A new stygobiont species of Halocaridinides Fujino & Shokita, 1975 (Crustacea, Decapoda, Caridea, Atyidae) from caves on Socotra Island (Yemen), with notes on the genus Fransen, Charles H. J. M. Damme, K. Van Zootaxa 2018 2018-07-02 4442 2 241 261 8VKKP Fransen & Damme, 2018 Fransen & Damme 2018 [151,501,151,177] Malacostraca Atyidae Halocaridinides GBIF Animalia Decapoda 3 244 Arthropoda species socotraensis sp. nov.     Materialexamined.  Socotra Island( Yemen): Ehrer Cave, 12°33’0.54”N 54°27’35.64”E, alt.  250m( typelocality). 1 holotype malepocl. 3.9mm(nr. E19) RMNH.CRUS.D.57274; 18 paratypes (2 males, 16 non-ovigerous females, nrs E1–18), RMNH.CRUS.D.57275: from stagnant pools near entrance, 27–28.xii.2003; collected by Kay Van Damme. 34 paratypes (24 males, 10 females of which one ovigerous, nrs E21–55), RMNH.CRUS.D.57276: pop. 1 (waterfall); 27–28.xii.2003; collected by Kay Van Damme. 6 paratypes (1 male, 5 females of which 4 ovigerous, nrs E56–59, E70, 71), RMNH.CRUS.D.57277: pop. 2 (waterfall); 27–28.xii.2003; collected by Kay Van Damme. 6 paratypes (2 males, 4 non-ovigerous females, nrs E60–65), RMNH.CRUS.D.57278: pop. 3 (endbasin); 27–28.xii.2003; collected by Kay Van Damme. Fosreher Cave,12°37’41.1”N 53°30’42.2”E, alt. 624m, subterranean lake at - 100m. 8 paratypes (1 male, 7 non-ovigerous females, nrs F1–8) RMNH.CRUS.D.57279: - 80 m;   2.i.2004; collected by E. Claes, SKP-team.  Ghiniba Cave, 12°26’01.3”N 53°56’11.5”E, alt.  395m, margin of subterranean freshwater river. 1 non-ovigerous female pocl. 3.0mm (third pereiopods missing) (nr. G1), RMNH.CRUS.D.57280: 6.i.2003; collected by Kay Van Damme. 1 non-ovigerous female pocl. 4.38mm(nr. G2), RMNH.  CRUS.D.57281:  9.i.2004; collected by L. Vernaeve, SKP-team.  Near Qadub, 12°38’14.9”N 53°57’27.2”E, light brackish coastal well. 1 non-ovigerous female mounted in a glass slide, from a zooplankton sample, damaged (not measured), pers. coll. KVD: 12.ii.1999; collected by Kay Van Damme.    Comparativematerial.  Halocaridinides trigonophthalma( Fujino & Shokita, 1975). 3 specimens, RMNH.  CRUS.D.40922: Japan, Akasaki-do, long narrow cave with very slowly flowing stream; width  0.6m; 0.25m; bottom clay & stones and hard limestone rock; tourist lights intermittently on in summer; sample mainly from stagnant pool at end of cave second exit; 12x 0.6 m; 23.xii.1986; 19°C, 0 2 saturation 57%, conductivity (EC) 650 S/cm; leg. et don. N.W. Broodbakker. 2 specimens, RMNH.  CRUS.D.37247: Japan, Ryukyu Islands, Ncoast of Yoron Island; 25.xii.1986; leg. et don. N.W. Broodbakker. Many specimens, RMNH.  CRUS.D.33133:  PalauDistict,  Caroline Islands, AngaurIsland, Doresi Pond, 6°54’44”N 13°48’20”E;  14.vii.1980; leg. et don. J.A. Maciolek.   Halocaridinides fowleri(Gordon, in Gordon & Monod, 1968). 1 male, ZMA.  CRUS.D.103701:  Zanzibar, from Pango Managolacave near Makunduchi;  12.ix.1983; leg. et don. P. Beron& V. Beshkov.   Description. Body cylindrical. Carapace smooth. Rostrum ( Fig. 4A, B) not developed, without teeth, anterior margin of carapace rounded in dorsal view, blunt in lateral view, reaching level of rounded inferior orbital angle. Supraorbital, antennal and pterygostomian spines absent. Anterior lateral margin straight; pterygostomian angle broadly rounded ( Fig. 4A, B). Abdomen smooth; pleura of abdominal segments posteroventrally rounded; sixth abdominal segment 1.5 times as long as fifth. Telson ( Fig. 4C) as long as sixth abdominal segment, twice as long as its proximal width; lateral margin convex in proximal half, slightly concave in distal half; distal margin 0.6 times as wide as proximal width, straight; two pairs of dorsal spines at about 0.5 and 0.75 of telson length, about 0.0 8 times as long as telson, proximal pair submarginal, distal pair marginal; posterior margin with