Palicoidea, Bouvier, 1898

Affinities between Palicoidea View in CoL , Retroplumoidea and Hexapodoidea

The affinities between Palicoidea ( Crossotonotidae and Palicidae ), Retroplumoidea , and Hexapodoidea , as well as with Dorippoidea ( Dorippidae and Ethusidae ), have been questioned, all of these groups having have been considered heterotremes or thoracotremes at one time or another. The extreme modifications of the last thoracic somite (somite 8) and the P5 have raised substantial difficulties in defining the heterotreme or thoracotreme nature of these families. Differences in the P5, combined with those concerning the body aspect (very flat in Retroplumoidea , somewhat flat in Palicoidea and Ethusidae , thick in Dorippidae , globular in Hexapodoidea ), could mask some of the similarities observed between the families.

The male gonopore is coxal in Dorippoidea , Palicoidea , Retroplumoidea , and Hexapodoidea , with a coxosternal condition in most of Dorippoidea and in all Palicoidea , which excludes any possible relationships with Thoracotremata. Their heterotreme condition is herein well established so that their affinities with other heterotreme families should be investigated (see Affinities between Dorippoidea and Hymenosomatoidea ).

The Dorippoidea View in CoL , Palicidae, Retroplumoidea, and Hexapodoidea View in CoL are the only extant heterotremes with posterior pereopods that are reduced and dorsally located (P4 and P 5 in Ethusidae View in CoL and Dorippidae View in CoL ; only P 5 in Palicidae View in CoL and Retroplumoidea ) or reduced to a vestigial P5 coxa ( Hexapodoidea View in CoL ). The retroplumid P5 is short, thin, plumose, and can be dorsally oriented. The palicid P5 is filiform, highly mobile, can be dorsally held, and ends in a curved, moveable dactylus, in contrast to the crossotonotid P5, which is not particularly reduced in size and is similar in shape and orientation to the P2–P4 (see Castro 2000: 445). The Dorippoidea View in CoL , with reduced, mobile, and prehensile P4 and P5, was until now the only non-podotreme group with a well-known carrying behaviour ( Holthuis & Manning 1990; Guinot et al. 1995) (see Concealment behaviour: Carrying behaviour).

In describing Palicus caronii, Roux (1830 View in CoL : leaf 46) pointed out its occurrence deep in the mud and assumed a carrying behaviour similar to that of Medorippe lanata View in CoL , found in the same habitat. There are no published reports of carrying behaviour in Palicidae View in CoL although it was not excluded that palicids may carry light organisms with their narrow P5 ( Castro 2000: 585). Such carrying behaviour among palicids has now been demonstrated by Y. Fujita (University of the Ryukyus, unpublished), who photographed several specimens of Exopalicus maculatus View in CoL and Palicoides whitei View in CoL performing carrying behaviour with the dactyli of their thin, raised P5, both in the field and in aquaria ( Fig. 54 View FIGURE 54 ). That such small animals (rarely more than 20 mm in carapace width) can support with their delicate P5 objects that can be larger and heavier than themselves is remarkable. The Palicidae View in CoL is the second nonpodotreme group in which carrying behaviour is observed, being reported here for the first time.

Retroplumids live in muddy substrates, where they bury at least temporarily, with only the anterior portion of the body exposed ( Saint Laurent 1989: 143). Their P5 were suspected to serve as floating organs ( Alcock 1902, 1906) or even as gills ( Tesch 1918a). Observations of live Retropluma quadrata by Saint Laurent (1989: 142) showed that individuals bury in mud, at least temporarily, leaving the body obliquely positioned with only the anterior part exposed. Observations of live retroplumids show a weak burying activity and no carrying behaviour, the P5 resting by the side of the carapace when crabs are on the substrate (P.K.L. Ng, pers. comm. 2012). McLay (2006a: 385) suggested that the retroplumid P5, supposedly sensorial in function, were “held above the mud surface rather than being buried”. The P5 dactyli of Retroplumoidea ( Fig. 44C View FIGURE 44 ) are not subchelate, and carrying behaviour has never been recorded. It is unlikely that their fragile, setose P5, which, moreover, do not have the required mobility to carry even light objects. In contrast, the different disposition and mobility of the fragile P5 of Palicidae ( Fig. 44A View FIGURE 44 ) and Latreilliidae ( Castro et al. 2003: 629) allow carrying objects for camouflaging (see Concealment behaviour: Carrying behaviour).

