Palicoidea, Bouvier, 1898
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https://doi.org/10.11646/zootaxa.3665.1.1 |
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lsid:zoobank.org:pub:8358B363-BEE3-416D-96CA-8614E38B61D5 |
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https://treatment.plazi.org/id/03BB9C75-FF68-FF16-FF78-FE47FEBCFE0C |
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Felipe (2021-08-25 03:06:50, last updated by Plazi 2023-11-04 18:44:43) |
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Palicoidea |
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Superfamily Palicoidea View in CoL (families Palicidae and Crossotonotidae )
Although the penis seems to emerge as a long, soft papilla from the thoracic sternum, the male gonopore is coxal, specifically coxo-sternal, as shown by our dissections ( Fig. 44B View FIGURE 44 ). In Palicidae the P5 is conspicuously reduced (short and slender), dorsal, distinctly mobile, with the coxa immediately above an “episternal process” ( Castro 2000: 445, figs. 1, 16a, 17a, 18a, 20a, 22a, 23a, 24a) and reentrant, that is, not aligned with the preceding coxae, inward placed, located at mid-course in relation to near the central axis of the body, thus close to one another ( Fig. 32A View FIGURE 32 ). The P5 coxa, smaller than the P2–P4 coxae, is, however, elongated; its distal margin bears a deep, wide notch to accommodate the much narrower articles of the P5 ( Fig. 32A, B View FIGURE 32 ; Castro 2000: figs. 18a, 20a, 24a, 60, 61a– e). The basis is separated from the elongated ischium ( Fig. 44A View FIGURE 44 ). In Crossotonotidae the P5 is smaller but roughly similar in shape and orientation to the preceding pereopods; it is slightly dorsal and not especially mobile ( Castro 2000: figs. 46, 61f). The crossotonotid P5 coxa is smaller than the P2–P4 coxae but not elongated, and its notch (visible ventrally) accommodates a short basis and a wide, not elongated ischium ( Figs. 32C, D View FIGURE 32 , 44B View FIGURE 44 ).
In both Palicidae and Crossotonotidae the ejaculatory duct perforates the P5 coxa, and the penis emerges at the extreme end of the slightly elongated coxo-sternal condyle (see Modalities of penis protection: Condylar protection). The gonopore is not visible dorsally. The penis is long, relatively thick, rigid, and straight. Its proximal portion is concealed by the thoracic sternum; it then protrudes on the slope of the sterno-abdominal cavity. This free portion, only covered by the abdomen, shows as a thick tube from which the often elongated or inflated papilla emerges. The emerging penis is located vertically/obliquely along the margin of the sterno-abdominal cavity and may be oriented at a conspicuous angle, as in Palicus zonatus ( Fig. 32E View FIGURE 32 ). The soft papilla finally enters the lateral foramen of the G1 endopodite. This disposition of a penial tube running nearly vertically along the sternoabdominal cavity resembles that found in Dorippidae (e.g., Paradorippe granulata , Fig. 17C View FIGURE 17 ). Conversely, in Crossotonotidae , the penis is straight on its entire length ( Fig. 44B View FIGURE 44 ). The P5 is used for carrying behaviour in palicids ( Fig. 54 View FIGURE 54 ) (as well as the P4 and P 5 in Dorippoidea ) but not in crossotonotids, in which there is a different configuration (see Carrying behaviour; Palicidae ).
In both male palicids and crossotonotids, sternite 8 is subdivided into two portions by a transversal “suture”, and shows as a double plate in dorsal view. Actually sternite 8 is transversally marked by a deep invagination resulting in a completely closed channel ( Fig. 32A–C View FIGURE 32 ), named gaine pénienne (“penial sheath”) by Guinot (1979a: fig. 30G). The long penis is fully concealed within the sheath, except for its distal portion. The transversal “suture” is just the limit of the anterior and posterior portions of sternite 8, that is to say an invagination line and not a suture (specifically, not suture 7/8). Sternite 8 shows as a single plate in females ( Fig. 32D View FIGURE 32 ). In male and female Palicidae , episternite 7 extends posteriorly, overhanging the P5 coxa and encircling completely sternite 8 ( Fig. 32A, B View FIGURE 32 ). In male and female Crossotonotidae , conversely, episternite 7 extends posteriorly only to the level of the penis and the posterior portion of sternite 8 is not encircled by episternite 7 ( Fig. 32C, D View FIGURE 32 ).
