identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
155F95C10BDA5C7D9858EED28EAF6E10.text	155F95C10BDA5C7D9858EED28EAF6E10.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ferriantenna Cumming & Tirant 2021	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Ferriantenna gen. nov.</p>
            <p>Type species.</p>
            <p> Ferriantenna excalibur gen. et sp. nov., herein designated </p>
            <p>Taxonomic remarks.</p>
            <p> The taxonomic placement of this genus is rather uncertain, largely owing to the lack of adult specimens to allow review of genitalia, wing venation, and presence or lack of ocelli. Morphologically this genus appears to be closely related to  Magnusantenna Du &amp; Chen, 2021 based upon the elaborate antennae, square head shape, and long abdomen with parallel margins. Based upon this assumed close relationship we tentatively place this new genus and species within the  Coreinae alongside  Magnusantenna but would not be surprised if a taxonomic adjustment is necessary once adult specimens are hopefully one day recovered. Additional higher taxonomic possibilities, which can be ruled out, are  Yuripopovinidae due to the lack of a distinct collar in our new taxon (Azar et al. 2011). Further,  Yuripopovinidae typically have cylindrical antennomeres in cross section (although the recently described  Reticulatitergum hui Du et al. 2019 does have a terminal antennomere which is flattened and rather similar in shape to our  Ferriantenna gen. nov. (Fig. 2A; Du et al. 2019 )). An additional clade which can have similar general habitus morphology are the  Alydidae (particularly the  Micrelytrinae which can have thin parallel-sided bodies and long legs very similar to  Magnusantenna wuae ; Fig. 2C). The  Alydidae can be differentiated from  Coreidae by the length of the bucculae, with the bucculae shorter, not extending posteriorly beyond the base of the antennae in  Alydidae but longer in  Coreidae , extending posteriorly beyond the base of the antennae (Swanson 2011). Within  Magnusantenna wuae Du et al. (2021) clearly state that the bucculae are long extending posteriorly beyond the base of the antennae and therefore due to this feature would fit within  Coreidae . Unfortunately, the amber piece that our  Ferriantenna gen. nov. is within is too thick to clearly see the ventral surface of the head, but it does appear that the bucculae are longer than the base of the antennae and therefore more likely a  Coreidae than an  Alydidae . </p>
            <p> The general morphological features of this genus fit well within  Coreinae , namely the expanded antennal segments, the length ratios of the various antennomeres (the second and third segments of similar lengths), the smooth pronotum, and the straight femora and tibiae (Schuh and Slater 1995). At present there are three other subfamilies recognized within the coreids:  Hydarinae ,  Meropachyinae , and  Pseudophloeinae (CoreoideaSF Team 2021). The following features characterize each of the other subfamilies and help to add credibility to this genus being placed within  Coreinae .  Hydarinae have the third antennomere more than twice as long as the second (in  Magnusantenna and  Ferriantenna gen. nov. these segments are similar in length (Packauskas 1994 )). The subfamily  Pseudophloeinae is difficult to morphologically distinguish from other coreids as different authors consider different features significant for differentiation (e.g., Packauskas 1994; Moulet 1995; Schuh and Slater 1995; Hamouly et al. 2010; Schuh and Weirauch 2020). Due to the multiple morphological features which liken our genus to  Coreinae we are fairly confident that these fossils do not fall within  Pseudophloeinae .  Meropachyinae are a small subfamily restricted to the western hemisphere and have a distal spine on the apex of the metatibiae and the metafemora are prominently thickened, notably broader than the pro- and mesofemora (Packauskas 1994; Brailovsky and Barrera 2009).  Coreinae has repeatedly been recovered as paraphyletic with regards to  Meropachyinae and based upon the typical  Meropachyinae leg morphology we expect these fossil coreids do not fall within this clade but likely somewhere else within the  Coreinae (Forthman et al. 2019, 2020; Kieran et al. 2019). Review of spermatheca within  Coreidae by Pluot-Sigwalt and Moulet (2020) found that  Hydarinae and  Pseudophloeinae are morphologically unique but that  Coreinae and  Meropachyinae were similar, adding credibility to phylogenetic results which  don’t recover  Coreinae and  Meropachyinae as unique (Kieran et al. 2019; Forthman et al. 2019, 2020). </p>
            <p> Within the  Coreinae there are several tribes which have an antennomere that is enlarged (e.g.,  Nematopini or  Chariesterini with only the singular third antennomere flattened; Fig. 1D; CoreoideaSF Team 2021). This similarity alone does not warrant a tribal placement and the authors hope that eventually fossils of adult specimens are recovered to help determine a more accurate taxonomic placement as no extant tribe fits morphologically well. </p>
