FE8FFD20FAD87DE1.taxon	distribution	Distribution: Florida, Bermudas, Bahamas, Puerto Rico (Mayer, 1910; Kramp, 1959 a; Larson, 1986). Type locality: USA, Florida, Key West.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
D0118A7C5B6B0073FE8FFD20FAD87DE1.taxon	discussion	Remarks: The present medusa was identified as O. tenuis primarily based on it geographic occurrence, but its traits matched the diagnosis of Kramp (1959 a) reasonably well [see Table 5 in Toshino et al. (2019)]. The species statuses of O. tenuis and O. sambaquinensis Müller, 1861 have been questioned by e. g. Bigelow (1938) and Kramp (1959 a, 1961), considering them either a subspecies or potentially conspecific with Olindias muelleri Haeckel, 1879 (using the incorrect name Olindias phosphorica, see footnote). The 16 S phylogenetic tree presented in Toshino et al. (2019) suggests that the three species are distinct.	en	Schuchert, Peter, Collins, Richard (2021): Hydromedusae observed during night dives in the Gulf Stream. Revue suisse de Zoologie 128 (2): 237-356, DOI: 10.35929/RSZ.0049
