Carcinoplax haswelli ( Miers, 1884 ) Ng & Clark & Ahyong, 2022

Ng, Peter K. L., Clark, Paul F. & Ahyong, Shane T., 2022, Fig. 9 in The Identity of (Miers, 1884) (Crustacea: Decapoda: Brachyura)., Zoological Studies 61 (6), pp. 1-16 : 2-13

publication ID

https://doi.org/ 10.6620/ZS.2022.61-06

persistent identifier

https://treatment.plazi.org/id/039587B4-FFA8-541E-98EF-FB9AFF78EF1B

treatment provided by

Felipe

scientific name

Carcinoplax haswelli ( Miers, 1884 )
status

 

Carcinoplax haswelli ( Miers, 1884) View in CoL comb. nov. ( Figs. 1–5 View Fig View Fig View Fig View Fig View Fig )

Pseudorhombila vestita var. sexdentata — Miers, 1884: 184, 240, pl. 24, fig. B.

Pseudorhombila haswelli Miers 1884: 241 .

Homoioplax haswelli View in CoL — Rathbun 1914: 146; Tesch 1918: 190, pl. 10, fig. 1; Serène 1968: 91; Davie 2002: 374; Ng et al. 2008: 189; Poore et al. 2008: 73.

Carcinoplax sinica Chen, 1984: 190 View in CoL , text-fig. 2, pl. 1, figs. 6, 10; Chen 1998: 266; fig. 3; Dai et al. 1986: 366, text-figs 190-2–190- 4, pl. 53, fig. 5; Guinot 1989: 285, figs. 12–14, pl. 5; Dai and Yang 1991: 395, text-figs. 190-2–190-4, pl. 53, fig. 5; Hsueh and Huang 2002: 119 126, figs. 8D, 11; Castro 2007: 640; Ng et al. 2008: 189; Ng and Mitra 2019: 2, figs. 4, 5, 6E–H, 7D–F, K, L, 8K–N.

Non Pilumnoplax vestita var. sexdentata — Miers 1886: xxxi, xxxvii, 229. [= Entricoplax vestita (De Haan, 1833) View in CoL ]

Non Homoioplax haswelli View in CoL — Sakai 1939: 566, pl. 102, fig. 2; Sakai 1940: 42; Miyake 1961: 74; 1991: 220; Miyake et al. 1962: 130; Sakai 1976: 540, text-fig, 287; Kikuchi and Miyake 1978: 42 [= Carcinoplax inaequalis ( Yokoya, 1933) View in CoL ].

Type material examined: Lectotype (here designated): male (10.2 × 7.3 mm) ( NHM 1882.7 About NHM ), stn No. 160, Arafura Sea , Australia, 58.5–65.8 m, coll. HMS Alert, October 1881 . Paralectotype: female (9.0 × 6.6 mm) ( NHM 1882.7), same data as lectotype.

Other material examined: 1 male (17.2 × 12.4 mm), 2 females (16.8 × 12.2 mm, 16.5 × 12.0 mm) (MNHN- IU-2017-9590), stn 2, ca. 20 km northeast of Lubang Island, Western Philippines, 187 m, 14°02.8'N 120°18.8'E, coll. MUSORSTOM 1 Expedition, 19 March 1976. 1 female (40.9 × 27.7 mm) (MNHN- IU-2014-11510), stn 6269, South China Sea, 31 m, coll. H. Chen, 13 May 1960; 1 male (31.7 × 20.9 mm) ( ZRC 2011.0607), stn 6215, sand-mud substrate, Gulf of Tonkin, South China Sea, 48 m, China-Vietnam Cooperative Expedition of Comprehensive Oceanographic Investigation on Beibu Gulf (Gulf of Tonkin) 1959–1960, trawl, coll. 18 April 1960; 1 juvenile female (30.2 × 19.3 mm) ( ZRC 2011.0609), stn 6234, muddy-sand substrate, Gulf of Tonkin, South China Sea, 30 m, China-Vietnam Co-operative Expedition of Comprehensive Oceanographic Investigation on Beibu Gulf (Gulf of Tonkin) 1959– 1960, trawl, coll. 21 April 1960; 1 male (28.5 × 19.5 mm) ( ZRC 1984.5693), near Horsburg Lighthouse, about 241.4 km off Singapore, South China Sea, coll. trawlers, H. Huat, 28 August 1983; 2 females (35.9 × 25.6 mm, 30.6 × 21.0 mm) ( ZRC 1984.6312–6313), about 48.3 km from Horsburg Lighthouse, South China Sea, off Singapore, coll. trawlers, H. Huat, 10 September 1983; 1 male (35.2 × 23.4 mm), 1 female (42.8 × 29.2 mm) ( ZRC 1984.7842–7843), Horsburg Lighthouse, South China Sea, near Singapore, coll. trawlers, H. Huat, 26 November 1982 and 15 December 1982; 1 male (34.6 × 25.0 mm) ( ZRC 1984.6314), near Horsburg Lighthouse, about 241.4 km off Singapore, South China Sea, coll. trawlers, H. Huat, 28 August 1983; 1 female (44.0 × 29.3 mm) ( ZRC 2001.0136), Tungkang, Kaohsiung County, southwestern Taiwan, coll. L.-S. Huang, 4 August 1996; 1 male (16.3 × 12.2 mm) ( NMV J55673), off Ningaloo North, 21°54'4"S 113°49'12"E to 21°59'03"S 113°49'12"E, 170–177 m, RV Southern Surveyor SS10/2005/152, coll. G. Poore, 10 December 2005.