There is a morphological similarity, a long P5 ischium, between Palicidae and Retroplumoidea . In Palicidae the P5 basis-ischium is not short as in other Brachyura , being long in comparison to the usual condition of the P5 articles and the P2–P4 basis-ischia ( Fig. 44A View FIGURE 44 ). The P5 ischium is fused with a short basis although the suture is visible, as normally in Brachyura . The P2–P4 ischia are short and fused to the basis as normal, but with a distinct suture. A similar pattern is present in Retroplumoidea , in which the P5 basis-ischium is unusually long in comparison to the P2–P4 basis-ischia and the typical P5 condition among the Eubrachyura ( Fig. 44C View FIGURE 44 ; Saint Laurent 1989: fig. 9). The Crossotonotidae , in contrast to Palicidae , has a short P5 basis-ischium without a distinct suture (as on P2–P4) ( Fig. 44B View FIGURE 44 ), a condition linked to a minimised modification of the P5.

The similarities between the reduced, slender P5, with all articles of similar width, and with a long ischium of Palicidae and Retroplumoidea can be interpreted as either the result of convergence or inherited from a close common ancestor. It should be noted that the reduced, slender, and thin P5 of some Cyclodorippidae independently show a similar lengthening of the ischium, following a short basis, e.g., Cyclodorippe bouvieri Rathbun, 1934 ( Rathbun 1934: pl. 1), Tymolus daviei ( Tavares 1997: 264, fig. 1B), Ketamia depressa ( Ihle 1916: fig. 71), K. handokoi Tavares, 1993 ( Tavares 1993a: fig. 17a).

Attempts to group together crabs with reduced and dorsal posterior legs date back to Latreille (1817: 24, 25), who referred to brachyurans with posterior “legs on the back” as “ Notopodes ” and established, in the family-series Brachyura , the section Notopoda (see also Latreille 1825a: 273, as a tribe; 1831: 329, 330, 354, as a tribe; Berthold 1827: 259). The Notopoda included Dromia , Dynomene Desmarest, 1823 , Homola , Ranina (podotremes), Palicus (as Cymopolia Roux, 1830 ), Dorippe and Ethusa (Eubrachyura) . Risso (1826: 31) used the nomen Notopodes or Notopoda for a taxon that included podotremes and non-podotremes. Guérin (1832a: 283, 285; 1835) included in Notopoda Palicus (as Cymopolia ), Dromia , Dynomene , Dorippe , and Ethusa , all with reduced, dorsal posterior pereopod(s), as well as Caphyra Guérin, 1832 , but excluded Homola and Ranina . Lucas (1840: 112, 114) recognised at a rank below the family Brachyura two groups of Notopoda: the “ Dromites ”, including the podotremes Dromia , Dynomene , Homola , Ranina , and the “ Dorippites ”, including the eubrachyurans Dorippe , Ethusa , and Palicus (as Cymopolia ). Dromia , Homola , and Dorippe were assigned to “Dorsipedata” by Haworth (1825: 106). The Notopoda of Claus (1868: 237) included Dromia but later ( Claus 1872: 507; 1876a: 556) four families: Porcellanidae , Lithodidae, Dromiadae (consisting of Dromia , Dynomene , but also of Homola , Latreillia , Corystoides , and Bellia ), and Dorippidae . The Notopoda of Neumann (1878: 29) included Dorippidae and Dromiadae , which consisted of Dromia and Homola . The Notopoda Latreille, 1817, must not be confused with Notopterygia Latreille, 1831 ( Latreille 1831: 368) established as a tribe within “ Macrouri ” and actually including exclusively the Raninoidea (See Monophyletic Podotremata; Appendix II; Van Bakel, Guinot, Artal, Fraaije & Jagt 2012).

In establishing the tribe “ Dorippiens ” within Oxystomata, H. Milne Edwards (1837a: 99, 151) called attention to both their broad thoracic sternum and dorsal insertion of the two last pereopods. Based on larval characters, Cano (1891b; see also 1893b) grouped Dorippe , Ethusa , and Palicus in the same family, the Dorippidae . As far as Hexapodidae is concerned, its palaeontological and stratigraphic records suggest that they “may have perhaps evolved from the Dorippoidea ” ( Glaessner & Secretan 1987: 10). Based on the foregut structures, Brösing et al. (2007) found some similarities between Retroplumoidea and Palicidae .

