identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
305647291C255456859F22FC3B5FDE44.text	305647291C255456859F22FC3B5FDE44.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella appendiculata (Heller 1867)	<div><p>Microporella appendiculata (Heller, 1867)</p><p>Fig. 2</p><p>Lepralia appendiculata Heller, 1867: 107, pl. 2, fig. 8.</p><p>Microporella coronata ?  Microporella coronata (Audouin &amp; Savigny, 1826): Gautier 1962: 173.</p><p>Microporella coronata (Audouin &amp; Savigny): Zabala 1986: 513, fig. 180.</p><p>Microporella marsupiata (Busk, 1860): Zabala 1986: 514, fig. 181, pl. 15D.</p><p>Microporella pseudomarsupiata Arístegui, 1984: 325, pl. 24, fig. 6; Zabala and Maluquer 1988: 141, fig. 335, pl. 19C; Di Geronimo et al. 1993a: table 1; Di Geronimo et al. 1997: table 2; Chimenz and Faraglia 1995: 40, table 1, pl. 2C; Rosso 1996a: table 2.</p><p>Microporella appendiculata (Heller): Hayward and Ryland 1999: 294, figs 134A, B, 135 (cum syn.); Chimenz Gusso et al. 2014: 187, fig. 100a-e.</p><p>Examined material.</p><p>Italy • 2 living colonies; Ionian Sea, E Sicily, Ciclopi Island MPA; samples <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.333333&amp;materialsCitation.latitude=36.963333" title="Search Plazi for locations around (long 15.333333/lat 36.963333)">Ciclopi</a> 2000 4E and 14G; 37°32'2 8"- 37°34'30"N, 15°8'59"- 15°11'1"E; 52 and 90 m; 16 Jul. 2000; A. Rosso leg.; dredging; DC and DL Biocoenoses; PMC Rosso-Collection I. H. B.84a. Italy • 27 living and 10 dead colonies/fragments; Ionian Sea, SE Sicily, Gulf of Noto; 36°41'45"- 36°57'48"N, 15°8'35"- 15°20'0"E; PS/81 cruise; samples CR1, 9B and 10C; 45, 44 and 60 m; Jul. 1981; I. Di Geronimo leg.; dredging; DC Biocoenoses; and 3 living colonies; Noto 1996 cruise; samples 6C and 9E; 45-50 m; 1996; E. Mollica leg.; dredging; VTC and DC Biocoenoses; PMC Rosso-collection I. H. B 84c  .   Italy • 5 living colonies;  Iberian-Provençal Basin, NW Sardinia, Capo Caccia-Punta Giglio MPA; samples Bisbe 1, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=8.194167&amp;materialsCitation.latitude=40.594444" title="Search Plazi for locations around (long 8.194167/lat 40.594444)">Bisbe</a> 2 and <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=8.194167&amp;materialsCitation.latitude=40.594444" title="Search Plazi for locations around (long 8.194167/lat 40.594444)">Falco</a> 1; 40°35'40"N, 8°11'39"E; 7-8 m; Jun. 2009; V. Di Martino leg.; submarine cave; scuba diving; PMC Rosso-Collection I. H. B. 84b  .   France • 11 dead colonies;  Iberian-Provençal Basin ,   Corsica, off  Calvì; sample CL 74; 42°47'31"N, 9°8'10"E; 150- 110 m; G. Fredj leg.; dredging; DL Biocoenosis; PMC Rosso-collection Fr. H. B 84d  .   Greece • 1 dead colony; NE Aegean Sea, Lesvos Island, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=26.541111&amp;materialsCitation.latitude=38.969166" title="Search Plazi for locations around (long 26.541111/lat 38.969166)">Agios Vasilios cave</a>; sample AV1; 38°58'9"N, 26°32'28"E; ca. 30 m, V. Gerovasileiou leg.; submarine cave; scuba diving; PMC Rosso-collection Gr. H. B 84e  .</p><p>Description.</p><p>Colony encrusting multiserial, unilaminar, forming subcircular patches; interzooidal communications typically via two proximolateral, two distolateral and three distal pore-chamber windows, 48-122 (71  ± 25, N = 10)  × 16-26  μm (20  ± 3, N = 10) along lateral walls.</p><p>Autozooids polygonal, 529-742 (644  ± 66, N = 14)  × 347-582 (458  ± 66, N = 14)  μm (mean L/W = 1.41), distinct, the boundaries marked by narrow grooves between the slightly raised vertical walls (Fig. 2D, E). Frontal shield flat to slightly convex, coarsely, densely and evenly granular; 5-8 marginal areolae only occasionally distinguishable from pseudopores; pseudopores circular to elliptical (6-16  μm in diameter), numbering 30-42 (fewer in periancestrular zooids), placed in the proximal half of the zooid (Fig. 2E); area between orifice and ascopore imperforate.</p><p>Primary orifice transversely D-shaped, 100-110 (105  ± 7, N = 2)  × 129-141  μm (135  ± 8, N = 2) (mean OL/OW = 0.78; mean ZL/OL = 6.14); hinge-line straight or concave, smooth, without condyles and denticles. Five, occasionally six, articulated oral spines, 170-310  μm long (diameter of the base 25-42  μm), the proximalmost pair bi- to trifurcated, the tips sometimes curved towards the centre of the orifice (Fig. 2A, B); joints brown.</p><p>Ascopore field an area of smooth, gymnocystal calcification, placed 50-80  μm below the orifice, transversely elliptical, 48-122  × 61-110  μm, narrow distally, more extensive proximally and developing a prominent, pointed mucro not concealing the ascopore; ascopore subcircular, 22-43  μm in diameter, with a dozen of radial spines (Fig. 2F, G).</p><p>Avicularia paired, 72-170 (103  ± 29, N = 37)  × 46-103 (67  ± 13, N = 37)  μm (mean AvL/AvW = 1.53), located distolaterally, the complete crossbar at the same level of the orifice hinge-line (Fig. 2D, E); rostrum short, arched or truncated distally and open-ended, distally directed. Mandible brown, 387-659  μm long, setiform, typically curved, lying on the distal zooid (Fig. 2A).</p><p>Ovicell subglobular and semi-immersed, 143-235 (195  ± 29, N = 15)  × 262-378 (329  ± 38, N = 15)  μm (mean OvL/OvW = 0.59), non-personate, not obscuring the proximal part of the orifice, closed by the operculum during brooding (Fig. 2A, C, D), in the same colony either kenozooidal (Fig. 2C, D black arrows) or produced by the distal autozooid (Fig. 2D white arrow); surface finely granular, imperforate; a proximal rim of gymnocystal calcification occupying about one-third of the ooecium length, forming a raised visor-like rim; proximalmost pair of spines (branched) visible in ovicellate zooids.</p><p>Ancestrula tatiform (Fig. 2E), oval (424  × 324  μm), gymnocyst more extensive proximally than laterally, about 150  μm wide; opesia pyriform (270  × 180  μm), surrounded by a smooth, flared cryptocyst with the undulate marginal rim indented by ten gymnocystal spines (six distal, two median, three proximal). Ancestrula budding two distolateral autozooids, often regenerated as a small autozooid lacking avicularia (Fig. 2F).</p><p>Remarks.</p><p>Originally described from the Adriatic by Heller (1867),  Microporella appendiculata has often been recorded as  Microporella marsupiata Busk, 1860 or as  M. pseudomarsupiata Arístegui, 1984 (see Hayward and Ryland 1999 and references therein; Rosso et al. 2010; Chimenz Gusso et al. 2014). With the exception of Hayward and Ryland (1999) and recent online material such as the catalogue of the Museu de  Ciènces Natural de Barcelona (https://zoologiaenlinia.museuciencies.cat/detall/zoologia_general/N1064271/) and the website of the program DORIS (https://doris.ffessm.fr/Especes/Microporella-pseudomarsupiata-Microporelle-ciliee-noire-1695), a comprehensive description and illustration of this species is absent in the literature.</p><p>Microporella flabelligera Levinsen, 1909 described from the vicinity of Siracusa, at depths (28-46 m) comparable to those of the PS/81 sites in the Gulf of Noto, is likely to be conspecific with  M. appendiculata based on the original drawings (Levinsen 1909: 331, pl. 24 cited as 23 in the text, fig. 6A-C). However, a formal synonymy requires the examination of the type specimen.</p><p>Microporella appendiculata differs from other Mediterranean congeners in having paired avicularia, a character shared only with  M. coronata (Audouin &amp; Savigny, 1826). However, in  M. coronata the avicularia are located proximally to the ascopore, the ovicell is personate, the oral spines are greater in number (6-8) and unbranched.</p><p>Here, we document the regeneration of the ancestrula as an autozooid for the first time (Fig. 2F). Trifurcated proximal spines have already been figured on some zooids, though not described as such by Zabala (1986: fig. 181B, as  M. marsupiata) and by Chimenz and Faraglia (1995: pl. 2C, as  M. pseudomarsupiata). Gautier (1962) also recorded autozooids with up to seven oral spines.</p><p>Size differences were observed between specimens from Sicily and those from Sardinia, with Sardinian colonies showing longer autozooids (Sicily: mean 604  ± 56  × 458  ± 71  μm, N = 8, L/W 1.32; Sardinia: 698  ± 30  × 458  ± 64  μm, N = 6, L/W 1.53), slender avicularia (Sicily: mean 135  ± 7  × 105  ± 8  μm, N = 25, L/W 1.38; Sardinia: 142  ± 14  × 80  ± 14  μm, N = 12, L/W 1.78), and larger ovicells (Sicily: mean 173  ± 20  × 280  ± 14  μm, N = 5, L/W 0.78; Sardinia: 206  ± 27  × 354  ± 13  μm, N = 10, L/W 0.58), as well as trifurcated proximalmost spines.</p><p>Distribution and ecology.</p><p>In the Mediterranean,  M. appendiculata has been reported from several localities and usually in shelf habitats, associated with coarse detritic bottoms, often encrusting shells and calcareous algae (Gautier 1962; Rosso 1996a, b; Madurell et al. 2013; Chimenz Gusso et al. 2014), as well as from shadowed microhabitats associated with  Cystoseira s. l. communities (e.g., Campisi 1973; Rosso et al. 2019a). It also occurs in submarine caves of NW Sardinia (Fraschetti et al. 2010) and near Monaco (J.-G. Harmelin, pers. comm., May 2021) in the  Iberian-Provençal basin, at the transition between coralligenous and semi-dark cave habitats.  Microporella appendiculata has been also collected in dark sectors of Agios Vasilios cave in Lesvos, Greece (Rosso et al. 2019b) and (as  M. umbracula) in the Mitigliano cave in the Sorrento peninsula, Italy (Balduzzi et al. 1989; Balduzzi and Rosso 2003).</p></div>	https://treatment.plazi.org/id/305647291C255456859F22FC3B5FDE44	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
