MolluscaBase source details

Goto, R.; Hamamura, Y.; Kato, M. (2011). Morphological and ecological adaptation of Basterotia bivalves (Galeommatoidea: Sportellidae) to symbiotic association with burrowing echiuran worms. Zoological Science. 28 (3): 225-234.
150548
10.2108/zsj.28.225 [view]
Goto, R.; Hamamura, Y.; Kato, M.
2011
Morphological and ecological adaptation of <i>Basterotia</i> bivalves (Galeommatoidea: Sportellidae) to symbiotic association with burrowing echiuran worms
Zoological Science
28 (3): 225-234
Publication
World Polychaeta Database (WPolyDb)
Available for editors  PDF available [request]
The burrows created by benthos in tidal flats provide various habitats to other organisms. Echiuran burrows are unique among these in being persistently disturbed by the host’s undulating activity, but little is known on how symbionts adapt to such a unique habitat. We report here the morphological and ecological adaptation by two bivalve species of Basterotia (Sportellidae), including one new species, which are commensals with burrowing echiuran worms. The burrows of Ikedosoma gogoshimense were inhabited by Basterotia gouldi at intertidal gravelly mud flats in the central Seto Inland Sea, whereas those of Ochetostoma erythrogrammon were inhabited by Basterotia carinata n. sp. at an intertidal gravelly coral-sand flat at Amami-Ohshima Island. Both bivalve species were found embedded in the burrow wall with their posterior inhalant and exhalant apertures gaping to the burrow lumen, suggesting that they utilize the water currents created by host echiurans. The posteriorly robust, laterally inflated shell with developed carina is considered an adaptation to symbiotic life, as it is exposed to pressure caused by the host’s persistent undulating activity. Females of Basterotia bivalves were larger than males, suggesting size-dependent sex change, and possessed brooded veligers in the ctenidium. Our findings suggest that species-specific intimate association with echiurans may be widespread among the Sportellidae bivalves, whose biology remains poorly understood.
Japan
Associations, Symbiosis, Commensalism (parasitism see *PAR)
Community, Assemblages, Competition
RIS (EndNote, Reference Manager, ProCite, RefWorks)
BibTex (BibDesk, LaTeX)
Date
action
by
2013-01-12 18:30:12Z
created
db_admin
2015-10-04 14:14:04Z
changed
2018-11-14 20:08:08Z
changed
2021-07-26 07:32:48Z
changed

This service is powered by LifeWatch Belgium
Learn more»
Website and databases developed and hosted by Flanders Marine Institute · Page generated on 2024-11-22 09:31:24+01:00  · Contact: Data Management Team