            <p>Diagnosis.</p>
            <p>Antennae four segmented, long, but not longer than the body (head, thorax, and abdomen). First antennal segment short and robust (slightly longer than wide or about equal in length and width; always shorter than head length); second and third segments ornamented and quite variable in form interspecifically (can be marked throughout with granulation, setation, or prominent tubercles with margins straight or with spination), each at least three times longer than wide, with the third segment slightly wider and longer than the second segment; and the fourth segment is only slightly longer than head length, flat, and paddle-like, lacking intricate features/expansions as present on the second and third segments. Head approximately as long as wide, compound eyes spherical and variable in their size (can be large, occupying most of the lateral margins, or narrower, restricted to the center third and strongly protruding), located on the center of each side of the head. Pronotum with a margin that expands to the posterior third then contracts slightly. Mesonotum gently expands to the midline and then gently contracts to the posterior. Metanotum with margins that can be parallel or slightly rounded. Abdomen slender, notably longer than wide, with parallel margins. Legs stout, not particularly long. Femora approximately two times as wide as the tibiae, but of similar lengths. Tarsi with two segments, bearing two claws.</p>
            <p>Differentiation.</p>
            <p> Several features differentiate the new genus from the assumed closely related genus  Magnusantenna Du &amp; Chen, 2021. First, the length ratios of the exaggerated antennal segments differ as  Magnusantenna has the fourth segment approximately as long as, but notably broader than the third segment, versus  Ferriantenna gen. nov. which has the fourth segment notably shorter than the third segment, appearing paddle-like. Additionally, the thickness and lengths of the legs differentiate these two genera as  Magnusantenna has long thin legs (such as the hind legs which exceed the apex of the abdomen), versus  Ferriantenna gen. nov. which has femora which are notably thicker than the tibiae, and specifically for the hind leg it appears that when fully outstretched they fall short or at most reaching the apex of the abdomen but do not exceed it. The thorax and abdomen of  Ferriantenna gen. nov. are also notably broader than the head width versus  Magnusantenna which has a very slender and long abdomen, thinner than the width of the quadrate head. Finally, the pro- and mesonotum differ slightly between these two genera as  Magnusantenna has a pronotum which expands steadily from the anterior to the posterior and the mesonotum is parallel sided, versus  Ferriantenna gen. nov. which has the pronotum expanding for the anterior two thirds then slightly contracting, and the mesonotum appears to expand to approximately the middle and then contract to the posterior. </p>
            <p>Discussion.</p>
            <p> Typically,  Heteroptera have five instars, as in hemimetabolous insects which they resemble the adults in most morphological features. Our examined specimen which is the type species for this new genus appears to be a fourth instar nymph like was described within Du et al. (2021) based on the following characters they reference from Schuh and Slater (1995): posterior margins of the hind buds not reaching the anterior margin of the first abdominal tergite; ocelli absent; and tarsi two-segmented. As was noted within Du et al. (2021) amber typically does not preserve large inclusions well which is likely why all of these species are being observed as nymphs. </p>
            <p> In addition to our herein described species, we have also seen images shared online of an additional species within  Ferriantenna gen. nov. distinctly different from our  Ferriantenna excalibur gen. et sp. nov. This second, undescribed  Ferriantenna species has similar characteristics of the thorax, abdomen, and legs, and the fourth antennomere which is notably smaller and paddle-like (Fig. 2B). This undescribed species however differs in that it has the second and third antennal segments heavily armored with prominent tubercles and granulation, making the antennae appear like a medieval two-handed iron spiked mace (Boeheim 1890) instead of blade-like as is seem in  Ferriantenna excalibur gen. et sp. nov. This second species, known only from photos shared online of a singular specimen, was being publicly offered for sale on eBay has since been sold. Unfortunately, the specimen could not be traced/examined and therefore we are unaware whether this specimen will end up in a museum collection for research or with a private collector. </p>