E820C8E6652A5CD28446FC68D3407541.text	E820C8E6652A5CD28446FC68D3407541.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella bicollaris Martino & Rosso 2021	<div><p>Microporella bicollaris sp. nov.</p><p>Fig. 3</p><p>Microporella sp. C Rosso et al. 2013a: table 17.1; Rosso et al. 2013b: table 1.</p><p>Type material.</p><p>Holotype: Italy • The largest of 2 living colonies on the basal part of a thallus of  Halimeda tuna (Ellis &amp; Solander) Lamoroux, including the ancestrula and several ovicellate zooids; northern Ionian Sea, Gulf of Taranto, Porto Cesareo MPA; sample PCE10; 40°15'54"N, 17°52'38"E; 5-15 m; 2008; A. Sinagra leg.; scuba diving; C Biocoenosis; Paratypes: Italy • 1 dead colony fragment consisting of about a dozen zooids, some fertile; sample PCI10; same details as the holotype; PMC. B29b1. 20.11.2020; 1 dead colony fragment consisting of 9 zooids, 3 of which fertile; Ionian Sea, SE Sicily, Plemmirio MPA, Mazzere submarine cave; sample MZ1 (sediment); 37°00'18"N, 15°18'36"E; 23 m; 14 Sep. 2009; V. Di Martino leg.; scuba diving; C and GSO Biocoenoses; PMC. B29b2. 20.11.2020.</p><p>Diagnosis.</p><p>Colony encrusting, multiserial. Autozooid frontal shield densely pustulose and centrally pseudoporous. Orifice transversely D-shaped; hinge-line smooth with rectangular condyles at corners; five or six oral spines, two visible in ovicellate zooids. Ascopore field circular to elliptical; ascopore opening bean-shaped, with small tongue and radial spines. Avicularium single, located at half zooidal length, directed laterally or slightly disto-laterally; crossbar complete; rostrum lanceolate, channelled. Ovicell produced by the distal zooid, personate with collar enclosing the ascopore and forming a bridge between the orifice and the ascopore, producing two secondary openings.</p><p>Description.</p><p>Colony encrusting, multiserial, unilaminar (Fig. 3A); interzooidal communications through four elliptical, lateral (two proximo- and two disto-lateral), and two rounded, distal pore chamber windows (38-67  × 16-21  µm).</p><p>Autozooids hexagonal, 460-522 (494  ± 31, N = 3)  × 411-476 (433  ± 37, N = 3)  µm (mean L/W = 1.16), boundaries marked by narrow, sinuous grooves and/or a raised rim. Frontal shield slightly convex, densely and evenly pustulose, with 11-25 circular (diameter 5-20  µm) pseudopores, irregularly distributed centrally; 3-6 marginal areolae, often indistinguishable from pseudopores (Fig. 3C, D).</p><p>Orifice transversely D-shaped, 83-95 (89  ± 5, N = 6)  × 141-170 (150  ± 11, N = 6)  µm (mean OL/OW = 0.60; mean ZL/OL = 5.47), outlined by a thin, raised (relative to the surrounding frontal shield) rim; hinge-line straight, smooth, with a pair of rectangular condyles at corners (Fig. 3E). Oral spines five or six (diameter of the base 18-27  μm), evenly spaced (Fig. 3C, E); proximalmost pair of spines sometimes visible in ovicellate autozooids, embedded between the proximal margin of the ooecium and the personate collar (Fig. 3D, G).</p><p>Ascopore field a very narrow, subcircular area of gymnocystal calcification, 35-42  × 46-70  μm, located 35-47  μm below the orifice, at the same level as the orifice but slightly raised relative to the adjacent frontal shield; opening bean-shaped, 32-37  × 9-19  μm, with a small, subcircular tongue projecting from distal edge and tiny radial denticles (Fig. 3E).</p><p>Avicularium single, relatively large, 134-190 (165  ± 18, N = 10)  × 86-109 (97  ± 9, N = 10)  μm (mean AvL/AvW = 1.70), located laterally, on either side, at about half zooidal length (Fig. 3B-D, G); crossbar complete, thin; rostrum long, lanceolate, channelled and open-ended, directed laterally or distolaterally, often raised distally on a smooth, gymnocystal cystid. Mandible lanceolate, 220-245  μm long, slightly longer than the rostrum (Fig. 3B, F).</p><p>Ovicell subglobular and slightly prominent, 147-239 (187  ± 34, N = 8)  × 262-343 (309  ± 33, N = 8)  μm (mean OvL/OvW = 0.60), produced by and continuous with frontal shield of distal zooid, personate, obscuring distal half of the orifice; calcification fabric similar to frontal shield but with smaller pseudopores (diameter 3-8  μm); distal boundary marked by a row of larger pseudopores; proximal margin of gymnocystal calcification forming a raised visor-like band (e.g., Fig. 3B-D). Personate structure of the ovicell with a collar enclosing the ascopore and forming a bridge of two fused flaps between the orifice and the ascopore, producing two secondary openings (Fig. 3D, F, G); secondary orifice transversely elliptical, 71-137  × 180-218  μm; secondary opening over the ascopore trumpet-like (38-52  × 83-145  μm).</p><p>Ancestrula tatiform partially overgrown (four spines still visible) and regenerated as an autozooid without avicularium.</p><p>Etymology.</p><p>From the Latin prefix bi -, two/double, and the adjective collaris, pertaining to the neck, referring to the bridging structure between the orifice and the ascopore appearing as a double collar.</p><p>Remarks.</p><p>Four species with personate ovicells are known to date from the Mediterranean.  Microporella coronata (Audouin &amp; Savigny, 1826) differs from the new species in having paired avicularia and a greater number of oral spines, always hidden in ovicellate zooids.  Microporella browni Harmelin, Ostrovsky,  Cáceres-Chamizo &amp; Sanner, 2011,  M. genisii (Audouin &amp; Savigny, 1826), and  M. orientalis Harmer, 1957 differ in having personate ovicell structures not enclosing the ascopore, and by the denticulation either on the distal or the proximal margin of the orifice.</p><p>Among all  Microporella species known worldwide, the most similar to  M. bicollaris sp. nov. is the eastern Pacific  M. pontifica Osburn, 1952 reported from Clarion Island, Galapagos and the Gulf of California. Unfortunately, SEM images are not available for this species, but the original drawing (Osburn 1952: pl. 44, fig. 5) shows the same personate structure of the ovicell observed in  M. bicollaris sp. nov. However, the new species differs in having a larger avicularium placed more terminally relative to the lateral margin of the zooid, and by the presence of condyles in the orifice. The specimen drawn in Hayward and Ryland (1999: fig. 136D) as  Microporella ciliata “personate” form of Hincks (1880), also appears similar to  M. bicollaris sp. nov. However, the illustration in Hincks (1880) appears different, but it is unclear whether Hayward and Ryland (1999) examined any additional material. The north-eastern Atlantic specimens need to be revised to assess their conspecificity with the Mediterranean colonies.</p><p>Distribution and ecology.</p><p>Microporella bicollaris sp. nov. is presently known only from Porto Cesareo MPA (Gulf of Taranto, southwestern Apulia, NE Ionian Sea), and the Mazzere submarine cave in the Plemmirio MPA (western Ionian Sea). All colonies are from shallow waters, collected in photophilic algae or found in a semi-dark submarine cave.</p></div>	https://treatment.plazi.org/id/E820C8E6652A5CD28446FC68D3407541	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