A marked modification of somite 8 involving all its components is observed in the Palicoidea : pleural, sternal, and appendicular. The same modifications are found in both Palicidae (P5 reduced and dorsal) and Crossotonotidae (P5 only slightly dorsal and reduced). The strong reduction of sternite 8 in both sexes of both families thus seems to be independent of the size and position of the P5. An additional modification, the invagination of sternite 8, is found in males of Palicidae and Crossotonotidae . Sternite 8 shows as two narrow, subequal portions in male Palicidae ( Fig. 32A, B, E View FIGURE 32 ), instead of two wider, unequal portions in male Crossotonotidae ( Fig. 32C View FIGURE 32 ), and as an undivided plate in female Palicidae and Crossotonotidae ( Fig. 32D View FIGURE 32 ). The longer and angled penis of Palicidae , in contrast to that of Crossotonotidae , may be interpreted as linked to the dorsal insertion of the P5 as part of the modification of the last thoracic somite. The long palicoid G1 protopodite is related to the dorsal position of the first abdominal somite.
A thoracic sternum/pterygostome junction anterior to the chelipeds does not exist in the Palicoidea , the sternite 3 being incompletely extended, so the Milne Edwards openings are contiguous to the chelipeds. There is, however, a wide junction of the sternum with the branchiostegite posterior to the chelipeds, the episternite 4 being markedly extended laterally, and there is no junction posterior to the P2 and the following pereopods ( Fig. 32A; A View FIGURE 32 . Milne-Edwards & Bouvier 1902: pl. 7, fig. 3; Guinot 1979a: fig. 30G; Castro 2000: fig. 2A). Both the Palicidae and Crossotonotidae have a well-marked pterygostomial lobe and a long abdomen that reaches sternite 3 ( Castro 2000: fig. 2A, C).
The palicoid axial skeleton is peculiar. The phragmae consist medially in low, attenuated parallel endosternites, with the remaining portion laterally confined, thus leaving a large, empty central space, only occupied by a raised and long longitudinal septum, the median plate. The median line, which only extends on the sternal surface along sternites 5–7, is narrow and difficult to be discerned dorsally, although corresponding to a high median plate that also extends along sternites 5–7 before connecting to the sella turcica ( Figs. 32A, E View FIGURE 32 , 45A View FIGURE 45 ). The median line and median plate patterns of Palicoidea , similar in Palicidae and Crossotonotidae , is peculiar, perhaps unique. The palicoid sternal pattern represents pattern 5, subpattern 5d ( Fig. 56J View FIGURE 56 ); the sella turcica is very narrow (see Carcinisation and its outcomes: Evolution of the thoracic sternum in the Eubrachyura and its pattern; Evolution of the axial skeleton in the Eubrachyura).
The interlocking mechanism between the carapace and the cephalothorax in Palicoidea involves the thoracic pleurites at the P2–P5 levels, which laterally form a crest, with the carapace lying in the groove against the sloping side of this crest. The wide first abdominal somite is transversally excavated to receive the carapace. The relationships between the carapace, thoracic pleurite 8, sternite 8, and the first abdominal somite are complex in Palicoidea and deserve a more thorough investigation. In female Palicoidea the thoracic sternum and the abdomen are coadapted to form a brood cavity in the form of a closed box, with pleurite 8 and the first abdominal somites being involved in water draining for egg ventilation. Another unique adaptation of Palicoidea is the anterior displacement of the vulvae to the fused median portion of the thoracic sternum, although they remain still dependent on sternite 6 ( Hartnoll 1968a: fig. 14C; Guinot 1979a: fig. 31, pl. 24, fig. 10; Guinot & Richer de Forges 1997: fig. 2D, F; Castro 2000: 44; Guinot & Quenette 2005: 334; Naruse, Ng & Guinot 2008: figs. 1a, 6a, 9a, table 1; see Female sternal gonopores, or vulvae).