            <p> The difference in leg lengths between  Magnusantenna and  Ferriantenna gen. nov. is likely due to the size of the antennae in relation to the body, as the  Ferriantenna gen. nov. are notably less expanded and therefore require less leverage to maintain a stable footing, versus  Magnusantenna which needed the longer legs to create a larger footprint to balance the massive antennae. </p>
            <p>Etymology.</p>
            <p>The generic name is derived from Latin prefix ferri (meaning weapon) and Latin antenna (meaning yardarm of a ship/sail yard which was the origin of the "feeler or horn" of an insect; https://www.etymonline.com/search?q=antenna). This genus epithet is referring to the weapon-like appearance of the antennae of these insects (Fig. 2A, B). Gender is neuter.</p>
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	https://treatment.plazi.org/id/155F95C10BDA5C7D9858EED28EAF6E10	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	Cumming, Royce T.;Tirant, Ste ́ phane Le	Cumming, Royce T., Tirant, Ste ́ phane Le (2021): Drawing the Excalibur bug from the stone: adding credibility to the double-edged sword hypothesis of coreid evolution (Hemiptera, Coreidae). ZooKeys 1043: 117-131, DOI: http://dx.doi.org/10.3897/zookeys.1043.67730, URL: http://dx.doi.org/10.3897/zookeys.1043.67730
A3294CD0433750469CC6345C9A4BE180.text	A3294CD0433750469CC6345C9A4BE180.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ferriantenna excalibur gen. et 2021	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Ferriantenna excalibur gen. et sp. nov. Figures 2A, 3, 4 </p>
            <p>Material examined.</p>
            <p>Holotype: Amber specimen #BHM10200800678. Flat and round rectangular piece of amber, approximately 1.0 cm by 1.1 cm with high clarity and small debris throughout that does not black visibility of the specimen (Fig. 3C). Specimen partially complete yet well-preserved, likely fourth instar. Missing the terminal two or three segments of the abdomen. Deposited in the Montreal Insectarium (IMQC). Unknown sex.</p>
            <p>Type locality and horizon.</p>
            <p> Kachin State, Myanmar; Upper Cretaceous ~98.79  ± 0.62 million years old (Shi et al. 2012). At present we are only aware of this genus and species being found in northern Myanmar from this stratum. </p>
            <p>Differentiation.</p>
            <p> At present this is the only formally described species within this new genus. Refer to the differentiation within the above genus section for discussion on the closely related  Magnusantenna wuae . We are aware of a second, undescribed  Ferriantenna gen. nov. species (Fig. 2B) which differs by having the second and third antennomeres which are heavily armored with tubercles, not flattened with each segment narrow at the base and widening gradually to the sharply pointed anterior like is seen in  Ferriantenna excalibur gen. et sp. nov. (Fig. 2A). The elaborate antennae differentiate these extinct species from all known extant coreids which at most have a single slightly expanded antennal segment. </p>
            <p>Description.</p>
            <p>Mostly complete nymph which appears to be fourth instar. Sex unknown due to the instar stage and missing terminalia of the abdomen. Specimen complete except for the terminal two or three abdominal segments (Fig. 3A). Overall length (including antennae) 6.87 mm (measured to the end of the abdomen which is missing the terminal segments, so the actual length of the insect is slightly longer).</p>
            <p>Head. Antennal socket protruding from the front of the head (Fig. 4B), approximately 0.11 long by 0.20 mm wide, about as wide as the first antennomere. Head subquadrate, 0.50 mm long by 0.46 mm wide (without including compound eyes), including compound eyes head is 0.76 mm wide. Vertex relatively smooth, no notable textures or structures (Fig. 4B). Clypeus protruding slightly, labrum stout, not prominent. Labium tetramerous, fully extended reaches beyond the apex of the second antennomere, labiomeres one, two, and three similar in length, four approximately half as long as any of the others (Fig. 4A). Apex of the fourth labiomere sharply tapering to a fine point (Fig. 4A). Lengths: first labiomere 0.41 mm, second labiomere 0.51 mm, third labiomere 0.39 mm, fourth labiomere 0.26 mm. Compound eyes prominently protruding but not overly large, located in the center and taking up approximately one third of the lateral head margins (Fig. 4B).</p>