Comparative material: Carcinoplax longimanus (De Haan, 1833) : 1 male (24.7 × 19.4 mm) (MNHN- IU-2014-11510), stn CP63, Tanimbar Island, Moluccas, 8°00'S 132°58'E, 214–215 m, Moluccas, Indonesia, coll. KARUBAR Expedition, N.O. Baruna Jaya 1, 1 November 1991; 2 males, 1 female, 1 large chela, 2 juvenile males (10.9 × 8.4 mm, 14.1 × 10.5 mm), 3 juv. females (12.9 × 9.8 mm, 13.6 × 10.5 mm, 15.0 × 10.9 mm) ( ZRC 2019.1691), stn CP37, substrate fine mud with pieces of small branches, south of Cilacap, Java, Indonesia, 8°07.462'S 109°05.639'E – 8°07.864'S 109°06.470'E, 163–166 m, beam trawl, coll. SJADES 2018, 30 March 2018; 3 males (smallest 20.6 × 15.0 mm) ( ZRC 1999.772), Dasi, Ilan County, Taiwan, coll. P.K.L. Ng and K. Lim, May 1999. Carcinoplax purpurea Rathbun, 1914: 2 males (8.5 × 6.7 mm, 13.3 × 10.3 mm), 1 female (20.0 × 15.0 mm) ( ZRC 2006.187), stn CP 2377, Dipolog Bay, 8°40.6'N, 123°20.3'E, 85–88 m, Bohol / Sulu seas, Philippines, coll. PANGLAO 2005 Deep-Sea Cruise, M/ V DA-BFAR, 28 May 2005; 1 male (16.9 × 13.3 mm) ( ZRC 2001.18), Dasi, Ilan County, Taiwan, coll. K.-X. Li, 6 November 2000. See Ng and Mitra (2019) for additional comparative material of C. purpurea and C. mistio Ng & Mitra, 2019 .

Diagnosis: Carapace transversely hexagonal, width 1.34–1.56 times length; dorsal surface gently convex, smooth, lateral surfaces with densely packed low, rounded granules, more prominent in adults; epigastric region low but visible; postorbital regions not clearly demarcated; frontal margin lamellar, truncate, bilobed with small median notch, supraorbital lobe low, not easily discernible, demarcated by groove, but not distinctly projecting laterally; anterolateral margin with first tooth low not spiniform, second tooth spiniform, long, acute, sharp, curving gently obliquely anteriorly; posterolateral margin gradually converging posteriorly or subparallel; posterior margin of epistome with prominent but low triangular median projection, separated from lateral lobe by obtuse cleft. Third maxilliped merus with anteroexternal margin auriculiform. Cheliped with dorsal margin of palm rounded, smooth; carpus mesial margin with prominent, low rounded tooth, lateral margin with small spine; merus elongate with low rounded tooth on distal onethird of dorsal margin. Ambulatory legs (P2–P5) slender, long. Thoracic sternum surface covered with numerous small, rounded, densely packed granules; sternopleonal cavity extending to about two-thirds length of sternite 4, reaching imaginary line connecting proximal part of coxae of chelipeds. Male pleon triangular, transversely broad in adults, somite 6 transversely rectangular, width 1.85 times length, lateral margins gently convex. Telson triangular with distinctly concave lateral margins. Adult G1 relatively slender, distal two-thirds with mesial margin gently concave; distal part slightly flared, laterally flattened, subtruncate; G2 longer than G1, distal article flagelliform, about three-quarters length of basal segment; vulvae ovate, large, level with surface of sternum.