The coxo-sternal condition of Palicoidea had already been observed by Bouvier (1942: 40) and Balss (1944: 604), described by Guinot (1978a, 1979a), Guinot & Bouchard (1998), and pointed out by Castro (2000: 444): “sperm ducts under sternal plates, penis soft, curved, free on inner side of coxae”. Moosa & Serène (1981: 23), nevertheless, stated that “ Palicidae is typical sternotremen Brachyura : the male opening is completely sternal, the male conducts are running under the sternal plates, the penis are [sic] free far away from the coxae”. Thus, several authors assigned palicids to Catometopa, i.e., crabs with sternal male gonopores (e.g., Calman 1900: 29 under Palicus ; Alcock 1900b: 285, 450, as Palicidae ; Borradaile 1907: 482, as Palicidae ; Rathbun 1918: 15, 182, as Cymopoliidae ; Bouvier 1940: 303; 1942: 41, 46; Balss 1957: 1633, 1661, as Cymopoliidae ) or to Thoracotremata (e.g., Schram 1986: 308; Martin & Davis 2001: 56, 75; Felder et al. 2009: 1087). Palicids also appeared in the literature grouped next to the thoracotremes (e.g., Monod 1956: 387; Serène 1965: 29, 1968: 96; Sakai 1976: 592; Manning & Holthuis 1981: 191). Alternatively, the Palicidae was included in a new taxon, the Neobrachyura Brösing, Richter & Scholtz, 2007, which was based mostly on foregut characters and that included the entire Thoracotremata plus some heterotreme families, the latter being considered basal ( Brösing et al. 2007: 27, figs. 1, 2; Brösing 2008: 279, 281, fig. 2). Brösing (2008: 281) regarded the palicid male gonopores described by Castro (2000) as “clearly sternal”, which is a misinterpretation, and suggested “sister group relationship of the Palicidae to the Thoracotremata”, with the foregut characters recovering the Palicidae as a basal thoracotreme.
A heterotreme status is assumed here for the Palicoidea , which is recognised as a basal, deeply rooted eubrachyuran lineage, exhibiting a carrying behaviour in Palicidae ( Fig. 54 View FIGURE 54 ). Insights on its affinities are proposed below (see Affinities between Palicoidea , Retroplumoidea , and Hexapodoidea ; Concealment behaviour: Carrying behaviour: Family Palicidae ).
Fossil Palicidae View in CoL . Several fossil Palicidae View in CoL are known: † Eopalicus Beschin, Busulini, De Angeli & Tessier, 1996 View in CoL , with three species (Eocene and Oligocene). Miocene species were attributed to the extant genus Palicus View in CoL by Van Straelen (1938) and Müller (1984a) (see Beschin & De Angeli 2003). We agree that the transverse ridges in † E. squamosus Beschin, Busulini, De Angeli & Tessier, 1996 View in CoL ( Beschin et al. 1996: pl. 1), with a typically palicid- like carapace, are reminiscent of the “terraces” found in some raninids and indicate a similar adaptation for burying. According to Beschin & De Angeli (2003: 7–12, figs. 2–4), the Eocene (Lower Lutetian) fossil palicine † Spinipalicus italicus Beschin & De Angeli, 2003 View in CoL , with a broad carapace and inflated, tuberculated dorsal regions, shows some similarities with retroplumids, in particular with † Archaeopus Rathbun, 1908 , a genus that had been suggested as not belonging in Retroplumidae View in CoL ( Glaessner 1969; Saint Laurent 1989; McLay 2006a). See Fossil Retroplumidae View in CoL . The thoracic sternum, abdomen, and the fragile, reduced P5 are unfortunately unknown in fossil Palicidae View in CoL .