four pairs of spines, lateral spines as long as dorsal spines, intermediate pair long, three times as long as lateral spines, two pairs of submedian spines about twice as long as lateral spines. Eyes ( Fig. 4A, B) triangular, cornea unpigmented, extending to the proximal third of basal segment of antennular peduncle. Antennula ( Fig. 4A, B) with peduncle and flagella well-developed. Basal segment without distolateral tooth, distal margin not developed; medioventral tooth absent; stylocerite half as long as basal segment, with distal acute tip, slightly convex lateral margin with row of small setae, median margin sinuous, proximally rather broad; distodorsal margin of basal segment with row of short setae. Intermediate segment somewhat longer than wide, distodorsal margin with few short setae. Distal segment about as long as wide. Upper flagellum slightly longer than carapace, slender; lower flagellum about 1.3 times longer than upper flagellum, slender. Antenna ( Fig. 4A, B). Basicerite of antennal peduncle with small distolateral blunt tooth; ischiocerite and mericerite normal; carpocerite cylindrical, reaching distal margin of intermediate segment of antennular peduncle; anterior lamina of scaphocerite almost reaching distal margin of distal segment of antennular peduncle, distolateral tooth distinct but small, not reaching anterior margin of lamina, lateral margin straight, anterior margin rounded. Epistome with blunt anterior median carina; labrum oval. Paragnath small, alae small, oblique rectangular, distomedial margin with row of setae; corpus small, unarmed. Second to eighth thoracic sternites narrow, without special features. Mandible ( Fig. 4D) with short incisor process terminating in some irregular teeth and small denticles; bristle of long setae between incisor and molar process; molar process distally concave with rows of very short setae forming transverse ridges.   FIGURE 2.Stygobiont  Halocaridinides socotraensis  sp. nov., adult ovigerous female habitus (A–B) from stagnant pools near the entrance of Erher Cave, Socotra Island.   FIGURE 3.  Halocaridinides socotraensis  sp. nov., Erher Cave, SEM micrographs of an adult non ovigerous female from stagnant pools in Ehrer Cave (nr. E20); A, Habitus adult female; B, rostrum; C, chela; D, uropod, dorsal view, with diagnostic feature for the species, the uropodal diaeresis bearing only one spine (arrow); E–F, details of the telson. Maxillula ( Fig. 4E) upper lacinia broad rectangular with two rows of strong spines medially; lower lacinia broadly rounded medially, with anterior lobe, with one submarginal row of short setae and several marginal rows of simple and serrate setae; palp distally bilobed with two subdistal simple setae. Maxilla ( Fig. 5A) with basal endite well developed, bilobed; distal lobe much smaller than broad proximal lobe, with row of slender setae and few spines along distal and medial margin, distalmost spines distally serrate; median margin of proximal lobe with many rows of moderately long, slender, distally serrate setae; coxal endite semicircular, fringed by row of many slender setae along median margin; scaphognathite with narrow posterior lobe and broad anterior lobe, anterior lobe as long as distal lobe of basal endite; palp simple, short, subdistal seta not observed. First maxilliped ( Fig. 5B) with small coxal endite with few plumose setae; basal endite long with rows of simple setae on ventral surface and row of long grid setae along median margin; caridean lobe well developed, flagellum short, both fringed by plumose setae; palp as long as caridean lobe, broad, fringed by simple setae distally. Second maxilliped ( Fig. 5C) with dactylar segment triangular, median margin with long serrate setae; anterior medial margin of propodal segment produced with row of long robust setae medially; carpal segment short; meral segment with few long plumose setae medially; ischial and basal segments fused, with long plumose setae along medial margin, long plumose seta proximolaterally; exopod well developed, slightly broadened proximally with few long simple setae proximally and long plumose setae distally; coxal segment with oblong triangular epipod, without podobranch.   