Thyasirid bivalves from Cretaceous and Paleogene cold seeps

We present a systematic study of thyasirid bivalves from Cretaceous to Oligocene seep carbonates worldwide. Eleven species of thyasirid bivalves are identified belonging to three genera: Conchocele, Maorithyas, and Thyasira. Two species are new: Maorithyas humptulipsensis sp. nov. from middle Eocene...

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Bibliographic Details
Published in:Acta Palaeontologica Polonica
Main Authors: Krzysztof Hryniewicz, Kazutaka Amano, Robert G. Jenkins, Steffen Kiel
Format: Article in Journal/Newspaper
Language:English
Published: Institute of Paleobiology PAS 2017
Subjects:
Bivalvia
Thyasiridae
cold seeps
deep sea
ecology
evolution
Cretaceous
Paleogene
Fossil man. Human paleontology
GN282-286.7
Paleontology
QE701-760
Antarc*
Antarctica
Online Access:https://doi.org/10.4202/app.00390.2017
https://doaj.org/article/00dd2d1a4a1542f493158aebe4f9257c
Description
Summary:We present a systematic study of thyasirid bivalves from Cretaceous to Oligocene seep carbonates worldwide. Eleven species of thyasirid bivalves are identified belonging to three genera: Conchocele, Maorithyas, and Thyasira. Two species are new: Maorithyas humptulipsensis sp. nov. from middle Eocene seep carbonates in the Humptulips Formation, Washington State, USA, and Conchocele kiritachiensis sp. nov. from the late Eocene seep deposit at Kiritachi, Hokkaido, Japan. Two new combinations are provided: Conchocele townsendi (White, 1890) from Maastrichtian strata of the James Ross Basin, Antarctica, and Maorithyas folgeri (Wagner and Schilling, 1923) from Oligocene rocks from California, USA. Three species are left in open nomenclature. We show that thyasirids have Mesozoic origins and appear at seeps before appearing in “normal” marine environments. These data are interpreted as a record of seep origination of thyasirids, and their subsequent dispersal to non-seep environments. We discuss the age of origination of thyasirids in the context of the origin of the modern deep sea fauna and conclude that thyasirids could have deep sea origins. This hypothesis is supported by the observed lack of influence of the Cretaceous and Paleogene Oceanic Anoxic Events on the main evolutionary lineages of the thyasirids, as seen in several other members of the deep sea fauna.

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