1C0DEB923BEA586990684C04DDC056C7.text	1C0DEB923BEA586990684C04DDC056C7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella ciliata (Pallas 1766)	<div><p>Microporella ciliata (Pallas, 1766)</p><p>Fig. 4</p><p>Eschara ciliata Pallas, 1766: 38.</p><p>Microporella ciliata (Pallas):  Kukliński and Taylor 2008: 1895, fig. 1a-i.</p><p>Microporella ciliata Non  Microporella ciliata (Pallas): Hayward and McKinney 2002: 83, fig. 37e-j.</p><p>Examined material.</p><p>Italy • 1 dead colony; Ionian Sea, SE Sicily, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.1675005&amp;materialsCitation.latitude=36.740555" title="Search Plazi for locations around (long 15.1675005/lat 36.740555)">Gulf of Noto</a>; sample WP120; 36°44'26"N, 15°10'3"E; 50 m; 1996; E. Mollica leg.; dredging; PMC Rosso-Collection I. H. B. 85a  .</p><p>Remarks.</p><p>The neotype chosen by  Kukliński and Taylor (2008) was selected from material collected in 1984 and 2005 at Penta Palummo Bank, a submerged volcanic edifice in the Bay of Naples rising up to about 40 m depth from the surrounding 80 m shelf.  Kukliński and Taylor (2008) already suggested that the Mediterranean material overall assigned to  M. ciliata, might actually correspond to more than one closely related species. This was observed, for instance, in SEM images of north Adriatic specimens in Hayward and McKinney (2002), which differ from the neotype. Following  Kukliński and Taylor (2008), Rosso et al. (2010), Chimenz Gusso et al. (2014), and Rosso and Di Martino (2016) remarked on the need for a revision of the material assigned to this species, whose accorded great variability (e.g., Gautier 1962; Hayward and Ryland 1999) is very likely to correspond to a species complex. The effort to disentangle the  Microporella ciliata complex began with the recent description of  Microporella modesta Di Martino, Taylor &amp; Gordon, 2020, and is pursued in the present paper with the description of two new species sharing with  M. ciliata the general appearance and the presence of a single, lateral avicularium as well as non-personate ovicells. Examination of all material available to us, as well as images available in the literature, suggest that  M. ciliata, as defined by the neotype, is possibly a rare species in the Mediterranean Sea, or at least a species with a very restricted geographical and/or ecological distribution. A similar conclusion was reached by Chimenz Gusso et al. (2014) after revising their material identified as  M. cf. ciliata, found associated to  Posidonia and algae between 5 and 88 m depth in several localities of the Tyrrhenian Sea (i.e., off Latium; Spargiotto Island, NE Sardinia; Ustica and Volcano Islands) and the Sicily Strait (Lampedusa Island). The revision of all specimens originally assigned to  M. ciliata or  M. gr. ciliata in the collections of one of us (AR), originating from several regions and habitats of the Mediterranean Sea, led to the detection of only one colony corresponding with the neotype (Fig. 4). Although the type locality is unknown, it is likely that the original material described by Pallas (1766) was collected in shallow waters from easily accessible substrates, which is not the case for the selected neotype. Colonies of  M. ciliata recorded from different western Mediterranean localities (Gautier 1962; Zabala 1986, and references therein), Greece (Harmelin 1969) and Turkey ( Ünsal 1975), all show great variability and need to be revised to ascertain their identity.</p><p>Distribution.</p><p>Awaiting a general revision of specimens reported from all over the world, focusing on the Mediterranean Sea, the occurrence of  Microporella ciliata to date is only confirmed in the Gulf of Naples (SE Tyrrhenian Sea) and the Gulf of Noto (W Ionian Sea).</p></div>	https://treatment.plazi.org/id/1C0DEB923BEA586990684C04DDC056C7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
160920B245B75C85A5074BA0A8D1E0A3.text	160920B245B75C85A5074BA0A8D1E0A3.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella Hincks 1877	<div><p>Genus  Microporella Hincks, 1877</p><p>Type species.</p><p>Eschara ciliata Pallas, 1766</p></div>	https://treatment.plazi.org/id/160920B245B75C85A5074BA0A8D1E0A3	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
B37BD229D79B5D099676EE6DBCEB16ED.text	B37BD229D79B5D099676EE6DBCEB16ED.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella ichnusae Martino & Rosso 2021	<div><p>Microporella ichnusae sp. nov.</p><p>Figs 5, 6</p><p>Microporella sp. A Fraschetti et al. 2010: table 27.</p><p>Type material.</p><p>Holotype: Italy • 1 living colony consisting of more than 100 zooids, including some complete and some broken ovicells;  Iberian-Provençal Basin, NW Sardinia, Capo Caccia-Isola Piana MPA, Bisbe submarine cave; sample Bisbe 2; 40°34'15"N, 8°12'55"E; 8 m; 2009; V. Di Martino leg.; scuba diving; GSO Biocoenosis; PMC. B30a. 20.11.2020. Paratypes: Italy • 9 living colonies, each consisting of a dozen zooids;  Iberian-Provençal Basin, NW Sardinia, Capo Caccia-Isola Piana MPA, Bisbe, Falco and Galatea caves; samples Bisbe 1, Bisbe 2, Falco 2, Galatea 1 and Galatea 2; Bisbe, same details as the holotype; Falco: 40°34'09"N, 8°13'14"E; Galatea: 40°34'09"N, 8°13'54"E; 4-8 m; 2008; V. Di Martino leg.; scuba diving; GSO Biocoenosis; PMC. B30b. 20.11.2020.</p><p>Diagnosis.</p><p>Colony encrusting, multiserial. Autozooid frontal shield densely pustulose and sparsely pseudoporous. Orifice transversely D-shaped; hinge-line smooth with blunt condyles close to corners; four thin oral spines, hidden in ovicellate zooids. Ascopore field semi-elliptical; ascopore opening an arched fissure marked by a distal tongue with radial spines. Avicularium usually single, same level as or proximal to the ascopore, occasionally paired, directed distolaterally; crossbar complete; rostrum lanceolate, channelled. Ovicell non-personate.</p><p>Description.</p><p>Colony encrusting multiserial, unilaminar (Fig. 5C, D) with zooids arranged in alternate rows often disrupted on particularly irregular substrata; interzooidal communications through 6-8 elliptical pore chamber windows (40-65  × 18-26  µm).</p><p>Autozooids usually hexagonal to rhomboidal but sometimes irregularly shaped, 307-587 (434  ± 73, N = 20)  × 284-439 (357  ± 59, N = 20  µm) (mean L/W = 1.21), boundaries marked by narrow grooves and raised rims of lateral walls (Figs 5F, 6B, G). Frontal shield slightly convex with polygonal and flat-topped pustules giving a tessellate appearance, and pierced by circular (diameter 6-12  µm), irregularly distributed pseudopores, usually numbering 10-30 but more numerous in some colonies; 2-4 marginal areolae, elliptical to fissure-like, barely visible or distinguishable from pseudopores (Figs 5F, 6B).</p><p>Orifice transversely D-shaped, 75-94 (81  ± 5, N = 20)  × 109-145 (122  ± 10, N = 20)  µm (mean OL/OW = 0.67; mean ZL/OL = 5.33), outlined by a thin, slightly raised rim; hinge-line straight, smooth, with a pair of small triangular, blunt condyles close to corners (Fig. 5F). Oral spines four, occasionally five or six (diameter of the bases 10-14  μm), evenly spaced, the proximal pair located at orifice mid-length; spines hidden in ovicellate autozooids (Fig. 6B, E).</p><p>Ascopore field a small and very narrow, transversely semi-elliptical area marked by a thin raised gymnocystal rim, 28-36  × 30-50  μm, located 25-50  μm below the orifice, at the same level as the frontal shield; opening transversely C-shaped, 20-30  × 6-10  μm, with a subcircular tongue projecting from distal edge, and relatively few, tiny, radial denticles.</p><p>Avicularium most often single (Figs 5E, F, 6B, D), occasionally paired (Fig. 5C) or absent (Figs 5C, E, 6C), relatively large, 75-120 (98  ± 13, N = 20)  × 55-91 (71  ± 11, N = 20)  μm (mean AvL/AvW = 1.39), located laterally, on either side, in the distal zooidal half, same level as or proximally to the ascopore (Figs 5B, F, 6B, E) but on irregularly shaped zooids occasionally placed in the proximal part; crossbar complete, thin; rostrum triangular, channelled and open-ended, directed laterally or distolaterally, often distally raised on a smooth, gymnocystal cystid (Fig. 5F). Mandible 160-180  μm long, setiform, with a hook at about one-third of its length that clamps it to the rostrum tip, crossing the whole zooid when open (Fig. 5A, B).</p><p>Ovicell subglobular and prominent, 185-241 (214  ± 25, N = 4)  × 290-314 (297  ± 11, N = 4)  μm (mean OvL/OvW = 0.72), produced by and continuous with frontal shield of distal zooid, obscuring distal part of the orifice; calcification fabric similar to frontal shield but with smaller and more prominent pustules; pseudopores small (diameter 5-10  μm), densely packed at the periphery, absent centrally (Fig. 6B, E).</p><p>Kenozooids smaller than or nearly as large as autozooids, lacking openings such as orifices and ascopores but sometimes equipped with avicularium (Fig. 6A, F).</p><p>Ancestrula not observed.</p><p>Etymology.</p><p>From  Ichnusa the Latinized form of the ancient Greek name for Sardinia.</p><p>Remarks.