FIGURE 4.  Halocaridinides socotraensis  sp. nov., Ehrer Cave: A–C, male paratype pocl. 4.1mm (nr. E61); D-E, male holotype pocl. 3.9mm (nr. E19). A, anterior appendages, lateral aspect; B, idem, dorsal aspect; C, telson and uropods; D, mandible; E, maxillula. Scale A–C = 1mm; C, D = 0.6mm. Third maxilliped ( Fig. 5D) pediform, exceeding antennal scale by ultimate segment; ultimate segment slightly shorter than penultimate segment, with one stout terminal spine and about 5 subterminal spines, with several transverse rows of strong serrate setae on medial surface; penultimate segment as long as ischiomeral segment, with row of 7 strong spines along medial margin; ischiomeral segment fused to basal segment, slightly broader than penultimate segment, with pair of long plumose setae proximomedially; exopod well developed, reaching exceeding distal margin of ischiomeral segment, with simple and plumose setae distally; coxal segment with epipod laterally and patch of plumose setae medially. Branchial formula as follows ( Table 1):   TABLE 1.Branchial formula of  Halocaridinides socotraensis sp. nov.    maxillipeds pereiopods  1 2 3 1 2 3 4 5  pleurobranchs - - - 1 1 1 1 -  arthrobranchs - - - - - - - -  podobranchs - - - - - - - -  epipods - 1 1 1 1 1 - -  setobranchs - - - 1 1 1 1 -  exopods 1 1 1 - - - - -   FIGURE 5.  Halocaridinides socotraensis  sp. nov., Ehrer Cave: male holotype pocl. 3.9mm (nr. E19). A, maxilla; B, first maxilliped; C, second maxilliped; D, third maxilliped. Scale A–C = 0.6mm; D = 1.5mm. Pereiopods. Epipods on the pereiopods are straplike grabbing the single very long robust setobranch of the next pereiopod. First pereiopod ( Fig. 6A) with chelae short and broad, fingers about three times as long as palm; tips of fingers with tufts of long brush-like setae; carpus 1.5 times as long as chela, distally broad, deeply excavate; merus shorter than carpus, unarmed; ischium slightly shorter than merus, unarmed; basis short; coxa with strap-like epipod and long single setobranch. Second pereiopod ( Fig. 6B) longer and more slender than first pereiopod; chalae as in first pereiopod; carpus twice as long as chela; merus 0.5 times as long as carpus; ischium slightly shorter than merus; basis and coxa as in first pereiopod. Third pereiopod ( Fig. 6C, D) with dactylus with 6 spinules along flexor margin of corpus; propodus 3 times as long as dactylus with 11 spinules along ventral margin; carpus 0.85 times propodus length, with 6 spinules along ventral margin; merus straight, slightly longer than propodus, with one spine at proximal fourth of length; ischium slightly less than half length of merus, unarmed; basis and coxa as in first pereiopod. Fourth pereiopod ( Fig. 7A, B) with dactylus with 7 spinules along flexor margin of corpus; propodus 3 times as long as dactylus with 11 spinules along ventral margin; carpus 0.75 times propodus length, with 5 spinules along ventral margin; merus straight, as long as propodus, with two spines at half and proximal fourth of length; ischium and basis as in first pereiopod; coxa without epipod, with setobranch. Fifth pereiopod ( Fig. 7C, D) with dactylus with row of 16 spinules along flexor margin of corpus; propodus with many small spines along ventral margin; propodus 4 times as long as dactylus with about 14 spinules along ventral margin; carpus 0.6 times propodus length, unarmed; merus straight, 0.8 times propodus length, with one spine in proximal fifth of length; ischium and basis as in first pereiopod; coxa without epipod nor setobranch. First pleopod ( Fig. 7E) with endopod as long as exopod, narrowing distally, with blunt tip, without setae. Second pleopod ( Fig. 7F) with appendix masculina slightly more than half as long as appendix interna, triangular, with basis broad, tapering distally, with setae along its entire median margin.   