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Yonginella, a new bivalve (Mollusca) from the Silurian of Gotland

Published online by Cambridge University Press:  14 July 2015

Louis Liljedahl
Louis Liljedahl*
Affiliation:
Department of Historical Geology and Palaeontology, Sölvegatan 13, S-223 62 Lund, Sweden
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Abstract

A new bivalve, Yonginella amica n. gen. and sp., is described from the Silurian of Gotland. Although it has a straight hinge line with cardinal and lateral teeth indicating relationship with the Cyrtodontidae of the Arcoida, its external morphology (with a conspicuous diagonal ridge and sulcus) differs considerably from all previously described taxa of this group. Yonginella amica exhibits a shell shape suitable for soft muddy bottoms (“snowshoe” adaptation), and is interpreted to have been a nonsiphonate suspension feeder with a semi-infaunal, byssate mode of life.

Type
Research Article
Information
Journal of Paleontology , Volume 66 , Issue 2 , March 1992 , pp. 211 - 214
Copyright
Copyright © The Paleontological Society 

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References

Angelin, N. P., and Lindström, G. 1880. Fragmenta Silurica e dono Caroli Henrici Wegelin. Samson & Wallin, Stockholm, 39 p.Google Scholar
Beurlen, K. 1944. Beiträge zur Stammensgeschichte der Muscheln. Bayerische Akademie Wissenschaft, Sitzungsberichten, 1–2:133145.Google Scholar
Cherns, L. 1983. The Hemse-Eke boundary, facies relationships in the Ludlow Series of Gotland Sweden. Sveriges Geologiska Undersökning C, 800:143.Google Scholar
Liljedahl, L. 1984. Silurian silicified bivalves from Gotland. Sveriges Geologiska Undersökning C, 804:182.Google Scholar
Liljedahl, L. 1985. Ecological aspects of a silicified bivalve fauna from the Silurian of Gotland. Lethaia, 18:5366.Google Scholar
Liljedahl, L. 1991. Contrasting feeding strategies in bivalves from the Silurian of Gotland. Palaeontology, 34:219235.Google Scholar
Pojeta, J. Jr. 1971. Review of Ordovician pelecypods. U.S. Geological Survey Professional Paper 695:146.Google Scholar
Reed, F. R. C. 1932. Some new fossils from Brazil. The Annals and Magazine of Natural History, 10:479487.Google Scholar
Reed, F. R. C. 1934. Downtonian fossils from the Anglo-Welsh area. Quarterly Journal of the Geological Society of London, 90:571584.Google Scholar
Rhoads, D. C. 1970. Mass properties, stability, and ecology of marine muds related to burrowing activity, p. 391406. In Crimes, T. P. and Harper, J. C. (eds.), Trace Fossils. Seele House Press, Liverpool.Google Scholar
Rhoads, D. C., and Young, D. K. 1970. The influence of deposit-feeding organisms on sediment stability and community trophic structure. Journal of Marine Research, 28:150178.Google Scholar
Soot-Ryen, H. 1964. Nuculoid pelecypods from the Silurian of Gotland. Arkiv för Mineralogi och Geologi, 3:389519.Google Scholar
Stanley, S. M. 1972. Functional morphology and evolution of byssally attached bivalve mollusks. Journal of Paleontology, 46:165212.Google Scholar
Stoliczka, F. 1871. Cretaceous fauna of southern India, Vol. 3, The pelecypoda, with a review of all known genera of this class, fossils and Recent. Geological Survey of India, Palaeontologica India, Series 6, 3, 537 p.Google Scholar
Thayer, C. W. 1975. Morphologic adaptations of benthic invertebrates to soft substrata. Journal of Marine Research, 33:177189.Google Scholar
Ulrich, E. O. 1894. The Lower Silurian Lamellibranchiata of Minnesota. Final report of the Minnesota Geological and Natural History Survey, 3:475628.Google Scholar