Alcock, A. (1900 b) The Brachyura Catometopa, or Grapsoidea. Materials for a carcinological fauna of India. No. 6. Journal of the Asiatic Society of Bengal, 69 (II, 3), 279 - 456.
Balss, H. (1944) Decapoda. III. Morphologischer Teil. Der Geschlechtsapparat. In: Dr. Bronns, H. G. (Ed.), Klassen und Ordnungen des Tierreichs. Funfter Band. 1. Abteilung, 7. Buch, 5. Lieferung. Akademische Verlagsgesellschaft, Becker & Erler K. - G, Leipzig, pp. 591 - 661.
Balss, H. (1957) Decapoda. VIII. Systematik. In: Dr. Bronn, H. G. (Ed.), Klassen und Ordnungen des Tierreichs. Funfter Band, 1. Abteilung, 7. Buch, 12. Lieferung. Akademische Verlagsgesellschaft, Geest & Portig K. - G., Leipzig, pp. 1505 - 1672.
Beschin, C., Busulini A., De Angeli, A. & Tessier, G. (1996) Retroplumoidea (Crustacea, Brachyura) nel Terziaro del Vicentino (Italia settentrionale). Lavori Societa Veneziana di Scienze Naturali, 21, 83 - 102.
Beschin, C. & De Angeli, A. (2003) Spinipalicus italicus, nuovo genere e specie di Palicidae (Crustacea, Decapoda) dell'Eocene del Vicentino (Italia settentrionale). Studi e Ricerche, Associazone Amici del Museo Civico G. Zannato , Montecchio Maggiore, 7 - 12.
Borradaile, L. A. (1907) On the classification of the decapod crustaceans. Annals and Magazine of Natural History, ser. 7, 19, 457 - 486.
Bouvier, E. - L. (1940) Decapodes marcheurs. In: Faune de France, 37. Paris, Lechevalier, 404 pp.
Bouvier, E. - L. (1942) Les crabes de la tribu des Corystoidea . Memoires de l'Academie des Sciences de l'Institut de France, 65 (4) [1941], 1 - 52.
Brosing, B., Richter, S. & Scholtz, G. (2007) Phylogenetic analysis of the Brachyura (Crustacea, Decapoda) based on characters of the foregut with establishment of a new taxon. Journal of Zoological Systematics and Evolutionary Research, 45 (1), 20 - 32.
Brosing, A. (2008) A reconstruction of an evolutionary scenario for the Brachyura (Decapoda) in the context of the Cretaceous- Tertiary boundary. Crustaceana, 81 (3), 271 - 287.
Calman, W. T. (1900) On a collection of Brachyura from Torres Straits. Transactions of the Linnean Society (London), 8 (1), 1 - 49.
Castro, P. (2000) Crustacea Decapoda: A revision of the Indo-west Pacific species of palicid crabs (Brachyura Palicidae). In: Crosnier, A. (Ed.), Resultats des Campagnes MUSORSTOM, vol. 21. Memoires du Museum national d'Histoire naturelle, 184, 437 - 610.
Felder, D. L., Alvarez, F., Goy, J. W. & Lemaitre, R. (2009) Decapoda (Crustacea) of the Gulf of Mexico, with comments on the Amphionidacea. Chapter 59. In: Tunnell Jr., J. W., Felder, D. L. & Earle, S. A. (Eds.), Gulf of Mexico Origin, Waters and Biota, vol. 1, Biodiversity. Texas A & M University Press, College Station, pp. 1019 - 1104.
Glaessner, M. F. (1969) Decapoda. In: Moore, R. C. (Ed.), Treatise on Invertebrate Paleontology, Part R, Arthropoda 4 (2). University of Kansas Press, Lawrence and Geological Society of America, Boulder, colourado, Part R, Arthropoda, 4, R 399 - R 533, R 626 - R 628.
Guinot, D. (1978 a) Principes d'une classification evolutive des Crustaces Decapodes Brachyoures. Bulletin biologique de la France et de la Belgique, nouv. ser., 112 (3), 211 - 292.