</p><p>Size and shape of autozooids vary remarkably within and between colonies, including dwarf-like autozooids, about half the size of the more regular ones, as well as extremely large and irregularly shaped autozooids, appearing as the result of the fusion of contiguous autozooids (Fig. 5C, E). In this latter case the avicularium can be placed much more proximally than in regular autozooids. Irregularly-shaped autozooids also occur in  M. browni (Harmelin et al. 2011: fig. 3b). These unusual autozooids and the kenozooids observed in this species seem to be particularly common in zones of contact between colonies or lobes of the same colony, and in damaged areas, also associated with evidences of reparation (Figs 5D, 6A, D), such as regeneration of broken autozooids, patches of calcification to close holes in the frontal shield, or orifices of presumably not functional autozooids (Fig. 6G). Intrazooidal budding, a feature that is common in bryozoans from submarine caves (e.g., Rosso et al. 2020a, 2020b), has been more commonly observed in avicularia (Fig. 6C, D) than autozooids (Fig. 6F, G). The occurrence of ovicells seems rare, observed only on the colony selected as the holotype.</p><p>The general appearance of this new species is very similar to  M. ciliata . However, the orifice in  M. ciliata, although of comparable size (0.06-0.08 mm long by 0.11-0.15 mm wide), is proportionately shorter, the hinge-line shows a series of median denticles and the two lateral condyles are more prominent and more laterally placed (Fig. 4E; see also  Kukliński and Taylor 2008: fig. 1G). The type and position of the oral spines are similar but the number of spines is 4-6 (more commonly four) in  M. ichnusae sp. nov. and 1-4 (and occasionally lacking in the zone of astogenetic repetition) in  M. ciliata ( Kukliński and Taylor 2008). In  M. ciliata the frontal avicularium is constantly single, only lacking in the first autozooid budded from the ancestrula, and no kenozooids were reported ( Kukliński and Taylor 2008). Furthermore, the ovicells in  M. ciliata have length comparable with those of  M. ichnusae sp. nov. but are much narrower.</p><p>Distribution and ecology.</p><p>Microporella ichnusae sp. nov. is presently known only from submarine caves in the Capo Caccia-Isola Piana MPA, in NW Sardinia. However, it is possible that some previous records of  M. ciliata, to date the only  Microporella species with a single avicularium considered as widespread in the Mediterranean, belong to this species.</p></div>	https://treatment.plazi.org/id/B37BD229D79B5D099676EE6DBCEB16ED	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
F3362B3489CD5BCD9F16D51A30679D19.text	F3362B3489CD5BCD9F16D51A30679D19.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella modesta Di Martino, Taylor & Gordon 2020	<div><p>Microporella modesta Di Martino, Taylor &amp; Gordon, 2020</p><p>Fig. 7</p><p>Microporella modesta Di Martino et al. 2020a: 23, fig. 11, table 8.</p><p>Microporella orientalis Harmer, 1957: Rosso 1996a: table 2.</p><p>Microporella ciliata (Pallas): Rosso 1989: tables 3, 4, 6; Di Geronimo et al. 1990: table 1; Di Geronimo et al. 1993b: table 3; Rosso 1996a: table 2; Rosso 1996b: table 1; Hayward and McKinney 2002: 83, fig. 37e-j.</p><p>Microporella cf. ciliata (Pallas): Chimenz Gusso et al. 2014: 189, fig. 101a-f.</p><p>Microporella gr. ciliata (Pallas): Rosso et al. 2019a: table 1.</p><p>Examined material.</p><p>Italy • 30 dead colony fragments, 8 of which bilaminar, 1 pseudovinculariform and the majority encrusting on  Cellaria internodes; Ionian Sea, E Sicily, Ciclopi Islands MPA; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.180834&amp;materialsCitation.latitude=37.567776" title="Search Plazi for locations around (long 15.180834/lat 37.567776)">Ciclopi</a> 2000 cruise; sample 2G, 8I, 9G, 12E, 12F, 12G; 37°34'4"N, 15°10'51"E; 63-95 m; Jul. 2000; DC, DE-DL, DL Biocoenoses; A. Rosso leg.; dredging; PMC Rosso-Collection I. H. B. 86a  .   Italy • 1 living colony, Ionian Sea, E Sicily, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.181389&amp;materialsCitation.latitude=37.638058" title="Search Plazi for locations around (long 15.181389/lat 37.638058)">Ciclopi Islands</a> MPA; sample SM1Z25; 37°38'17"N, 15°10'53"E; 25 m; Jun. 2015; R. Leonardi leg.; scuba diving; IA Biocoenosis; PMC Rosso-Collection I. H. B. 86a1  .   Italy • 2 living colonies fouling on a plastic bag; Ionian Sea, E Sicily, Gulf of Ognina, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.116389&amp;materialsCitation.latitude=37.531113" title="Search Plazi for locations around (long 15.116389/lat 37.531113)">North of Catania</a>; 37°31'52"N, 15°6'59"E; 4 m; 11 Feb. 2012; V. Grado leg.; scuba diving; PMC Rosso-Collection I. H. B. 86b  .   Italy • 15 living colonies on  Posidonia leaves; Ionian Sea, E Sicily, S of the Gulf of Catania, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.133056&amp;materialsCitation.latitude=37.308887" title="Search Plazi for locations around (long 15.133056/lat 37.308887)">Castelluccio</a>; 37°18'32"N, 15°7'59"E; beached; 6 Feb. 2019; A. Rosso leg.; hand-collected; PMC Rosso-Collection I. H. B. 86c  .   Italy • 3 living and 1 dead colony fragments; Ionian Sea, SE Sicily, Plemmirio MPA, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.309722&amp;materialsCitation.latitude=37.005" title="Search Plazi for locations around (long 15.309722/lat 37.005)">Granchi</a> submarine cave; sample GR1; 37°00'18"N, 15°18'35"E; 23 m; 14 Sep. 2009; V. Di Martino leg.; scuba diving; C and GSO Biocoenoses; PMC Rosso-Collection I. H. B. 86d  .   Italy • 16 living and 32 dead colony fragments, nearly all on  Cellaria internodes, Ionian Sea, SE Sicily, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.333333&amp;materialsCitation.latitude=36.963055" title="Search Plazi for locations around (long 15.333333/lat 36.963055)">Gulf of Noto</a>; 36°41'45"- 36°57'47"N, 15°8'35"- 15°20'00"E; PS/81 cruise; samples CR1, 2XB, 4C, 4X, 9B, 9C, 9D, 10C, 11E; 45 m (living), 44-120 m (dead); I. Di Geronimo leg.; dredging; and 25 living and 25 dead colony fragments, nearly all on  Cellaria internodes; Noto 1996 cruise; samples 3C, 5E, 7E, 10G, 10I, WP120; 20-82 m (living), 90-107 m (dead); 1996; E. Mollica leg.; dredging; C, DC, DE and DL Biocoenoses; PMC Rosso-Collection I. H. B. 86e  .   Italy • 2 living colonies, Ionian Sea, Gulf of Taranto, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=16.723333&amp;materialsCitation.latitude=39.881664" title="Search Plazi for locations around (long 16.723333/lat 39.881664)">Amendolara Bank</a>; samples 1D and 5D; 39°51'42"- 39°52'54"N, 16°42'00"- 16°43'24"E; 30-40 m; Jun. 1991; R. Sanfilippo leg.; dredging; DC Biocoenosis; PMC Rosso-Collection I. H. B. 86f.   Italy • 4 living and 3 dead colonies; Sicily Strait, Pelagie Islands MPA, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.559167&amp;materialsCitation.latitude=35.506943" title="Search Plazi for locations around (long 12.559167/lat 35.506943)">Lampedusa Island</a>; submarine caves: Taccio Vecchio I, 35°31'29"N, 12°35'58"E, 20 m; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.559167&amp;materialsCitation.latitude=35.506943" title="Search Plazi for locations around (long 12.559167/lat 35.506943)">Grotta della Madonna</a>, 35°30'2"N, 12°33'25"E, 15 m; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.559167&amp;materialsCitation.latitude=35.506943" title="Search Plazi for locations around (long 12.559167/lat 35.506943)">Grotta</a> dello <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.559167&amp;materialsCitation.latitude=35.506943" title="Search Plazi for locations around (long 12.559167/lat 35.506943)">Scoglio di Fora</a>, 35°30'25"N, 12°33'33"E, 10 m; Jun. 2009; V. Di Martino leg.; scuba diving; C and GSO Biocoenoses; PMC Rosso-Collection I. H. B. 86g  .   Italy • about 100 living colonies, mostly on  Posidonia leaves, soft algae, light calcified  Peissonnelia spp. and calcified thin-branched geniculate corallines; Sicily Strait, Egadi Islands, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.065556&amp;materialsCitation.latitude=37.949722" title="Search Plazi for locations around (long 12.065556/lat 37.949722)">Marettimo Island</a>; sample ECE5; 37°56'59"N, 12°3'56"E; 8 m; summer 2007; A. Sinagra leg.; IA and HP Biocoenoses; scuba diving; PMC Rosso-Collection I. H. B. 86h  .   Italy • 6 living and 2 dead colony fragments, 2 of which bilaminar; southern Tyrrhenian Sea, SW Ustica, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=13.132778&amp;materialsCitation.latitude=38.70528" title="Search Plazi for locations around (long 13.132778/lat 38.70528)">Apollo Bank</a>; 38°42'19"N, 13°7'58"E; 60 m; Jun. 1986, dredging and scuba diving;  Laminaria rodriguezii Bornet, 1888 seagrass and associated DC; PMC Rosso-Collection I. H. B. 86i  .   