Remarks: Homoioplax Rathbun, 1914 , is here considered to be a junior subjective synonym of Carcinoplax H. Milne Edwards, 1852 . Rathbun (1914) argued for a separate genus because of the slightly narrower male pleon, notably somite 3 of H. haswelli that does not cover the part of the sternum next to the P5 coxa. It is not possible, however, to confirm this character because Miers (1884) did not figure the male pleon and this structure is now missing from the type specimen. A good series of juvenile C. longimanus , C. purpurea Rathbun, 1914 , and C. sinica Chen, 1984 , however, was examined for this study including specimens similar in size to the types of H. haswelli . In juvenile Carcinoplax , the lateral edge of male pleonal somite 3 does not reach the base of the P5 coxa, leaving a small gap ( Figs. 4G View Fig , 6F View Fig , 8D View Fig ). In juveniles and adults, the edge of pleonal somite 3 almost reaches or partly overlaps the coxa ( Figs. 4H View Fig , 7C View Fig ). In juvenile females, the pleon is triangular overall with somite 3 transversely narrower, leaving a wide area of the sternum exposed ( Fig. 4F View Fig ). As such, the primary diagnostic character for Homoioplax is size-related and typical of juvenile Carcinoplax at a similar stage. In all other characters, Homoioplax corresponds to Carcinoplax ; the two genera are herein considered synonymous.

Determining which of the two juvenile NHM type specimens of Pseudorhombila vestita var. haswelli Miers, 1884 was figured by Miers (1884: pl. 24, fig. B) proved relatively straight forward even though both are now without a pleon. Enigmatically, Miers (1884: 241) referred to these two specimens as, “ one male and the other sterile”. One specimen was clearly recognised as a male by its possession of gonopods, or “verges” fide Miers (1884: 241). The base of the P5 coxa of both type specimens was examined and one was found to possess a tiny translucent papilla, which is the penis, i.e., it is a male. The other specimen, lacking the penis, would correspond to the “sterile”, specimen, and is determined here to be a juvenile female. The absence of gonopods together with a presumably narrow, juvenile pleon explains the uncertainty by Miers about the sex of the specimen. The carapace of the male is the larger (10.2 × 7.3 mm) and agrees better with the specimen figured by Miers (1884: pl. 24, fig. B). Furthermore, the right cheliped, although not shown in figure 1A, is detached but still extant. In the smaller female (9.0 × 6.6 mm), the right cheliped is larger and more swollen ( Fig. 1B View Fig ) than that figured by Miers. The male is here designated the lectotype in order to stabilize the taxonomy of this species, which is now referred to as Carcinoplax haswelli comb. nov.

The pleonal morphology of the juvenile specimens of C. haswelli comb. nov. is of interest. In the juvenile specimens identified as “ C. sinica ” from the Philippines (MNHN-IU-2017-9590), the pleon is triangular and male-like. Guinot (1989: 285) recorded all three as males, but only one is male, the other two being juvenile females. In comparison to that of the male, the pleon in the juvenile females is more acutely triangular with somite 3 narrower, exposing more of the adjacent thoracic sternum ( Fig. 4F View Fig ), the peg on sternite 5 for the pleonal locking mechanism is distinct, the vulvae are not visible but the pleopods are distinct although not setose. In the juvenile male, the pleon is wider and more obtusely triangular with somite 3 wide and reaching almost to the coxa of the walking legs ( Fig. 4G View Fig ), the peg on sternite 5 for the pleonal locking mechanism is visible, the G1 is visible but still soft and not well developed, but the penis is distinct, being present as a tube extending from the gonopore on the condyle of the P5 coxa and resting on a groove reaching to the base of the G1. The two type specimens of C. haswelli comb. nov. are juveniles, complicating taxonomic determination, more so because many species of Carcinoplax undergo substantial ontogenetic changes, with changes in carapace shape and reduction of armature, and changes in relative pereiopod length and proportions with increasing body size, for instance (see Guinot 1989). Several features present in the types of C. haswelli comb. nov., however, allow significant narrowing of closely related or conspecific species of Carcinoplax : the carapace is transversely rectangular to subhexagonal, with the posterolateral margins subparallel; the anterolateral margin has the first tooth low, with the second tooth acute and curved; the outer surface of the carpus of the cheliped has a short spine; the spine on the inner angle of the carpus of the cheliped is dorsoventrally flattened, gently curved with the tip bluntly rounded, rather than acutely sharp; and the fingers of the chelipeds are not pigmented brown or black. The combination of these features place C. haswelli comb. nov. within in a small group of species of Carcinoplax , each of which generally occupies mid to outer shelf depths: C. purpurea (17–180 m), C. sinica (25–187 m) and C. mistio Ng & Mitra, 2019 (13–49 m) ( Chen 1984; Guinot 1989; Castro 2007; Ng and Mitra 2019).

