Two new bivalves from chemosynthetic ecosystems

In two new lead-authored publications in Venus (Journal of the Malacological Society of Japan), we described two new bivalves from chemosynthetic ecosystems of the Western Pacific. One of them is a large vesicomyid clam ‘Calyptogenamarissinica Chen, Okutani, Liang & Qiu, 2018 from a methane seep in the South China Sea, and the other is Thermomya sulcata Chen, Okutani, Watanabe & Kojima from a vent in southern Mariana Trough, which is the first cuspidariid found in any chemosynthetic ecosystems.

The two new species:

‘Calyptogena’ marissinica Chen, Okutani, Liang & Qiu, 2018
VESICOMYIDAE
-1372m, Taken by ROV Haima, From ‘Haima’ methane seep, Off southern Hainan Island, Northern sector of the South China Sea, 146.9mm, Paratype #1 (NSMT-Mo 79001)
Known only from the ‘Haima’ hydrocarbon seep in the South China Sea, ‘Calyptogena’ marissinica is a large vesicomyid clam with an average shell length of about 150mm and the largest specimens exceeding 210 mm. It probably relies on endosymbiotic bacteria living inside cells of its much enlarged gills like other vesicomyids, although this warrants further research to confirm. It lives in clusters or colonies and is usually positioned half-buried in mud. Like all large vesicomyid clams, the periostracum is lighter in colouration and more glossy in young individuals. Although a little-varied species, the proportional position of umbo varies slightly among individuals even from the same colony, and the radial ridge running from the umbo to the postero-ventral corner is stronger in younger individuals. It seems to be closely related to ‘Calyptogena’ similaris from the Nankai Trough, Japan, which is far more elongate and with a more concave ventral margin. Calyptogena nanshaensis Xu & Shen 1991 is the only other large vesicomyid reported from the South China Sea, but it clearly differs from ‘C.’ marissinica in hinge morphology as well as having a straight dorsal margin, a bluntly acute posterior end, and also being much smaller in size (only up to 70 mm shell length).

Thermomya sulcata Chen, Okutani, Watanabe & Kojima, 2018
CUSPIDARIIDAE
-2849m, Snail site (12°57.189’N 143°37.166’E), Southern Mariana Trough, Leg. Shigeaki Kojima during DSV Shinkai 6500 Dive #1228 on-board R/V Yokosuka cruise YK10-11, 2010/ix/14, 8.1mm, Holotype (NSMT-Mo 78997)
Thermomya sulcata is the first ever Recent cuspidariid bivalve to be recovered from deep-sea hydrothermal vents or any chemosynthetic ecosystems, and is a handsome species characterised by a compressed, blunt rostrum and sharply raised commarginal ribs on the shell discs. Such upturned and sharp commarginal ribs are unusual among cuspidariids, and the monotypic genus Thermomya was erected to house this species. Furthermore, it is also the first member of the superorder Anomalodesmata to be found at deep-sea vents. So far only known from two specimens taken by the manned submersible DSV Shinkai 6500 from the 2849 m deep Snail hydrothermal site in the Southern Mariana Trough, but it is likely more widely distributed in the periphery of western Pacific vents where small burrowing animals are easily overlooked. It is most likely a carnivorous bivalve like other cuspidariids, using internally generated suction forces to hunt small crustaceans. The two known specimens are 8.1 mm (holotype) and 5.5 mm (paratype) in shell length. Prof. Okutani gave it an elegant Japanese name: “Yume-no-syakushi-gai”, literally meaning “Ladle Shell From Dreams”. This is in reference to the Japanese name, “Yume-Hamaguri” (= “Dream Clam”), of the famously beautiful and rare deep-water venerid clam Circomphalus hiraseanus (Kuroda, 1930) which is also characterised by sharply upturned commarginal ribs and a relatively small size within its family.