FIGURE 6.  Halocaridinides socotraensis  sp. nov., Ehrer Cave, male holotype, pocl. 3.9mm (nr. E19). A, first pereiopod; B, second pereiopod; C, third pereiopod; D, idem, dactylus. Scale A–C = 1.5 mm; D = 0.15 mm.   FIGURE 7.  Halocaridinides socotraensis  sp. nov.,Ehrer Cave, male holotype, pocl. 3.9mm (nr. E19). A, fourth pereiopod; B, idem, dactylus; C, fifth pereiopod; D, idem, dactylus; E, first pleopod; F, second pleopod. Scale A, C = 1.5mm; B, D = 0.15mm; E, F = 0.6mm. Uropods ( Fig. 4C) with short unarmed protopodite; exopod overreaching telson with half of distal lamina, distolateral tooth strong, only one strong mobile spine at diaeresis; endopod overreaching telson, slightly shorter than exopod. Ovigerous females (specimens nr E21, E56–57, E67) with small clutches of 10– 15 eggs; eggs relatively large, 1.0 x 1.5mmin size. See Figs. 2–3for general female morphologies.  Size.Ehrer Cave: postorbital carapace length (pocl) in largest ovigerous females is 4.06mm; pocl in largest non-ovigerous female is 5.50mm; pocl in largest male is 4.09mm; pocl of smallest male is 2.97mm; most males and females with pocl between 3 and 4 mm. Fosreher Cave: pocl of largest non-ovigerous female is 3.75mm; pocl of only male is 3.69mm. Ghiniba Cave: pocl of two non-ovigerous females respectively 4.38 and 3.06mm.  Live colouration.The specimens are a uniform milky white to beige ( Fig. 2A). Eggs in females white to yellow.   Etymology.The new species was named after SocotraIsland ( Yemen), its typelocality.  Morphological variation.The most striking variation (or cryptic speciation?) is found in the robustness of the first and second chelipeds. Differences in both the robustness of the segments of the chelipeds and of the chelae itself are present. The variation covers a relatively continuous range ( Fig. 11) and the two extremes at both ends of the morphometric spectrum are: 1) tenuis type( Figs. 2–7), specimens with slender P1 and P2 and with chela with the fingers 2–3 times the palm length, and the chela 3-5 times longer than the palm height, the fingers are usually gaping, the carpus is long and relatively narrow distally. Bristles on the propodus are relatively long, the longest about two thirds of the propodus length ( Fig. 6A); 2) robustus type( Figs. 8–10), robust chela with fingers about as long as the palm, and the chela 2.0–2.5 times the palm height, the fingers are not gaping, the carpus is short and relatively broad distally. Bristles on the propodus are relatively shorter, up to half the propodus length (fig. 10A). These two typeshave no taxonomical value at this point. There has been no correlation found of these typeswith either sex or size of the specimens ( Table 2; Fig. 11). Animals with both slender and robust chelae were found in Erher Cave in stagnant pool and waterfall localities, as well as in Fosreher Cave and Ghiniba Cave. Other features are rather constant. The number of mobile spines at the uropodal diaeresis is always one. The position of the proximal dorsal pair of spines on the telson is between 0.5 and 0.6 of the telson length, that of the distal pair 0.7–0.8. Only few specimens have the distal pair somewhat closer to the distal margin ( Fig. 9A).   FIGURE 8.  Halocaridinides socotraensis  sp. nov.,subterranean river in Ghiniba Cave, female, pocl. 3.1mm (nr. G01). A, habitus, lateral aspect; B, anterior appendages, lateral aspect; C, idem, dorsal aspect. Scale A = 2 mm; B, C = 1 mm.   