Geosesarma mirum, Shy, Jhy-Yun & Ng, Peter K. L., 2019
publication ID |
https://dx.doi.org/10.3897/zookeys.858.35198 |
publication LSID |
lsid:zoobank.org:pub:88BC2F37-ABAE-4837-8C2A-C3D964B3E963 |
persistent identifier |
https://treatment.plazi.org/id/60FAAFB1-8BC8-416C-AF80-295A6EEA45D0 |
taxon LSID |
lsid:zoobank.org:act:60FAAFB1-8BC8-416C-AF80-295A6EEA45D0 |
treatment provided by |
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scientific name |
Geosesarma mirum |
status |
sp. nov. |
Geosesarma mirum View in CoL sp. nov. Figures 1 View Figure 1 , 2 View Figure 2 , 3 View Figure 3 , 4 View Figure 4 , 5 View Figure 5
Material examined.
Holotype: TAIWAN - male (11.9 x 10.8 mm); Chiayi County, Jhongpu, Lunziding Canal; 23.44914N 120.48227E; 28 Jan. 2019, leg. J.-Y. Shy; under rocks near stream; NTOU F10395. Paratypes: TAIWAN - 3 males (11.5 x 10.3 mm, 10.1 × 8.9 mm, 9.9 × 8.7 mm), 5 females (12.2 × 10.1 mm, 10.6 × 9.2 mm, 9.9 × 8.9 mm, 9.1 × 7.7 mm, 7.9 × 7.2 mm), 1 juvenile female (6.6 × 5.7 mm); same data as holotype; ZRC 2019.0513. 2 males (9.9 × 8.6 mm, 8.4 × 7.3 mm); Chiayi County, Jhongpu, Chilan River; 23.43744N 120.48917E; 21 Febr. 2019, leg. J.-Y. Shy; NTOU F10396. 1 male (11.5 x 9.8 mm); Chiayi County, Jhongpu, branch of Chilan River; ca. 23.43744N 120.48917E; 22 March 2019; leg. J.-Y. Shy; NTOU F10397. 7 males (7.8 x 6.5 mm - 12.2 x 11.2 mm), 5 females (9.3 x 7.8 mm - 11.4 x 10.0 mm), same locality as holotype; 23 March 2019; leg. J.-Y. Shy & H.-T. Lai; ZRC 2019.0514.
Diagnosis.
Carapace quadrate, slightly wider than long or subequal, adult width to length ratio 1.10-1.21, lateral margins gently sinuous, gently diverging posteriorly ( Fig. 2A, B View Figure 2 ); dorsal surface with regions visible, anterior regions with small rounded granules on gastric regions, branchial regions with numerous striae ( Fig. 2A, B View Figure 2 ); front distinctly deflexed, frontal lobes broad, with subtruncate margins in dorsal view; postfrontal, postorbital cristae prominent, rugose ( Fig. 2 A–C View Figure 2 ); external orbital tooth triangular to subtruncate, directed obliquely laterally, outer margin convex, shorter than inner margin, tip reaching lateral margin; second lateral tooth low, rounded, separated from external orbital tooth by deep notch ( Fig. 2A, B View Figure 2 ). Merus of third maxilliped subovate, subequal to ischium; exopod slender, reaching to just before edge of merus, with long flagellum ( Fig. 4A View Figure 4 ). Merus of cheliped with low ventral lobe with serrated margin, upper lobe relatively lower. Outer surface of palm of adult male covered with small rounded granules and striae; inner surface granulated, with distinct, high transverse granulated ridge; dorsal margin of dactylus with 11 or 12 low, non-chitinous tubercles on proximal two-thirds ( Fig. 3 View Figure 3 ). Ambulatory legs with relatively stout, short merus, with sharp subdistal spine on dorsal margin, surfaces rugose ( Fig. 1A View Figure 1 ). Part of male thoracic sternite 8 exposed when pleon closed. Male pleonal locking mechanism formed by expanded posterior edge of thoracic sternite 4. Male pleon triangular; somite 6 wide, with convex lateral margins; telson triangular, not recessed into distal margin of somite 6, margins convex ( Figs 2D View Figure 2 , 4B View Figure 4 ). G1 relatively long, stout, gently curved outwards; outer margin of subdistal part of subterminal segment with subangular shelf-like structure ( Fig. 4C, D View Figure 4 ), distal chitinous part broad, tip spatuliform, margin uneven ( Fig. 4 C–K View Figure 4 ). G2 short, ca. a third length of G1 ( Fig. 4L View Figure 4 ).
Etymology.
The name is derived from the Latin for “surprise”, alluding to the unexpected discovery of this species in Taiwan.
Remarks.