The close relationship between Dorippidae and Palicidae has been discussed several times (see above). The Retroplumidae was tentatively placed with Palicidae and Dorippidae within Dorippoidea ( Guinot 1978a: 214, table). The possible relationships of the Hexapodidae with the Retroplumidae and Palicidae were briefly mentioned by Guinot & Quenette (2005: 334).

The assertion of Brösing et al. (2007: 28) that the molecular studies of Schubart, Cuesta, Diesel & Felder (2000) and of Schubart, Neigel & Felder (2000) supported a “closer relationship of the Palicidae with the Thoracotremata” is erroneous. Schubart, Cuesta, Diesel & Felder (2000: 180, 181), using Palicidae (Palicus) as outgroup, only asserted that the family holds “a basal position with respect to the Thoracotremata”. Schubart, Neigel & Felder (2000a: 826) only referred to the status of Palicidae ( Crossotonotus and Palicus ) as “unresolved”. The diagnosis of Palicidae by Castro (2000: 444) as “male opening sternal; sperm ducts under sternal plates, penis soft, curved, free on inner side of coxae” was similarly misinterpreted by Brösing et al. (2007: 28; see also Brösing 2008: 281), who did not recognise the particular coxo-sternal condition of Palicidae and concluded to the thoracotreme nature of the family.

The study of the neglected characters of the foregut-ossicle system ( Brösing et al. 2007; Brösing 2008) led to the creation of a new taxon, Neobrachyura Brösing, Richters & Scholtz, 2007, which includes the entire Thoracotremata plus some heterotreme taxa, i.e., Palicidae , Pinnotheridae , Potamonautidae , and Retroplumidae ( Brösing et al. 2007: 23, figs. 1, 2; Brösing 2008: 281). Several propositions of these papers are untenable (see Monophyletic Podotremata), and in addition they are based on some misinterpretations (see above). The proposed classification “goes against almost every scheme that has been proposed, and contradicts a substantial body of adult and larval morphology, as well as DNA evidence” ( Ng, Guinot & Davie 2008: 8). There is no substantial diagnosis of Neobrachyura, a certainly puzzling diagnosis due to the families that were included, which renders the taxon clearly polyphyletic, a reason perhaps why Neobrachyura has not been used ever by carcinologists since its establishment, being only cited in a list of new taxa created since 1994 ( Fernández 2007: 372). Furthermore, the statement by Brösing (2008: 281) “for the Thoracotremata as originally proposed by Guinot (1977a, 1977b) ( Ocypodidae , Mictyridae , Gecarcinidae , and Grapsidae ) one may assume a monophyletic origin, supported by characters of gonopores in both sexes” implies a non-monophyly when the heterotreme taxa assigned to Neobrachyura are added.

The dorsal and modified last pair or last two pairs of pereopods in Dorippoidea , Retroplumoidea and Palicidae coexist(s) with an abdomen having the first two or three somites dorsally positioned. The first abdominal somite is often concealed under the carapace in the strongly specialised Hexapodoidea (De Angeli et al. 2010; Guinot et al. 2010).

In Hexapodidae, Palicoidea, and Retroplumoidea View in CoL , all sutures 4/5–7/8 are incomplete. A median line is present in Palicoidea View in CoL along sternites 5–7, i.e., sternal pattern 5 subpattern 5d, and corresponds to a raised median plate ( Figs. 32A, E View FIGURE 32 , 45A View FIGURE 45 , 53J View FIGURE 53 ). Both median line and median plate are absent in Hexapodidae View in CoL and Retroplumidae View in CoL ( Fig. 45B View FIGURE 45 ), both with sternal pattern 5, subpattern 5a (see Thoracic sternum; Evolution of the thoracic sternum in the Eubrachyura and its patterns). Sternite 4 shows in these three taxa a similar latero-anterior extension that does not reach the pterygostome but joins the branchiostegite, posterior to the chelipeds in Palicoidea View in CoL and Retroplumoidea , but not in Hexapodoidea View in CoL . In Dorippidae View in CoL , on the contrary, sternite 3 is so extended and the thoracic sternum/pterygostome junction so considerable that the branchial openings become two independent, deep slits excavated into the pterygostome ( Fig. 42C View FIGURE 42 ; Ihle 1916: fig. 45), a condition already appearing in the first juvenile crab ( Quintana 1987: figs. 3F, 8E, 15G). Such a sternum/pterygostome junction does not occur in Ethusidae View in CoL ( Fig. 42A View FIGURE 42 ). By comparison, there is a trend to a junction, which may be very developed, by the extended sternite 4 in Hymenosomatoidea View in CoL ( Figs. 42B View FIGURE 42 , 43C View FIGURE 43 ).