FIGURE 9.  Halocaridinides socotraensis  sp. nov., subterranean river in Ghiniba Cave, female, pocl. 3.1mm (nr. G01). A, telson and uropods; B, mandible; C, maxillula; D, maxilla; E, first maxilliped; F, second maxilliped; G, third maxilliped; H, idem, median aspect. Scale A = 1mm; B–H = 0.6mm. All female specimens have short forward-directing spinules placed on the flexor margins of the dactyli of the third, fourth and fifth pereiopods and short spines on the distoventral margin of the propodi ( Fig. 10D, F). Most males (n=20) have long spinules placed perpendicular on the corpus and long spines on the distoventral margin of the propodi as well. The other males (eight) have these features as in the females. These morphological differences in males are not correlated with size nor with location. The length of the appendix masculina ranges from 0.5–1.5 times the length of the appendix interna. There is no relation between the size of the appendix masculina with that of the appendix interna and the variation in dactylar morphology in males.   TABLE 2.Cheliped morphometrics of collected specimens. All measurements in mm. Pocl, postorbital carapace length; f, female; fov, ovigerous female; m, male; P1, first pereiopod/cheliped; P2, second pereiopod/cheliped; d, damaged specimen; m, pereiopod missing.    P1carpus P1 chela P1 fingers P2 carpus P2 chela P2 fingers  code pocl. mm gender length height length height length length height length height length  E01 3,75 f m m m m m m m m m m  E02 3,97 f m m m m m 1,76 0,33 1,10 0,33 0,86  E03 3,34 f 1,11 0,37 0,95 0,37 0,47 m m m m m  E04 d f m m m m m m m m m m  E05 d f m m m m m m m m m m  E06 d f m m m m m m m m m m  E07 d f m m m m m m m m m m  E08 d f m m m m m m m m m m  E09 d f m m m m m m m m m m  E10 3,40 f m m m m m m m m m m  E11 d f m m m m m m m m m m  E12 d f m m m m m m m m m m  E13 3,81 m m m m m m m m m m m  E14 3,25 m m m m m m m m m m m  E15 3,81 f m m m m m m m m m m  E16 2,34 f m m m m m m m m m m  E17 3,88 f m m m m m m m m m m  E18 d f m m m m m m m m m m  E19 3,91 f m m m m m m m m m m  E20 3,50 f m m m m m m m m m m  E21pop1 3,50 fov 1,11 0,27 0,87 0,24 0,71 m m m m m  E22pop1 5,50 f 1,27 0,46 1,25 0,53 0,59 2,06 0,37 1,22 0,53 0,71  E23pop1 3,34 m 0,98 0,25 0,79 0,27 0,59 1,51 0,24 0,87 0,27 0,71  E24pop1 3,31 m 0,94 0,38 0,97 0,59 0,48 1,27 0,32 0,97 0,54 0,57  E25pop1 3,34 m 1,11 0,24 0,72 0,25 0,56 m m m m m  E26pop1 3,12 m 0,97 0,27 0,60 0,25 0,41 1,48 0,25 0,76 0,21 0,59  E27pop1 3,28 m 0,78 0,37 0,87 0,48 0,49 1,21 0,30 0,95 0,43 0,46  E28pop1 3,84 m 0,90 0,37 0,89 0,43 0,41 1,13 0,24 0,84 0,40 0,57  E29pop1 3,75 m 1,11 0,24 0,79 0,32 0,52 1,75 0,22 0,94 0,28 0,62  E30pop1 3,03 m 0,87 0,22 0,71 0,21 0,48 1,33 0,19 0,76 0,21 0,49  E31pop1 3,09 m m m m m m m m m m m  E32pop1 d f 1,27 0,24 1,00 0,22 0,75 m m m m m  E33pop1 3,28 f 1,00 0,30 0,89 0,34 0,63 1,75 0,27 0,84 0,27 0,70  E34pop1 3,50 m 1,00 0,27 0,78 0,25 0,63 m m m m m  E35pop1 3,63 f m m m m m m m m m m  E36pop1 3,51 m 0,95 0,40 0,97 0,48 0,48 1,40 0,32 0,96 0,40 0,47  E37pop1 3,64 f 1,06 0,46 1,16 0,52 0,51 1,60 0,32 1,13 0,51 0,57  E38pop1 d m 1,00 0,35 1,00 0,41 0,50 1,59 0,30 0,94 0,38 0,46  ......continued on the next page   Distribution. SocotraIsland, Yemen. Found in four localities ( Fig. 1): northwest (Fosreher Cave in the Maleh or Ma’alah Plateau), north central (coastal well near Qadub), northeast (Erher Cave in the northern escarpments of the Momi Plateau) and south central (Ghiniba Cave in the Shibehon Plateau). Most common in Erher Cave.   