Italy • 7 living colonies;  Iberian-Provençal Basin, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=8.301667&amp;materialsCitation.latitude=41.116386" title="Search Plazi for locations around (long 8.301667/lat 41.116386)">Asinara</a> MPA; samples PSE and PSI1; 41°6'59"N, 8°18'6"E; 5-15 m; A. Sinagra leg.; scuba diving; IA Biocoenosis; PMC Rosso-Collection I. H. B. 86j  .   Italy • 1 dead colony, southern Adriatic Sea, off Apulia, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=17.153889&amp;materialsCitation.latitude=41.29139" title="Search Plazi for locations around (long 17.153889/lat 41.29139)">Bari</a> canyon; sample 1B1; 41°17'29"N, 17°9'14"E; 280 m; 29 May 2012; F. Mastrototaro leg.; dredging; PMC Rosso-Collection I. H. B. 86k  .</p><p>Remarks.</p><p>Microporella modesta has been recently established (Di Martino et al. 2020a) for some Mediterranean specimens collected off Algeria and growing as erect, narrow, bilaminar fronds. However, SEM images in Hayward and McKinney (2002) and Chimenz Gusso et al. (2014) reveal that a large part of the figured Mediterranean specimens seem to be conspecific with  M. modesta, although none of them has been described as erect bilaminar. This is also the case for most colonies and colony fragments in the collection of one us (AR), mostly previously assigned to  M. ciliata, which allowed us to assess the intraspecific variability of  M. modesta .</p><p>Strap-like branches including up to 11 or 12 longitudinal series of zooids occur only occasionally (Fig. 7A), while bilaminar arched fronds narrowing proximally are rare, and encrusting sheets are the most common. Branches are always broken off so that the way they form from the putative encrusting base remains unknown. Lateral edges often consist of extremely elongate autozooids covering the length of three regular autozooids, with the proximal two thirds about half the width of the distal part (Fig. 7A). Apparently cylindrical branches result from colonies encrusting thin, cylindrical substrata (Fig. 7B, E), either mineralised and persistent (mostly internodes of  Cellaria in deep-water samples, and geniculate coralline algae in shallow-water samples), or organic and ephemeral. In this latter case, the resulting pseudovinculariiform colonies are found in the sediment as hollow tubular fragments after substratum decay. A great number of colonies were observed encrusting soft algae, small  Peissonnelia spp., and leaves of  Posidonia oceanica (Linnaeus) Delile 1813, usually developing relatively small colonies, occasionally reaching 1-2 cm2.</p><p>In addition to colony morphology, variability includes also autozooidal characters. The orificial condyles were less prominent and more laterally placed in specimens from the Apollo Bank; the number of spines is usually five in encrusting colonies from the Ionian Sea (e.g., Amendolara and Ognina), but up to six or seven on some autozooids in colonies from the Sicily Strait (e.g., Madonna cave); spines also tend to be thicker, and the proximal pair more visible on ovicellate autozooids (e.g., in colonies from caves of the Ionian Sea and Sicily Strait) than in the holotype; a prominent central umbo can develop on the ovicell of some zooids (Fig. 7C, D). As in  Microporella ichnusae sp. nov., irregularly shaped elongated autozooids develop when lobes of a colony join, mostly in colonies on cylindrical substrata (Fig. 7B). Intrazooidal budding frequently occurs in avicularia, while repair of autozooids was rarely observed.</p><p>The ancestrula was observed for the first time only in two colonies (sample PSI1 and ECE5), seemingly because it is soon overgrown. It is tatiform, with 10-12 spines surrounding a very thin, raised rim without apparent cryptocyst. It is rebudded as a kenozooid with a row of at least eight pores in one case (Fig. 7F). A comparable structure was figured in  Kukliński and Taylor (2008) for  M. ciliata and can be also observed in  M. browni from the Maldive Islands (https://www.univie.ac.at/Palaeontologie/Sammlung/Bryozoa/Maldive_Islands/Cheilostomata/Microporellidae/Microporella/Microporella-browni.html). The ancestrula buds two distolateral autozooids with 5-7 oral spines.</p><p>Ovicells are very numerous in this species, occurring in the majority of autozooids in some colonies (Fig. 7A, C, E). Ovicell tubercles when developed, along with the mucro associated to the ascopore, and the raised rostrum of the avicularium give to the colony a characteristic knobby or spiky appearance.</p><p>The majority of specimens recorded from the Mediterranean previously assigned to  M. ciliata, as well as some isolated colony fragments attributed to  M. orientalis seem to belong to  M. modesta .</p><p>Distribution and ecology.</p><p>Microporella modesta was previously reported exclusively from off Algeria (Di Martino et al. 2020a), but the material studied here as well as specimens figured in recent literature (Hayward and McKinney 2002; Chimenz Gusso et al. 2014) widen its geographical distribution. The species appears to be widely distributed in the Mediterranean where it occurs in the  Iberian-Provençal basin, the Tyrrhenian, Ionian, and Adriatic seas as well as in the Sicily Strait. The species seems widely distributed in shallow shelf habitats with preference for the vegetate bottoms of the infralittoral zone and the Coralligenous Biocoenosis, with the possibility to extend into semi-dark caves. Findings from deeper (mid-shelf) particulate bottoms are largely represented by dead colonies/fragments possibly indicating a displacement.</p></div>	https://treatment.plazi.org/id/F3362B3489CD5BCD9F16D51A30679D19	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
519057F24BF554DE97FB33BC254677C7.text	519057F24BF554DE97FB33BC254677C7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella pachyspina Martino & Rosso 2021	<div><p>Microporella pachyspina sp. nov.</p><p>Fig. 8</p><p>Type material.</p><p>Holotype: Italy • 1 living colony consisting of about 50 zooids, several fertile; Sicily Strait, Egadi Islands, Marettimo Island; 37°56'59"N, 12°3'56"E; sample ECE5; 8 m; summer 2007; A. Sinagra leg.; IA and HP Biocoenoses; scuba diving; PMC. B31a.3.12.2020. Paratypes: Italy • ECE5, 2 living, fertile colonies, one including the ancestrula on a  Posidonia oceanica leaf; same details as the holotype; PMC. B31b. 3.12.2020.</p><p>Other material.</p><p>Italy • a few living colonies, Sicily Strait, Egadi Islands, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=12.084167&amp;materialsCitation.latitude=37.94528" title="Search Plazi for locations around (long 12.084167/lat 37.94528)">Marettimo Island</a>; 37°56'43"N, 12°5'3"E; sample EBE4; 19 m; summer 2007; A. Sinagra leg.; IA-HP Biocoenoses; scuba diving; PMC Rosso Collection I. H. B. 87a  .</p><p>Diagnosis.</p><p>Colony encrusting, multiserial. Autozooid frontal shield granular and centrally pseudoporous. Orifice transversely D-shaped; hinge-line smooth with rectangular condyles at corners; five (more commonly) to eight oral spines, the proximalmost pair placed slightly below the orifice hinge-line and very large in diameter. Ascopore field reniform to elliptical, developing a mucro proximally; ascopore opening transversely C-shaped, with tongue and radial spines. Avicularium single, located at half zooidal length, directed distolaterally; crossbar complete; rostrum triangular, channelled. Ovicell produced by distal autozooid, non-personate.</p><p>Description.</p><p>Colony encrusting, multiserial, unilaminar, forming subcircular patches less than 1 cm in diameter, consisting of several tens of zooids, typically on  Posidonia leaves; interzooidal communications through pore chamber windows along lateral walls (44-99  × 12-20  μm), two elliptical pairs placed proximolaterally and distolaterally, and a single distal one more rounded.</p><p>Autozooids hexagonal, 374-510 (442  ± 50, N = 24)  × 257-346 (290  ± 31, N = 24)  µm (mean L/W = 1.52), distinct with interzooidal boundaries marked by deep grooves between salient vertical walls (Fig. 8A), often exposing the smooth, lateral gymnocyst. Frontal shield nearly flat proximally, slightly convex disto-centrally, finely to coarsely granular and pseudoporous (Fig. 8C, D); granules 5-10  µm in diameter, irregularly spaced; 6-18 pseudopores, circular (7-25  μm in diameter), irregularly arranged, mostly centrally in the proximal half of the zooid; 3-6 marginal areolae, usually visible at zooidal corners, those placed proximally and laterally fissure-like (up to 90  μm long), the single or paired distal ones rounded (20  µm in diameter).