The posterior part of the cephalothorax of Hexapodoidea View in CoL ( Figs. 27 View FIGURE 27 , 28 View FIGURE 28 ), Palicoidea View in CoL ( Fig. 32 View FIGURE 32 ) and Retroplumoidea ( Fig. 34 View FIGURE 34 ) is modifed (a modification not shared with the Dorippoidea View in CoL ; see Position of the Dorippoidea View in CoL within the Brachyura ; Affinities between Dorippoidea View in CoL and Hymenosomatoidea View in CoL ), which results in the following shared features:

(1) P5 strongly reduced, dorsal, markedly reentrant, with all articles present, with long basis-ischium ( Palicidae, Retroplumoidea ; Fig. 44A, C View FIGURE 44 , respectively); only slightly reduced and reentrant, slightly dorsal, with all articles present, with short basis-ischium ( Crossotonotidae ; Fig. 44B View FIGURE 44 ); vestigial, restricted to the coxa, and completely concealed under the abdomen (male Hexapodoidea ), or lost (female Hexapodoidea ; Fig. 27 View FIGURE 27 ).

(2) Thoracic somite 8 strongly reduced in relation to somite 7 ( Palicoidea , Retroplumoidea ) or vestigial ( Hexapodoidea ).

(3) Sternite 8 markedly different from the large preceding sternites 5–7, obliquely oriented, perpendicular to preceding sternites ( Fig. 34 View FIGURE 34 ; Retroplumoidea ), nearly aligned with preceding sternites ( Fig. 32 View FIGURE 32 ; Palicoidea ), or vestigial ( Figs. 27 View FIGURE 27 , 28 View FIGURE 28 ; Hexapodoidea ); sternite 8 invaginated, showing as two narrow portions and largely concealed under the abdomen and affected by the complex interlocking mechanism between carapace and cephalothorax ( Palicoidea ); sternite 8 not exposed except for a very small portion visible between abdominal somites 1 and 2 ( Retroplumoidea ); sternite 8 mostly concealed under the carapace, only a small portion remaining exposed dorsally, or indistinct in dorsal view ( Hexapodoidea ).

(4) Pleurite 8 modified in both sexes, reduced, completely concealed and fused with sternite 8, without a recognisable suture between them ( Fig. 34 View FIGURE 34 ; Retroplumoidea ), reduced ( Fig. 32 View FIGURE 32 ; Palicoidea ), or completely lost ( Figs. 27 View FIGURE 27 , 28 View FIGURE 28 ; Hexapodoidea ). [For Doprippidae, with exposed pleurites, see Figs. 46A, B View FIGURE 46 , 47A, B View FIGURE 47 ].

These characters are not shared by any other groups of Eubrachyura. Some additional fundamental traits are shared by Palicoidea and Retroplumoidea : the presence of a marked pterygostomial lobe ( Palicidae , see Castro 2000: fig. 2A; Retroplumoidea , see Saint Laurent 1989: figs. 3, 4); a wide junction of the thoracic sternum (episternite 4) with the branchiostegite, posterior to the chelipeds ( Palicidae , Fig. 32A View FIGURE 32 ; Retroplumoidea , see Fig. 5D View FIGURE 5 ; Saint Laurent 1989: fig. 4) (not to be confused with the sternite 3/pterygostome junction anterior to the cheliped in the Dorippidae , Fig. 42C View FIGURE 42 ). A sternum/pterygostome or sternum/branchiostegite junction does not characterise the Hexapodoidea , where a rather long anterolateral extension of sternite 4 may be present anterior to the cheliped without, however, joining the pterygostome ( Fig. 5A–C View FIGURE 5 ; Manning & Holthuis 1981: fig. 33b; Manning 1982: fig. 1b; Guinot 2006: fig. 4A, B; De Angeli et al. 2010: figs. 4C, 5C, 7C; Guinot et al. 2010: figs. 2D, 4B, C). The Palicoidea ( Fig. 32A, E View FIGURE 32 ), Retroplumoidea ( Fig. 5D View FIGURE 5 ), and Hexapodoidea ( Fig. 5A–C View FIGURE 5 ) share a wide thoracic sternum, with largely interrupted sutures 4/5–7/8 and a press-button for abdominal-locking mechanism that remains operational in mature females. See Axial skeleton; Thoracic sternum.