Guinot, D. (1979 a) Donnees nouvelles sur la morphologie, la phylogenese et la taxonomie des Crustaces Decapodes Brachyoures. Memoires du Museum national d'Histoire naturelle, ser. A, Zoologie, 112, 1 - 354.
Guinot, D. & Bouchard, J. - M. (1998) Evolution of the abdominal holding systems of brachyuran crabs (Crustacea, Decapoda, Brachyura). Zoosystema, 20 (4), 613 - 694.
Guinot, D. & Quenette, G. (2005) The spermatheca in podotreme crabs (Crustacea, Decapoda, Brachyura, Podotremata) and its phylogenetic implications. Zoosystema, 2 (2), 267 - 342.
Hartnoll, R. G. (1968 a) Morphology of the genital ducts in female crabs. Zoological Journal of the Linnean Society (London), Zoology, 47 (312), 279 - 300.
Manning, R. B. & Holthuis, L. B. (1981) West African brachyuran Crabs (Crustacea: Decapoda). Smithsonian Contributions to Zoology, 306, xii + 379 pp.
Martin, J. W. & Davis, G. E. (2001) An updated classification of the Recent Crustacea. Natural History Museum of Los Angeles County, Science Series, 39, 124 pp.
McLay, C. L. (2006 a) Retroplumidae (Crustacea: Decapoda) from the Indo-Malayan archipelago (Indonesia, Philippine) and the Melanesian arc islands (Solomon Islands, Fiji and New Caledonia) and paleogeographical comments. In: Richer de Forges, B. & Justine, J. - L. (Eds.), Tropical Deep-Sea Benthos, vol. 24. Memoires du Museum national d'Histoire naturelle, 193, 375 - 391.
Milne-Edwards, A. & Bouvier, E. - L. (1902) Reports on the results of dredging, under the supervision of Alexander Agassiz, in the Gulf of Mexico (1877 - 78), in the Caribbean Sea (1878 - 79), and along the Atlantic coast of the United States (1880), by the U. S. Coast Survey Steamer Blake . XXXIX. Les Dromiaces et Oxystomes. Memoirs of the Museum of Comparative Zoology at Harvard College, 27 (1), 1 - 127.
Monod, T. (1956) Hippidea et Brachyura ouest-africains. Memoires de l'Institut francais d'Afrique Noire, 45, 1 - 674.
Moosa, M. K. & Serene, R. (1981) Observations on the Indo-West-Pacific Palicidae (Crustacea: Decapoda) with descriptions of two new subfamilies, four new genera and six new species. Marine Research in Indonesia, 22, 21 - 66.
Muller, P. (1984 a) A badeni emelet tizlabu rakjai [Decapod Crustacea of the Badenian]. Geologica Hungarica, ser. Palaeontologica, 42, 1 - 317.
Naruse, T., Ng, P. K. L. & Guinot, D. (2008) Two new genera and two new species of troglobitic false spider crabs (Crustacea: Decapoda: Brachyura: Hymenosomatidae) from Indonesia, with notes on Cancrocaeca Ng, 1991. Zootaxa, 1739, 21 - 40.
Rathbun, M. J. (1908) Descriptions of fossil crabs from California. Proceedings of the Biological Society of Washington, 35 (1647), 341 - 349. http: // dx. doi. org / 10.5479 / si. 00963801.35 - 1647.341
Rathbun, M. J. (1918) The grapsoid crabs of America. United States National Museum Bulletin, 97, xxii + 461 pp., pls. 1 - 161. http: // dx. doi. org / 10.5479 / si. 03629236.97. i
Richer de Forges, B., Jamieson, B. G. M., Guinot, D. & Tudge, C. C. (1997) Ultrastructure of the spermatozoa of Hymenosomatidae (Crustacea: Brachyura) and the relationships of the family. Marine Biology, 130, 233 - 242. http: // dx. doi. org / 10.1007 / s 002270050243
Roux, P. (1830) Crustaces de la Mediterranee et de son littoral, decrits et lithographies. Paris et Marseille, Imprimerie D'Achard, 172 pp., pls. 1 - 45. [pages not numbered, published in 9 parts, 1828 - 1830, see Monod (1956)]
Saint Laurent, M. de (1989) La nouvelle superfamille des Retroplumoidea Gill, 1894 (Decapoda, Brachyura): systematique, affinites et evolution. In: Forest, J. (Ed.), Resultats des Campagnes MUSORSTOM, vol. 5. Memoires du Museum national d'Histoire naturelle, ser. A, Zoologie, 144, 103 - 179.