</p><p>Orifice transversely D-shaped, 75-93 (84  ± 6, N = 15)  × 89-127  µm (108  ± 12, N = 15) (mean OL/OW = 0.78; mean ZL/OL = 5.17), outlined by a thin and smooth raised rim; hinge-line straight, smooth, with a pair of rectangular condyles at corners (Fig. 8B). Five (Fig. 8B) (occasionally 6-8: Fig. 8G) oral spines; the proximalmost pair robust, the base 36-51  µm in diameter, horn-shaped, terminally tapering and bending, placed slightly below the level of the orifice hinge-line, persisting in ovicellate autozooids (Fig. 8E); the three (occasionally 4-6) distal spines thinner (base diameter 13-32  μm).</p><p>Ascopore field a reniform to elliptical area of smooth gymnocystal calcification (39-78  × 45-102  μm), more extensive proximally, developing a pointed, upward directed mucro not concealing the ascopore opening, placed 30-60  μm below the orifice, slightly depressed relative to the adjacent frontal shield (Fig. 8D); opening transversely C-shaped, 32-64  × 7-18  μm, with subcircular tongue projecting from distal edge and radial, tiny denticles.</p><p>Avicularium single, often absent (e.g., 40% of zooids without avicularium in a colony of 42 zooids), moderately large, 76-115 (94  ± 10, N = 33)  × 48-78  μm (63  ± 9, N = 33) (mean AvL/AvW = 1.50), located laterally, on either side, at about half zooidal length; crossbar complete; rostrum short, rounded triangular, channelled, directed distolaterally, often raised distally on a smooth, gymnocystal cystid (Fig. 8C). Mandible 143-224  μm long, pointed, with a hook at about one-third of its length that clamps it to the rostrum tip, lying proximally to ascopore when open (Fig. 8G).</p><p>Ovicell non-personate, subglobular, prominent, 216-320 (251  ± 23, N = 20)  × 241-312 (288  ± 22, N = 20)  μm (mean OvL/OvW = 0.87), obscuring half to two-thirds of the zooidal orifice, formed by and continuous with frontal shield of distal zooid (Fig. 8E) (occasionally of two zooids), lateral gymnocystal margins raised, exceeding boundaries of the autozooid on which it lies; calcification fabric similar to frontal shield but with smaller and more widely-spaced granules, sometimes completely smooth centrally and with a rounded mucro (Fig. 8A, E); imperforate except for 12-18 large pseudopores aligned in a peripheral row, closely and evenly spaced, separated by radial ridges, rounded quadrangular, 17-42  μm in diameter, plus an additional, discontinuous inner row of 4-6 smaller, circular pseudopores (5-10  μm).</p><p>Ancestrula tatiform, oval (300  × 218  μm), gymnocyst moderately developed, more extensive proximally (Fig. 8F); opesia subcircular, surrounded by a well-developed, smooth cryptocyst, more extensive proximally, narrowing distally, outlined by a thin elevated rim indented by ten gymnocystal spines (six distal, two median, two proximal). Ancestrula budding two distolateral autozooids, followed by two lateral and two proximolateral ones.</p><p>Etymology.</p><p>From the Greek pachys, meaning thick, and the Latin spina meaning spine, referring to the robust proximalmost pair of oral spines.</p><p>Remarks.</p><p>The main diagnostic character of  Microporella pachyspina sp. nov. is the great size of the proximalmost pair of oral spines, as well as their position, halfway below the level of the orifice hinge-line. Among  Microporella species known worldwide,  M. alaskana Dick &amp; Ross, 1988 from the eastern Pacific,  M. echinata Androsova, 1958, and  M. trigonellata Suwa &amp; Mawatari, 1998, both from off Japan, share similar features. In  M. alaskana the proximalmost pair of spines are larger in diameter compared to the remaining spines but they are placed more distally compared to the new species, approximately at orifice mid-length (Dick and Ross 1988); in addition, this species has paired avicularia, the ascopore is placed very close to the orifice hinge-line, and there is a prominent umbo centrally on the frontal shield (Dick and Ross 1988).  Microporella echinata differs in having an evenly pseudoporous frontal shield, with pseudopores visibly larger, and tubercular (Mawatari et al. 1991).  Microporella trigonellata shows the same number, relative size, arrangement and position of spines but differs from the new species in having the avicularium placed distolaterally, directed distally, with a pointed, non-channelled rostrum; also, the ridges and grooves on the ovicells are distinctly defined and more marked, and the ancestrula has a narrower proximal gymnocyst (Suwa and Mawatari 1998).</p><p>The general appearance of those zooids lacking avicularia in  M. pachyspina sp. nov. reminds those of  Fenestrulina joannae (Calvet, 1902), which are also similar in having the proximalmost pair of spines long, robust and rounded, non-stellate pseudopores sparse on the frontal shield, centrally smooth ovicells, sometimes with peripheral radial ridges, developing a mucro (Chimenz Gusso et al. 2014: 165, fig. 82a-c). This latter species, originally described as  Microporella by Calvet (1902), was reassigned to  Fenestrulina by Gautier (1962: 171) apparently based on a suggestion made by Hastings without any supporting statement, instead highlighting the different type of pseudopores (non-stellate) compared with those of the type species of the genus  Fenestrulina malusii Audouin, 1826. Subsequent authors followed Gautier (1962).  Fenestrulina species have large, stellate pseudopores mostly occupying the area of the frontal shield between the ascopore and the orifice, a sector that is usually imperforate in  Microporella . Based on these observations,  Fenestrulina joannae seems to have more affinities with  Microporella and here we suggest its displacement.</p><p>Dry specimens on organic substrates (i.e.,  Posidonia leaves) appear with the zooids disconnected or almost disconnected, giving to the colony a slightly disjunct appearance because the zooids were less packed hence exposing a more extensive, smooth gymnocyst laterally (Fig. 8F). This loose packing is a common adaptation in species growing on flexible substrates to reduce the potential breakage of the zooidal skeletons.</p><p>Distribution and ecology.</p><p>Presently known only from shallow waters off Egadi Islands, at the western limit of the Sicily Strait in the Mediterranean Sea, associated with  Posidonia meadows and the Infralittoral  Algae Biocoenosis.</p></div>	https://treatment.plazi.org/id/519057F24BF554DE97FB33BC254677C7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
5360DFB11A10559198EB6F5D4542B501.text	5360DFB11A10559198EB6F5D4542B501.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella sp. A	<div><p>Microporella sp. A</p><p>Fig. 9</p><p>Examined material.</p><p>Italy • 1 dead colony fragment consisting of ca. 14 zooids (some incomplete), none fertile; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.268611&amp;materialsCitation.latitude=40.02639" title="Search Plazi for locations around (long 15.268611/lat 40.02639)">Tyrrhenian Sea</a>, Palinuro Cape, Scaletta submarine cave; sediment sample; 40°1'35"N, 15°16'7"E; 46 m; 14 Sep. 2009; R. Leonardi leg.; scuba diving; PMC Rosso Collection I. H. B. 88a  .</p><p>Description.</p><p>Colony encrusting, multiserial, unilaminar.</p><p>Autozooids irregularly polygonal, rounded, 435-676 (510  ± 80, N = 7)  × 255-427  µm (342  ± 68, N = 7) (mean L/W = 1.49), distinct, with interzooidal boundaries marked by a narrow, raised, gymnocystal rim (Fig. 9A). Frontal shield nearly flat to slightly convex, densely and coarsely granular and irregularly pseudoporous; granules 5-25  µm in diameter; 20-30 pseudopores, circular (5-12  μm in diameter), sparse in the proximal two-thirds of the zooid; 4-6 marginal areolae, usually visible at zooidal corners, circular to elliptical (10-40  µm long).</p><p>Orifice transversely D-shaped, 90-107 (94  ± 5, N = 10)  × 118-143 (132  ± 9, N = 10)  µm (mean OL/OW = 0.71; mean ZL/OL = 5.43); hinge-line straight, smooth to slightly crenulated; in each corner a short, blunt, triangular condyle directed distally (Fig. 9B). Oral spine bases four or five, 10-18  µm in diameter, evenly spaced, the proximalmost pair at about one-third of orifice length (Fig. 9B).</p><p>Ascopore field a narrow, elliptical area of smooth gymnocystal calcification (33-44  × 39-55  μm), placed 22-30  μm below the orifice, slightly depressed relative to the adjacent frontal shield; ascopore opening divided by thin radial septa, usually with a distinct tongue extending proximally from the distal edge (Fig. 9B).</p><p>Avicularium single, sometimes absent (two out of 14 zooids without avicularium in the fragment available), 93-123 (107  ± 12, N = 9)  × 70-87 (79  ± 6, N = 9)  μm (mean AvL/AvW = 1.36), located distolaterally, on either side; crossbar complete; rostrum short, triangular, not channelled, directed distolaterally, sometimes slightly raised distally (Fig. 9A, B). Mandible, ovicells and ancestrula not observed. Subsequent intramural budding observed in avicularia.