In describing C. sinica, Chen (1984: 192 , 201) examined a large series of specimens spanning a wide size range of this species as well as C. purpurea . Chen separated the two species mainly by the shape of the carapace, shape and strength of the last anterolateral spine and colour pattern of freshly collected specimens. Guinot (1989: 287) further refined the taxonomy of C. sinica , distinguishing it from C. purpurea by characters of the degree of inflation of the carapace and anterolateral armature, as well as colour in life, although the characters are best observed in adult specimens. Castro (2007) followed the assessment of Guinot in his revision of the genus. Ng and Mitra (2019) showed that specimens of C. sinica reported from the Persian Gulf ( Guinot 1989; Castro 2007; Naderloo 2017) belonged to a new species, C. mistio , and provided additional characters to separate the three species. Carcinoplax mistio is excluded from our detailed comparisons because it is known only from adults and because it is a northern Indian Ocean species, ranging from the western Bay of Bengal to the Persian Gulf ( Stephensen 1946; Guinot 1989; Naderloo 2017; Ng and Mitra 2019), which is well outside of the range of C. sinica , C. purpurea and C. haswelli comb. nov., each of which are western Pacific or southwestern Indian Ocean species occurring to the east of Singapore ( Miers 1884; Chen 1984; Guinot 1989; Castro 2007; Ng and Mitra 2019).

Given that the types of C. haswelli comb. nov. are juveniles, comparisons with allied taxa are best accomplished with specimens at a similar stage of development. Only adults of C. mistio are known, but fortunately, series of C. purpurea and C. sinica , including juveniles, were available for study. Comparisons show that C. haswelli comb. nov. and C. sinica are indistinguishable, but readily separated from C. purpurea . The carapace of juvenile P. haswelli comb. nov. and C. sinica is more transversely rectangular in shape ( Figs. 1A, B View Fig , 3A View Fig , 4A–C View Fig , 5A, B View Fig ) than the more narrowly quadrate form in C. purpurea , Fig. 6A, B View Fig ); the last anterolateral spine is prominent, directed obliquely outwards at an angle of about 45° to the longitudinal and is usually gently curved but sometimes almost straight ( Figs. 1A, B View Fig , 3A View Fig , 4A–C View Fig ) (versus spine distinctly shorter, and curved more anteriorly at an angle of about 30° to the longitudinal in C. purpurea , Fig. 6A, B View Fig ); and the supraorbital lobe is very low to almost undiscernible in juveniles ( Figs. 1A, B View Fig , 3A View Fig , 4A–C View Fig ), becoming more obvious in adults only because the fissure demarcating it is more pronounced but the lobe is still low ( Fig. 3B View Fig ) (versus there is a small but visible lateral lobe just behind the front, corresponding to a supraorbital tooth, low in juveniles in C. purpurea , Fig. 6A, C View Fig ; but more distinct in larger specimens, Fig. 6B View Fig ). These differences are also evident in the excellent figures of the juvenile specimens of C. purpurea and C. sinica by Chen (1984: figs. 1.1–4, 2.1–4). The differences in carapace shape also correlate with differences in the width to length proportions; in C. purpurea , the carapace is proportionally narrower, with a width to length ratio of 1.27–1.32 compared to 1.34–1.56 in C. sinica , and 1.40 and 1.36 for the two types of C. haswelli comb. nov. The variation in C. haswelli relates mainly to the strength of the last anterolateral tooth. In addition, the median part of the posterior margin of the epistome is often also proportionately slightly narrower and more produced in frontal view in P. haswelli and C. sinica ( Figs. 2A, B View Fig , 4E View Fig , 5C View Fig ) than in C. purpurea (versus proportionately wider and straighter, Fig. 6D View Fig ). Altogether, we could find no features to distinguish C. haswelli comb. nov. from C. sinica . Therefore, on the basis of the available evidence, C. haswelli comb. nov. ( Miers, 1884) is regarded as a senior subjective synonym of C. sinica Chen, 1984 .