Sakai, T. (1976) Crabs of Japan and the Adjacent Seas. Vol. 1 [English text], xxix + 773 p., figs. 1 - 379, maps 1 - 3; vol. 2 [Japanese text], 461 p., figs. 1, 2; vol. 3 [plates], 16 p. + pls. 1 - 251, Kodansha, Tokyo.
Schram, F. R. (1986) Crustacea. Oxford University Press, 606 pp.
Serene, R. (1965) Guide for Curators of Brachyuran Collections in Southeast Asia. Applied Scientific Research Corporation of Thailand, Bangkok, 65 pp.
Serene, R. (1968) The Brachyura of the Indo-West Pacific region. In: Prodromus for a Check list List of the Nonplanctonic Marine Fauna of South East Asia. UNESCO, Singapore National Academy of Sciences, Special Publication 1, Fauna IIIC, pp. 33 - 112.
Van Straelen, V. (1938) Crustaces Decapodes Cenozoiques des Indes orientales neerlandaises. Leidsche Geologische Mededlingen, 10 (1), 90 - 103.
FIGURE 17. Coxo-sternal condition in Dorippidae. A, B, Dorippe tenuipes Chen, 1980. A, male 21.0 × 25.0 mm, South China Sea (MNHN-B8937). B, male 19.0 × 20.0 mm, holotype of Dorippe miersi Serène, 1982, Vietnam (MNHN-B7279): A, genital region covered by abdomen; B, genital region uncovered by abdomen, penis covered by sternite 8. C, Paradorippe granulata (De Haan, 1841), male 11.0 × 11.0 mm, Japan (MNHN-B11181): genital region. D, Philippidorippe philippinensis Chen, 1985, male 25.0 × 30.0 mm, Philippines (MNHN-B18913): genital region covered by abdomen. a1–a3, abdominal somites 1–3; b, sclerotised bulb; c, coxo-sternal condyle; ca, carapace; cx4, cx5, P4, P5 coxae; e7, episternite 7; pa, papilla; td, distal portion of penial tube; tp, inclined proximal portion of penial tube; 6–8, thoracic sternites 6–8; 6/7, 7/8, sternal sutures 6/7, 7/8. Scale bars: 5 mm (A, D); 3 mm (B, C).
FIGURE 32. Coxo-sternal condition in Palicidae (A, B, E), Crossotonotidae (C, D), schematic representation. A, B, Palicus caronii (Roux, 1830), male 9.0 × 11.0 mm, Canary Is. (MNHN-B16335). A, thoracic sternum and abdomen in situ; B, detail of A. C, D, Crossotonotus spinipes (de Man, 1888), New Caledonia (MNHN-B26811): detail of sternites 7 and 8. C, male 36.0 × 44.0 mm; D, female 29.0 × 32.0 mm. E, Palicus zonatus (Rathbun, 1893), male 10.0 × 13.0 mm, Gulf of California (MNHN- B26745): ventral view, abdomen removed; invaginated sternite 8 has been partially cut to expose underlying penis (left). a1, abdominal somite 1; b, press-button; cx4, cx5, P4, P5 coxae; e3–e7, episternites 3–7; l, invagination line of sternite 8; m.l., median line; p, penis (schematically represented too thin, straight in A and B, correctly represented thick and at an angle in Fig. E); p5, pereopod 5; 6, 7, thoracic sternites 6, 7; 8, thoracic sternite 8 in the form of double plate. Scale bar: 3 mm (E).