</p><p>Remarks.</p><p>This species differs from its Mediterranean congeners in having a finely reticulate ascopore but it is left in open nomenclature owing to the availability of a single, infertile colony fragment. Similar ascopores can be found in  M. arctica Norman, 1903 from Norway,  M. ketchikanensis Dick, Grischenko &amp; Mawatari, 2005 from Alaska,  M. santabarbarensis Soule, Chaney &amp; Morris, 2004 from southern California, and  M. stellata (Verril, 1879) from Maine, USA.  Microporella arctica differs from  Microporella sp. A in having a finely granular frontal shield pierced by a greater number of marginal areolae that are always very distinct from pseudopores, in the lack of oral spines, and in having a smooth gymnocystal area laterally and proximally to the orifice that is continuous with the gymnocyst of the ascopore field ( Kukliński and Taylor 2008). The ascopores of both  M. ketchikanensis and  M. santabarbarensis have a similar, delicate cribrate aspect but lack the distal tongue extending from the distal edge (Dick et al. 2005; Soule et al. 2004).  Microporella stellata differs in having only two oral spines and a proximal orifice margin with broad, rectangular condyles (Winston et al. 2000).</p><p>Distribution and ecology.</p><p>Presently known only from the Palinuro Peninsula, along the Tyrrhenian coast of Campania (southern Italy). A dead colony was collected from the biogenic muddy sediment covering the floor of a completely dark sector of the Scaletta submarine cave, at 46 m depth where the colony presumably lived.</p></div>	https://treatment.plazi.org/id/5360DFB11A10559198EB6F5D4542B501	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
51F39AB304185A95A2A0AE1A1529BDFC.text	51F39AB304185A95A2A0AE1A1529BDFC.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Microporella verrucosa (Peach 1868)	<div><p>Microporella verrucosa (Peach, 1868)</p><p>Figs 10, 11</p><p>Eschara verrucosa Peach, 1868: 116.</p><p>Diporula verrucosa (Peach): Hincks, 1880: 220, pl. 31, figs 1, 2; Gautier, 1962: 176; Zabala, 1986: 501, fig. 174, pl. 15A, B; Hayward and Ryland, 1979: 226, fig. 97; Hayward and Ryland, 1999: 302, figs 138C, D, 139;  André et al. 2014: 225, 5 figs; Rosso et al. 2014: table 2, fig. 3A-C.</p><p>Microporella (Diporula) verrucosa (Peach): Neviani, 1896a: 105; 1896b: 24.</p><p>Examined material.</p><p>Italy • 2 colonies and 10 fragments (living), 17 colonies and 62 fragments (dead), some very large, some regenerated and twisted; Ionian Sea, SE Sicily, Ciclopi Islands MPA; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.333333&amp;materialsCitation.latitude=37.575275" title="Search Plazi for locations around (long 15.333333/lat 37.575275)">Ciclopi</a> 2000 cruise; samples 2G, 3H, 4E, 6H, 8F, 8H, 8I, 9G, 10G, 12E, 12F, 12G, 13H, 14G; 37°32'39"- 37°34'31"N, 15°8'58"- 15°11'1"E; 63-92.5 m; Jul. 2000; A. Rosso leg.; dredging; C, DC, DE, and DL Biocoenoses; PMC. Rosso Collection I.H. B-17a. Italy • 11 living and 33 dead colonies/large fragments, 1 dead colony including the base; off Acitrezza; sample AC/L, AC/1B; coordinates unknown; 50 and 110 m; 1980; I. Di Geronimo leg.; dredging; pre-Coralligenous and DL Biocoenoses; PMC. Rosso Collection I.H. B-17a1. Italy • 12 living and 315 dead colonies/fragments; Ionian Sea, Gulf of Noto; 36°41'45"- 36°57'47"N, 15°8'35"- 15°20'00"E; PS/81 cruise; samples 2C, 4X, 9D (living) and samples 2B, 2C, 2XA, 2XB, 4C, 4C1, 4X, 6D, 9C, 9D, 10C, 11E (dead); Jul. 1981; I. Di Geronimo leg.; dredging; DC and DL Biocoenoses; and 11 living colonies; Noto 1996 cruise; samples 8I, 10G, 10H; 77-82 m; 1996; E. Mollica leg.; dredging; DE and DL Biocoenoses; PMC. Rosso Collection I.H. B-17b  .   Italy • 18 dead colonies; Ionian Sea, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=15.240001&amp;materialsCitation.latitude=37.311665" title="Search Plazi for locations around (long 15.240001/lat 37.311665)">Gulf of Catania</a>; sample LCT69; 37°18'42"N, 15°14'24"E; 90 m; Jul. 1980; I. Di Geronimo leg.; dredging; DL Biocoenosis; PMC. Rosso Collection I.H. B-17c  .   Italy • 4 dead colonies; Ionian Sea, Gulf of Taranto, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=16.723333&amp;materialsCitation.latitude=39.881664" title="Search Plazi for locations around (long 16.723333/lat 39.881664)">Amendolara Bank</a>; samples 1D and 5D; 39°51'42"- 39°52'54"N, 16°42'00"- 16°43'24"E; 30-40 m; Jun. 1991; R. Sanfilippo leg.; dredging; DC Biocoenosis; PMC. Rosso Collection I.H. B- 17g  .   Italy • 77 dead colonies and fragments; southern Tyrrhenian Sea, SW Ustica, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=13.132778&amp;materialsCitation.latitude=38.70528" title="Search Plazi for locations around (long 13.132778/lat 38.70528)">Apollo Bank</a>; 38°42'19"N, 13°7'58"E; 60 m; Jun. 1986, dredging;  Laminaria rodriguezii Bornet, 1888 seagrass and associated DC Biocoenosis; PMC. Rosso Collection I.H. B-17d  .   Italy • 2 living colonies;  Messina Strait; coordinates unknown; 65 m; 1990; S. Giacobbe leg.; dredging; no Biocoenosis information; PMC. Rosso Collection I.H. B- 17g  .   France • 50 dead colonies;  Iberian-Provençal Basin ,   Corsica, off  Calvì; sample CL74; 42°47'31"N, 9°8'10"E; 150- 110 m; G. Fredj leg.; dredging; DL Biocoenosis; PMC. Rosso Collection F.H. B-17e  .   Greece • 4 dead colonies, Aegean Sea, Lesvos Island, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=26.541111&amp;materialsCitation.latitude=38.96889" title="Search Plazi for locations around (long 26.541111/lat 38.96889)">Agios Vasilios cave</a>; samples AV1 and AV2; 38°58'8"N, 26°32'28"E; 30 m; V. Gerovasileiou leg.; scuba diving; GSO and GO Biocoenoses; PMC. Rosso Collection GR.H. B- 17f.</p><p>Description.</p><p>Colony erect, rigid, branched, with a limited number of relatively spaced-out bifurcations, a few cm long, raising from an encrusting basal portion (Fig. 10A), extending up to 3 mm around the main stem.</p><p>Branches cylindrical, often flattened at bifurcations (Fig. 10C, E), consisting of 9-16 longitudinal rows of zooids, alternating very regularly to simulate an helicoidal pattern; branch diameter 10-15 mm (exceptionally up to 20 mm), becoming thicker and stouter in older portions of the colony, near the encrusting base, owing to secondary calcification.</p><p>Encrusting base unilaminar, multiserial (Fig. 10A), formed by autozooids similar to those of the erect branches (Fig. 10B) but with a greater number of oral spines (5-7, commonly six) and, subordinately, autozooids with occluded orifices (not functional) and/or kenozooids, often bearing an adventitious avicularium as those associated with autozooids. Interzooidal communications via basal pore-chambers in the encrusting portion (see Rosso et al. 2014: fig. 3A) and via multiporous septula in the erect branches (Fig. 10C).</p><p>Autozooids rounded hexagonal to lozenge-shaped, 477-779 (661  ± 93, N = 18)  × 389-615 (493  ± 68, N = 18)  μm (mean L/W = 1.34), distinct, interzooidal boundaries marked by narrow, shallow, locally undulate grooves (Fig. 11A, B, D). Frontal shield nearly flat, finely granular, and pseudoporous; about 10 marginal areolae distinguishable from frontal pseudopores only in early ontogeny because larger, subcircular to elongate elliptical, 25-65  μm long; 19-26 subcircular pseudopores, 20-30  μm in diameter, placed centrally on the frontal (Fig. 11A, B, D). Transverse section of the branch showing thick frontal and vertical walls, converging towards the centre of the branch, forming wedge-like polypide cavities (Fig. 10E, F).</p><p>Primary orifice approximately semi-circular to horseshoe-shaped, 130-151 (143  ± 6, N = 10)  × 145-177 (161  ± 10, N = 10)  μm (mean OL/OW = 0.89; mean ZL/OL = 4.63), outlined by a thin and smooth raised rim (Fig. 11C); hinge-line smooth, straight to slightly concave with two short, blunt lateral condyles and a smooth, proximal shelf sloping outwards; distal margin of the orifice corrugated because of a deeply placed, drawstring-like, arched rim seemingly functioning as support for the closed operculum. Oral spines four, occasionally five, thin (base diameter 15-20  μm), relatively short (60-90  µm), placed distally, often detached (Fig. 11A, B, D).</p><p>Ascopore field a narrow, reniform to U-shaped rim of smooth gymnocystal calcification, 50-60  × 57-80  µm, placed 65-80  μm below the orifice, same level as the orifice and the adjacent frontal shield; ascopore opening transversely C-shaped, 40-63  × 5-12  μm, with a massive, upside-down mushroom-shaped tongue projecting from distal edge with radial spines (Fig. 11A, B).