The axial skeleton of Palicoidea , Retroplumoidea and Hexapodoidea is regularly compartmentalised, with parallel, equidistant phragmae and similar narrow sella turcica. These taxa share a similar pattern of sternal sutures, pattern 5, but with a different median line subpattern: subpattern 5a ( Fig. 56G View FIGURE 56 ), without neither a median line nor a median plate, as in Retroplumoidea ( Fig. 45B View FIGURE 45 ) and Hexapodidae ; subpattern 5d, with a median line and median plate extending along sternites 5–7 in Palicoidea ( Figs. 45A View FIGURE 45 , 56J View FIGURE 56 ). In Retroplumoidea and Hexapodoidea the endosternites only reach the sides of the wide inflated median area formed by the sterno-abdominal cavity. In Palicidae the endosternites are medially attenuated, confined laterally for most part; the central portion is only marked by a raised longitudinal septum, the median plate, and posteriorly by the thin transversal sella turcica ( Figs. 45A View FIGURE 45 , 56J View FIGURE 56 ). A similar median line and its corresponding median plate characterise the Crossotonotidae .

In comparison, the Dorippoidea shows a particular configuration of the median plate, which makes possible observing its origin, initially an invagination of the sternal floor. A median line is absent in both sexes of Medorippe lanata , but the median plate is sexually dimorphic, males displaying a median plate that is dissimilar along sternites 5 – 7 and females being devoid of a typical median septum ( Figs. 46C View FIGURE 46 , 47A, B View FIGURE 47 ). See also Evolution of the axial skeleton in the Eubrachyura.

The Palicoidea and Retroplumoidea plesiomorphically share a well-developed pterygostomial lobe and a long abdomen that reaches sternite 3 in Palicoidea and the anterior half of sternite 4 in Retroplumoidea .

The Palicoidea View in CoL (sensu Hartnoll 1968a: 296, fig. 14C; Guinot 1979a: 113, fig. 31, pl. 24, fig. 9; Castro 2000: 44; Guinot & Quenette 2005: 334) and to a greater extent the Hymenosomatoidea View in CoL (see Richer de Forges 1976, 1977; Guinot 1979a: 111, pl. 24, fig. 10; Lucas 1980: 151; Guinot & Richer de Forges 1997: fig. 2D, F; Naruse, Ng & Guinot 2008; Naruse, Mendoza & Ng 2008: figs. 1a, 6a, 9a, table 1) are probably the only eubrachyuran groups, together with some other Majoidea View in CoL , to show a marked anterior displacement of the vulvae in the fused median part of the thoracic sternum. The Inachoididae View in CoL and Inachidae View in CoL display a peculiar forward orientation of sternite 6 ( Fig. 48A, B View FIGURE 48 , respectively; see Female sternal gonopores, or vulvae). This may be compared to the forward displacement of the spermathecae encountered in several taxa within the Podotremata, such as Dromiidae View in CoL , some Cyclodorippoidea , and Raninoidea View in CoL .

The two superfamilies Palicoidea View in CoL and Retroplumoidea , which appear as deeply rooted clades, could be grouped together in a higher-ranked taxon within Eubrachyura, awaiting a new classification scheme. The incorporation of the highly modified Hexapodoidea View in CoL in the same higher-ranked taxon deserves further investigation.

The fossil record reveals the difficulty to separate Retroplumoidea from the Palicoidea . Glaessner (1969: R531) considered † Archaeopus and † Retrocypoda as possible members of Palicidae : for instance, McLay (2006a: 387, table 3) included in the Palicidae all the species of † Archaeopus and several other retroplumids (see Fossil Retroplumidae ).

The affinities of the Retroplumoidea , Palicoidea , and Hexapodoidea with Dorippoidea are not evident. Dorippoids only partially show the modifications mentioned above and, in contrast, have both the P4 and P5 that are dorsal, highly mobile, and reduced. See Position of the Dorippoidea within the Brachyura below; Position of the Hymenosomatoidea within the Brachyura ; Affinities between Dorippoidea and Hymenosomatoidea .