Geosesarma mirum sp. nov. belongs to the group of species which have large eggs (ca. 1.0 mm or greater in diameter, measured in situ), the carapace is trapezoidal to subquadrate, the ambulatory meri are relatively short and stout, the exopod of the third maxilliped has a long flagellum, the inner surface of the male chela has a strong granulated transverse ridge and the G1 is relatively stout with the distal chitinised part spatuliform. The species in this group are: G. amphinome (De Man, 1899) [western Borneo], G. peraccae (Nobili, 1903) [Singapore and Peninsular Malaysia], G. penangense (Tweedie, 1940) [Penang, Peninsular Malaysia], G. sarawakense ( Serène, 1968) [Sarawak, Borneo] and G. pylaemenes Ng, 2015 [western Borneo]. Geosesarma mirum can be distinguished from these species mainly by the distinctive form of its G1. Compared to G. amphinome , the distal chitinised part of the G1 of G. mirum is distinctly shorter and the tip is not bilobed (cf. Ng 2015: fig. 1A, B, 2A, G–K). Compared to G. peraccae , the G1 of G. mirum is stouter overall with the chitinous part proportionately much shorter (cf. Ng 1988: fig. 56A, D–F; Ng 2015: fig. 5A, B). The G1 of G. mirum differs from that of G. penangense in having the distal part gently curved rather than strongly bent, with the ambulatory leg merus proportionately stouter (cf. Ng 1988: fig. 58A, D, E). When compared to G. sarawakense , the carapace of G. mirum is distinctly more granulated and rugose, with the G1 proportionately stouter and shorter ( Ng 2015: figs 6A, B, 7 D–F). In contrast to G. pylaemenes , the external orbital tooth of G. mirum is more acute and the G1 is relatively stouter (cf. Ng 2015: fig. 3A, B, 4 D–G).
In Taiwan and other parts of the Indo-West Pacific, Geosesarma mirum can be confused with species of Scandarma Schubart, Liu & Cuesta, 2003 (type species Scandarma lintou Schubart, Liu & Cuesta, 2003), and Pseudosesarma Serène & Soh, 1970 (type species Sesarma edwardsii De Man, 1887) because in these genera, the male chelipeds do not have pectinated ridges on their chelae and there are no stridulatory granules on the dorsal margin of the dactylus. Geosesarma mirum can be easily distinguished from species of Scandarma as the outer surface of the male chela does not have a distinct swelling and the G1 is very short and stout (see Schubart et al. 2003; Naruse and Ng 2007; Ng 2013; Naruse and Ng 2019). From Pseudosesarma , many members of which live in freshwaters, G. mirum can be distinguished by the G1 morphology, with those of Pseudosesarma species short, very stout with the median or distal parts prominently dilated and with sharp chitinised “beaks” (see Ng and Schubart 2017).
Ecology.
Geosesarma mirum sp. nov. has a semi-terrestrial habit and has been found in small streams in lowlands, with the crabs digging burrows under stones near the edge of the water. The first author investigated 28 sites in and around the type locality of species, in the Ba-Jhang River region (total area of ca. 200 km2). Most of the sites examined were badly polluted, cemented, built over or no longer had permanent water. There were some sites with clean water but these were very close to the hills (altitude higher than ca. 100 m) but these sites only had the primary freshwater crab, Geothelphusa olea Shy, Ng & Yu, 1994 ( Potamidae ). Of the 28 sites surveyed, Geosesarma mirum was only found in six sites (in an area of ca. 4 km2). These six sites were from different branches of the river and the crabs were relatively abundant in each of these locations (sometimes more than 50 individuals/m2). From the surveys done, the species seems to have a relatively localised distribution, with some of the sites where they were found only a few dozen square metres in area, and the crabs absent from sites further upstream or downstream. This may not be the natural situation as the sites where the crabs were absent were invariably badly polluted or extensively concreted.
The development of G. mirum is direct (i.e., abbreviated), with the eggs measuring ca. 1.0 mm in diameter (specimen not preserved) ( Fig. 1C View Figure 1 ). The egg sizes of Geosesarma species average between 1.2 and 1.8 mm ( Ng 2017; Ng and Wowor 2019). Despite the slightly smaller egg size, we have observed females of G. mirum brooding young crabs under the pleon ( Fig. 1D View Figure 1 ) and it is clear that the development is completely abbreviated (see Ng and Tan 1995). This contrasts with catadromous grapsoid species like Eriocheir japonica (De Haan, 1835) ( Varunidae ) which have much smaller eggs (ca. 0.34 mm; cf. Lai et al. 1986). Their eggs, however, are still smaller than those of primary freshwater species like Nanhaipotamon formosanum (Parisi, 1916) ( Potamidae ) which have egg diameters of up to 4.0 mm (cf. Lai et al. 2012).
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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