</p><p>A single, constant, large avicularium, 121-156 (142  ± 9, N = 20)  × 119-139 (130  ± 7, N = 20)  μm (mean AvL/AvW = 1.09), located laterally, on either side, at about half zooidal length (Figs 10B, C, 11A, B, D, F); crossbar complete; rostrum short, rounded triangular, channelled, directed laterally or less often distolaterally and slightly upward. Mandible 142-273  μm long, with a pointed, hooked tip, toothed at the level of the rostrum tip, lining proximally to the ascopore when open (Fig. 11F).</p><p>Ovicell non-personate, subglobular, prominent, large, 250-327 (286  ± 36, N = 4)  × 384-430 (402  ± 20, N = 4)  μm (mean OvL/OvW = 0.71), formed by the distal autozooid, obscuring half of the zooidal orifice; calcification fabric similar to frontal shield but with larger and more prominent tubercles, and smaller (15-20  μm in diameter), more closely spaced pseudopores, seemingly radially aligned with rows separated by raised ridges; a discontinuous, peripheral row of larger pseudopores sometimes present (Figs 10C, 11B, E).</p><p>Ancestrula tatiform (Fig. 10A, B), oval (220  × 150  μm), gymnocyst concealed, cryptocyst smooth, narrowing distally; opesia oval (160  × 110  μm); only four, distal spines visible on the single ancestrula observed. Ancestrula budding two distolateral autozooids, and subsequently surrounded by two lateral and one proximal autozooids.</p><p>Older colony parts thickly calcified owing to secondary calcification progressively obliterating zooidal openings including orifices, ascopores and avicularia (Fig. 10D), making difficult the distinction between old autozooids and genuine kenozooids that probably also develop.</p><p>Remarks.</p><p>First assigned to  Eschara (Peach 1868),  Eschara verrucosa served as the type species of the genus  Diporula Hincks, 1879 in which it has been included since then with the exception of Neviani (1896a, b). Characters used to distinguish  Diporula from  Microporella included the "dendroid zoarium with cylindrical branches" and the morphology of the orifice described as "expanded above, contracted below, and slightly constricted by lateral projections (horseshoe-shaped)" (Hincks 1880: 220; and similar description in Gautier 1962: 176). However, both characters seem feeble to justify the distinction between the two genera. At least nine species of  Microporella possess erect colony-growth, starting with a more or less developed encrusting portion as does  Diporula . Also the shape of the orifice in  Microporella species is highly variable (Di Martino et al. 2020a), with several examples of species having orifices with the proximal margins narrower than the orifice maximum width [e.g.,  Microporella curta Almeida, Souza, Mengola &amp; Vieira, 2017 from Brazil,  Microporella franklini (Soule, Chaney &amp; Morris, 2003) from California, the Mediterranean  Microporella genisii (Audouin &amp; Savigny, 1826),  Microporella hastingsae Harmelin, Ostrovsky,  Cáceres-Chamizo &amp; Sanner, 2011 from the Red Sea, and the Arctic  Microporella klugei Kukliński &amp; Taylor, 2008].</p><p>Further differences between  Microporella and  Diporula were highlighted by Hayward and Ryland (1999: 292, 312), including interzooidal communications via basal pore-chambers in the former genus and multiporous septula in the latter, and the presence of pseudopores in the ovicells of  Diporula . However, multiporous septula were observed, for example, in  Microporella ordo (see Di Martino et al. 2020a: fig. 7D), and basal pore-chambers were observed in the encrusting portions of  M. verrucosa, while pseudopores occur in the ooecium of many  Microporella species including the type  M. ciliata (see  Kukliński and Taylor 2008: fig. 1c). A further presumed difference relates to the ooecium porosity, with  Diporula reported as having a fully perforated endooecium and  Microporella species usually described as having only pits in the endooecium (Harmelin et al. 2011: 2; Ostrovsky 2013: figs 2.43B-D, 2.44A). However, pores clearly perforate the endooecium also in  Microporella as seen in broken ooecia of  M. ichnusae sp. nov. (Fig. 6B)</p><p>Based on these observations, here we propose  Diporula as junior synonym of  Microporella and resurrect the combination  Microporella verrucosa first proposed by Neviani (1896a, b). Specimens of a second species of  Diporula,  D. coronula Ortmann, 1890 need re-examination. Based on the original description and illustration (Ortmann 1890: 39, pl. 3, fig. 7), this species has a lepralioid orifice with condyles at about one-third of the orifice length, a single avicularium with spathulate mandible, and up to two frontal foramina, characters reminiscent of other cheilostome genera such as, for example,  Poricella Canu, 1904.</p><p>Specimens originally described as  Eschara lunaris Waters, 1878, from Pleistocene sediment of eastern Sicily and synonymised with  M. verrucosa by Hincks (1880) need to be re-examined as well to confirm their conspecificity, but this is out of the scope of the present paper.</p><p>The rugose appearance observed by Peach (1868) and Hincks (1880), which inspired the species name, was not observed in our material, although secondary calcification is always very common in older parts of the colony. Intramural budding is rare and restricted to avicularia, while branch regeneration is common, apparently following breakage as indicated by broken autozooids with sharp edges. We also observed zooids with reverse polarity, sometimes budded from old stems with autozooids obliterated by secondary calcification. However, in these instances few whorls of autozooids usually develop from the regeneration surface, with only few tips appearing actively growing. Colony fragments longer than 2 cm can appear twisted, a morphology observed in some cyclostomes (Harmelin 1976) and other erect cheilostomes from the Gulf of Noto and the Ciclopi MPA area (Rosso 1989). This twisted branch morphology and the ability to regenerate after breakage might represent the adaptation of this species to colonize soft sediment bottoms. Basal, encrusting colony portions are relatively common in our samples and show that the ancestrulae settled on clasts ranging from a few mm to 1-2 cm in size. The ability of this species to encrust small particles, in addition to large substrates in rocky habitats, was suggested by Gautier (1962) after finding only colony fragments in dredges from sandy-muddy bottoms.</p><p>The diagnostic characters of this species seem constant in the Mediterranean specimens, except for the size of the ascopore related to the development of the distal tongue sometimes leaving only a fissure-like opening. Paired avicularia were observed only in one autozooid (Fig. 11E). Higher variability is observed when comparing the Mediterranean specimens with those from the Atlantic (e.g., Hayward and Ryland 1999: 302, figs 138C, D, 139A, B; unpublished SEM images provided by P.D. Taylor from Mauritania and Madeira) related to the ascopore shape, the size of the spines, and the distribution and size of pseudopores on the frontal shield, suggesting the existence of a species complex.</p><p>Distribution and ecology.</p><p>Microporella verrucosa is a warm-temperate species with Atlanto-Mediterranean distribution. In the Atlantic, it has been reported from West Africa to the southwest of the British Isles (Hayward and Ryland 1999); in the Mediterranean, it occurs preferentially in mid- and outer-shelf habitats below 50-60 m depth, with an optimum at 70-120 m (Gautier 1962; Zabala 1986; Rosso 1989, 1996a; Rosso and Di Martino 2016), but it was also observed at shallower depths (20 m) in a shadowed open cave in Catalonia ( André et al. 2014). It is associated with shadowed rocky habitats, including the Coralligenous and Semi-Dark and Dark Cave Biocoenoses, and detritic habitats, such as the Coastal Detritic and the Offshore Detritic Biocoenoses (Table 1; Gautier 1962; Harmelin 1969, 1976; Zabala 1986; Rosso 1989, 1996a, 1996b; Di Geronimo et al. 1990; Madurell et al. 2013; Rosso et al. 2014, 2019b; Gerovasileiou and Rosso 2016). However, it is never very common or dominant at sample or habitat scale, occurring only with a few colonies per sample and/or in one out of four or five sampling stations (Table 1; see also Harmelin 1976: tables 1, 3).</p></div>	https://treatment.plazi.org/id/51F39AB304185A95A2A0AE1A1529BDFC	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Martino, Emanuela Di;Rosso, Antonietta	Martino, Emanuela Di, Rosso, Antonietta (2021): Seek and ye shall find: new species and new records of Microporella (Bryozoa, Cheilostomatida) in the Mediterranean. ZooKeys 1053: 1-42, DOI: http://dx.doi.org/10.3897/zookeys.1053.65324, URL: http://dx.doi.org/10.3897/zookeys.1053.65324