Ecology.Subterranean freshwater and slight brackish environments in limestone karst. In Erher, populations were found in three separate locations in the cave: large densities were found in temporary shallow stagnant muddy pools near the entrance that were created by overflow during the rainy seasons. The pools near the entrance receive some light from the cave entrance, yet animals remained unpigmented, and bright white. Lower densities in the clear, shallow permanent water were found in Erher Cave at the base of the large waterfall (creating a strong flow; this can be seen as riverine) and only few animals in the clear, deep permanent lake (end basin) at the end of the cave (no flow). The water in Erher derives from the Momi plateau above and is fresh, measuring between 400–600 µS/cm (256–384 ppm) and a pH of 7.6–7.8. The waterfall is used as local water source ( De Geest & Van Damme 2006), transporting water through tubes to the nearby village (Irisseyl). In Ghiniba Cave only two specimens were found in flowing water in the large and clear permanent cave river at the end of the dry section of the cave in the main gallery. The river in Ghiniba contains freshwater of the same low conductivity as in Erher. Conductivity of the water in Fosreher Cave was not measured, yet this can be considered as freshwater as well and was used as drinking water by the team (not brackish in taste). Only few animals (eight) were found in the latter locality, which like Ghiniba functions as a sump for the runoff from the surrounding plateau. Water in the coastal well (near Qadub) was slightly brackish (4200 µS/cm, corresponding to ca. 2690 ppm) and near neutral pH (7.5), here only one specimen was found. Reproductive biology not studied, ovigerous females have large egg clutches containing many white to bright yellow eggs.   Remarks. The new species differs from  H. trigonophthalmain having only one spine at the uropodal diaeresis in all specimens while  H. trigonophthalmahas 1–9 spines ( Fujino & Shokita 1975, Naruse et al.2003, present material); in the strongly reduced rostrum, in the absence of pigmentation in the eye; in the appendix masculina becoming not longer than 1.5 times the length of the appendix interna while more than three times as long in  H. trigonophthalma(present material).  H. socotraensis  sp. nov.differs from  H. fowleriin having only one spine at the uropodal diaeresis in all specimens while  H. fowlerihas a variable number of 1–3 spines there. In H. fowlerithe rostrum is acute in lateral aspect whereas it is blunt in the new species. The endopod of the first pleopod in males of the new species is almost as long as the exopod and devoid of marginal setae while in the only male specimen known of  H. fowleriit is half as long as the exopod bearing several setae along the median margin. The recently described genus from Madagascar,  Monsamnis Richard, De Grave & Clark, 2012also has only a single spine in the uropodal diaeresis ( Richard et al.2012), like the new species of  Halocaridinidesfrom Socotra. However, in  Monsamnisall pereipods have exopods (fifth reduced), whereas in  Halocaridinidesexopods are absent on all pereiopods.  Monsamnisis known from freshwater mountain streams on Madagascar. 1852084087 RMNH Yemen Ehrer Cave 250 12.55015 Material 1 54.4599 Socotra Island 3 244 1 1 holotype 1852084091 2004-01-02 RMNH E. Claes Yemen 395 12.433695 Ghiniba Cave 1 53.936527 3 244 1 holotype 1852084089 2004-01-09 CRUS L. Vernaeve Yemen 12.637472 Near Qadub 1 53.957558 3 244 1 holotype 1852084090 RMNH Comparative 3 244 3 1852084094 [244,1431,834,859] CRUS Japan 6 Akasaki-do 3 244 1 1852084088 CRUS Ryukyu Islands, N Japan Yoron Island 3 244 1 1852084092 [1098,1433,981,1006] CRUS Palau Palau Distict 3 244 1 1852084095 1980-07-14 ZMA J. A. Maciolek. Micronesia 6.9122224 Angaur 21 13.805555 3 244 1 1 Angaur 1852084093 1983-09-12 CRUS P. Beron & V. Beshkov. Tanzania Makunduchi Pango Managola 3 244 1 Zanzibar