FIGURE 44. P5 ischium, long in Palicidae (A) and Retroplumidae (C), short in Crossotonotidae (B). A, Palicoides longimanus (Miyake, 1936), female 14.7 × 17.0 mm, New Caledonia (MNHN-B26791); B, Crossotonotus spinipes (de Man, 1888), male 36.9 × 43.3 mm, New Caledonia (MNHN-B26803): penis emerging from P5 coxo-sternal condyle and pulled out from sternite 8 invagination; basis-ischium concealed under coxa. C, Retropluma quadrata Saint Laurent, 1989, with attached ciliates (after Saint Laurent 1989: fig. 9; unknown size). b, basis; c, coxo-sternal condyle; cx5, P5 coxa; i, ischium; p, penis; pa, papilla. Scale bars: 3 mm (A); 1 cm (B).
FIGURE 45. Skeletons with parallel endosternites and narrow sella turcica. A, Pseudopalicus declivis Castro, 2000 (Palicidae), male, New Caledonia (MNHN-B30492): medially attenuated endosternites, remaining lateral portions covered by pleurites; marked median plate; B, Bathypluma spinifer Saint Laurent, 1980 (Retroplumidae), male, Philippines (MNHN-B37017): cx5, P5 coxa; m, median plate; p, pleurite; P5, pereopod 5; s, sella turcica; s.c., convexity of sterno-abdominal cavity; t, endosternite.
FIGURE 54. Carrying behaviour among palicid crabs. A, Exopalicus maculatus (Edmondson, 1930) carrying a foraminiferan shell (Marginopora sp.): both P5 visible, with dactyli holding camouflaging shell. B, C, Palicoides whitei (Miers, 1884): B, carrying fragment of coral rubble: dactyli of both P5 only slightly visible; C, carrying small pebble: clearly visible right P5. A, B in situ, C in aquarium, Okinawa, Japan. Photographs by Y. Fujita.
FIGURE 56. Diagrammatic representation of patterns of thoracic sternal sutures 4/5–7/8 and modalities of median line (median plate not taken into account) in Eubrachyura. A, pattern 1: sutures 4/5–7/8 complete (uninterrupted), median line along sternites 5–8, may extend on sternite 4; B, pattern 2: only suture 4/5 interrupted, median line along sternites 6–8; C, pattern 3: sutures 4/5, 5/6 interrupted, median line along sternites 7, 8; D, pattern 4: sutures 4/5–6/7 interrupted, median line on sternite 8; E, generalised pattern 5: sutures 4/5–7/8 incomplete, median line variable among subpatterns a-f; F, pattern 6: sutures 4/5–7/8 interrupted, suture 6/7 complete, median line along sternites 7, 8; G, subpattern 5a: sutures 4/5–7/8 interrupted, median line absent; H, subpattern 5b: sutures 4/5–7/8 interrupted, median line along sternites 3–8; I, subpattern 5c: sutures 4/5–7/8 interrupted, median line along sternites 5–8, sometimes partially on sternite 4; J, subpattern 5d: sutures 4/5–7/8 interrupted, median line along sternites 5–7; K, subpattern 5e: sutures 4/5–7/8 interrupted, median line along sternites 7, 8; L, subpattern 5f: sutures 4/5–7/8 interrupted, median line on sternite 4. Each thoracic sternum with same width; all sutures represented parallel, equidistant, and similar. Some additional patterns are not figured.
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.
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Kingdom |
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Phylum |
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Class |
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Order |
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Family |
Palicoidea
| GUINOT, DANIÈLE, TAVARES, MARCOS & CASTRO, PETER 2013 |
Spinipalicus italicus
| Beschin & De Angeli 2003 |
Eopalicus
| Beschin, Busulini, De Angeli & Tessier 1996 |
E. squamosus
| Beschin, Busulini, De Angeli & Tessier 1996 |
Archaeopus
| Rathbun 1908 |
Palicidae
| Bouvier 1898 |
Palicidae
| Bouvier 1898 |
Palicidae
| Bouvier 1898 |
Retroplumidae
| Gill 1894 |
Retroplumidae
| Gill 1894 |
Palicus
| Philippi 1838 |