            <p>Antennae. Antennae tetramerous (Fig. 3B), length 3.22 mm, approximately equal in length to the damaged holotype body length (if the abdomen were complete the antennae would be slightly shorter in length than the body). First antennomere tubular, with sparse and short setae, 0.28 mm long and 0.14 mm wide. Antennomeres two through four appear to be laterally flattened due to the way the antennae are held in the amber. Second antennomere approximately right triangular in shape, with the anterior wide and the posterior narrow and the triangular expansion raised dorsally. Margins finely granular, with the dorsal margin marked with few fine setae, the ventral margin is marked with slightly longer and more prominent setae. Antennomere surfaces are relatively smooth, with minimal setae and only prominent granulation along the margins. Second antennomere length 1.08 mm and maximum width (on the anterior end) 0.39 mm. Third antennomere similar in shape and texture to the second antennomere but slightly wider throughout the length and on the anterior than the second antennomere; approximately right triangular in shape, with the anterior wide and the posterior narrow with the triangular expansion raised dorsally. Margins finely granular, with the dorsal margin with only fine setae, the ventral margin with slightly longer and more prominent setae. Antennomere surfaces relatively smooth, with minimal setae and fine granulation along the margins. Third antennomere 1.15 mm long and maximum width (on the anterior end) 0.52 mm. Fourth antennomere paddle-shaped and notably smaller than the previous two, with a narrow base expanding into a rounded segment; 0.71 mm long and 0.40 mm at the widest point (in the center). Fourth antennomere surfaces are more setose than the previous two antennomeres, marked throughout by moderate fine granulation. Margins with smaller and finer granulation and setae than on the previous two antennomeres.</p>
            <p>Thorax. Pronotum approximately an isosceles trapezium, anterior three fifths gradually expanding to the widest point, then the posterior two fifths converge slightly to the posterior (Fig. 4B). Dorsal surface of pronotum smooth, lacking prominent features. Overall pronotum length 0.73 mm, minimum width (on the anterior) 0.48 mm, width of the posterior 0.66 mm, maximum width on the posterior two fifths 0.72 mm. Mesonotum broader than long, with lateral margins expanding slightly on the anterior half and then contract slightly to the posterior (Fig. 4B). Overall mesonotum length 0.55 mm and greatest width 0.67 mm. Metanotum with anterior and posterior margins the same width, 0.60 mm, overall metanotum length 0.55 mm and maximum width (in the center) 0.65 mm.</p>
            <p>Legs. All legs of a similar morphology, only slight differences in length differentiate them (Fig. 4D). All femora of a uniform width, and all tibiae of a uniform width. Femora tubular, with a surface texture that is mostly smooth, but with a slight granular texture in places but not throughout. At the femora and tibiae joint the femora have a single spine-like projection on each side projecting outward and slightly towards the tibiae (Fig. 4D). Tibiae are half as wide as the femoral widths. Tibiae on the proximal end start out smooth but gradually become heavily setose along the ventral and lateral surfaces. At the apex of the tibiae the setae are rather prominent, and the setae continue on under the tarsomeres, albeit slightly more sparse, not as dense as the apex of the tibiae (Fig. 4C). Tarsi with two tarsomeres, apex with two distinct claws, each with a prominent pulvillus (Fig. 4C). Leg segment lengths: profemora 0.66 mm, mesofemora 0.60 mm, metafemora 0.77 mm, protibiae 0.62 mm, mesotibae 0.58 mm, metatibiae 0.94 mm.</p>
            <p>Abdomen. Abdomen notably damaged in the holotype. Disconnected from the body following the second segment, the remainder is mostly crushed, and the terminal two or three segments are missing (Fig. 3A). Greatest width approximately 0.55 mm. Abdomen without notable structures, margins parallel sided with rather smooth transitions from one segment to the next.</p>
            <p>Etymology.</p>
            <p> Noun in apposition, given for Excalibur, the mythical "sword in the stone" which was first described in the epic poem Merlin (about the mythical advisor to King Arthur), written by the French poet Robert de Boron sometime between 1195-1210 (Reeve and Wright 2007) which was a reworking of Geoffrey of  Monmouth’s "Historia Regum Britanniae", completed c. 1138 (Wright 1985). Within this poem is the first mention of Excalibur being the sword in the stone, which could only be removed by the true king of England. We felt that this specific epithet was fitting as this group of insects with exaggerated antennae were first described as a possible "double edged sword in evolution" as these elaborate antennae went extinct (Du et al. 2021). We felt this witty description, coupled with the insect being trapped in stone (amber) was fitting for such a long lost, and therefore mythical species. </p>
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	https://treatment.plazi.org/id/A3294CD0433750469CC6345C9A4BE180	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	Cumming, Royce T.;Tirant, Ste ́ phane Le	Cumming, Royce T., Tirant, Ste ́ phane Le (2021): Drawing the Excalibur bug from the stone: adding credibility to the double-edged sword hypothesis of coreid evolution (Hemiptera, Coreidae). ZooKeys 1043: 117-131, DOI: http://dx.doi.org/10.3897/zookeys.1043.67730, URL: http://dx.doi.org/10.3897/zookeys.1043.67730