Castro (2007: 640) recorded a specimen of “ C. sinica ” from the Tanimbar Islands, Moluccas, eastern Indonesia, at 215 m depth (MNHN-IU-2014-11510). This specimen, re-examined here, is considered to be a juvenile male of C. longimanus ( Fig. 7 View Fig ). In juvenile C. longimanus the first anterolateral tooth of the carapace is low, the second tooth is acute and straight or slightly curved at an angle of about 45°, the outer surface of the carpus of the cheliped has a short spine, and the spine on the inner angle of the carpus of the cheliped is dorsoventrally flattened ( Figs. 7A View Fig , 8A View Fig , 9 View Fig ). The inner carpal spine of the cheliped of C. longimanus is usually sharp and more strongly curved than in C. purpurea , C. sinica or C. mistio , with the tip sharp and turned outwards ( Figs. 7A View Fig , 8A View Fig , 9 View Fig ). In addition, even in juvenile specimens of C. longimanus , the carapace is more trapezoidal, with the posterolateral margin distinctly converging posteriorly ( Figs. 7A View Fig , 8A View Fig , 9 View Fig ). The form of the posterior margin of the epistome is also quite different, even in small specimens; in C. purpurea , C. sinica and C. mistio , the median lobe is separated from the lateral lobes by an obtuse cleft ( Figs. 4E View Fig , 5C View Fig , 6D View Fig ) but in C. longimanus , the median lobe is also demarcated from the lateral parts by a distinctly more acute cleft ( Figs. 7D View Fig , 8C View Fig ). As such, C. longimanus , even as a juvenile, is significantly different from C. haswelli comb. nov.

With the record of C. sinica by Castro (2007) from the Tanimbar Islands corrected to C. longimanus , remaining published records of C. sinica do not extend south of eastern Singapore ( Ng and Mitra 2019). Nevertheless, with the synonymy of C. sinica and C. haswelli comb. nov., the range of latter is now known to extend from southern Taiwan and the Philippines, through the South China Sea, northern Vietnam, the eastern waters of Singapore to the Madura Straits in eastern Java and from northern Australia between Ningaloo Reef and the Arafura Sea; 25–187 m, usually less than 100 m ( Miers 1884; Tesch 1918; Chen 1984; Guinot 1989; Castro 2007; Poore et al. 2008; Ng and Mitra 2019). Most records of C. sinica are from the central South China Sea, with only scattered records from peripheral and more southern localities. In particular, the paucity of records in the southern Indo- Malayan archipelago probably reflects limited sampling effort at mid to outer shelf depths.

Across northern Australia, southern Papua New Guinea and in the vicinity of the type locality of C. haswelli comb. nov., two other species of Carcinoplax are known: C. longimanus and C. purpurea (cf. Guinot 1989; Castro 2007; unpublished data). Both of these species are readily distinguished from C. haswelli comb. nov. by features discussed earlier. Two other species, previously placed in Carcinoplax , have also been reported: Pycnoplax bispinosa ( Rathbun, 1914) and Menoplax longispinosa ( Chen, 1984) ( Guinot 1989; Castro 2007; Farrelly and Ahyong 2019). The latter two species, having an extremely sharp inner carpal spine of the chelipeds, are unlikely to be mistaken for C. haswelli comb. nov. which has a blunt, inner carpal lobe.

HMS

Embrapa Gado de Corte

NHM

University of Nottingham

ZRC

Zoological Reference Collection, National University of Singapore

NMV

Museum Victoria

RV

Collection of Leptospira Strains

V

Royal British Columbia Museum - Herbarium

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Goneplacidae

Genus

Carcinoplax

Loc

Carcinoplax haswelli ( Miers, 1884 )

Ng, Peter K. L., Clark, Paul F. & Ahyong, Shane T. 2022
2022
Loc

Carcinoplax sinica Chen, 1984: 190

Ng PKL & Mitra S. 2019: 2
Ng PKL & Guinot D & Davie PJF 2008: 189
Castro P. 2007: 640
Hsueh P-W & Huang J-F. 2002: 119
Chen H. 1998: 266
Dai A-Y & Yang S-L. 1991: 395
Guinot D. 1989: 285
Dai A-Y & Yang S-L & Song Y-Z & Chen G-X. 1986: 366
Chen HL 1984: 190
1984
Loc

Homoioplax haswelli

Miyake S. 1991: 220
Kikuchi T & Miyake S. 1978: 42
Sakai T. 1976: 540
Miyake S & Sakai K & Nishikawa S. 1962: 130
Miyake S. 1961: 74
Sakai T. 1940: 42
Sakai T. 1939: 566
1939
Loc

Homoioplax haswelli

Ng PKL & Guinot D & Davie PJF 2008: 189
Poore GCB & McCallum AW & Taylor J. 2008: 73
Davie PJF 2002: 374
Serene R. 1968: 91
Tesch JJ 1918: 190
Rathbun MJ 1914: 146
1914
Loc

Pseudorhombila vestita var. sexdentata

Miers EJ 1884: 184
1884
Loc

Pseudorhombila haswelli

Miers EJ 1884: 241
1884
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