Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use

The majority of inoceramid bivalves occurring in Late Jurassic temperate realm assemblages can probably be assigned to the genus Retroceramus. Although there are a few transitional forms, Retroceramus can generally be distinguished from the better-known genus Inoceramus by features of both the exter...

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Main Author:	Crame, J.A.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	Palaeontological Association 1982
Subjects:	Antarctic The Antarctic Antarctic Peninsula New Zealand Alexander Island Orville Fossil Bluff Latady Lassiter Antarc* Antarctica
Online Access:	http://nora.nerc.ac.uk/id/eprint/524331/ https://www.palass.org/publications/palaeontology-journal/archive/25/3/article_pp555-603

id	ftnerc:oai:nora.nerc.ac.uk:524331
record_format	openpolar
spelling	ftnerc:oai:nora.nerc.ac.uk:524331 2023-05-15T13:15:21+02:00 Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use Crame, J.A. 1982-07 http://nora.nerc.ac.uk/id/eprint/524331/ https://www.palass.org/publications/palaeontology-journal/archive/25/3/article_pp555-603 unknown Palaeontological Association Crame, J.A. orcid:0000-0002-5027-9965 . 1982 Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use. Palaeontology, 25 (3). 555-603. Publication - Article PeerReviewed 1982 ftnerc 2023-02-04T19:48:50Z The majority of inoceramid bivalves occurring in Late Jurassic temperate realm assemblages can probably be assigned to the genus Retroceramus. Although there are a few transitional forms, Retroceramus can generally be distinguished from the better-known genus Inoceramus by features of both the external and internal shell morphology. The replacement of Retroceramus by Inoceramus in the Early Cretaceous may reflect the adoption of an epibyssate mode of life, and probably represents one of a series of endo- to epibyssate life habit transitions that occurred during the evolutionary history of the Inoceramidae.Four common Late Jurassic species of Retroceramus form the basis of an inoceramid zonation that can be used for local correlations within western Antarctica, and regional correlations throughout the Southern Hemisphere. Isolated exposures in the Antarctic Peninsula can be correlated with the Fossil Bluff Formation (Kimmeridgian-Albian) of eastern Alexander Island, and it should eventually be possible to correlate the latter unit with the extensive Jurassic Latady Formation (?Bajocian-Tithonian) of the Lassiter and Orville coasts. Used in conjunction with existing cephalopod biozones, this zonation scheme indicates that the lower levels of the Fossil Bluff Formation correlate with the Lower, Middle, and Upper Spiti Shales of the Himalayas and both the Ohauan and Puaroan stages of the New Zealand Jurassic. Tentative correlations can also be made with areas such as South America, New Caledonia, Indonesia, and Western Australia.The occurrence of genera such as Retroceramus, Anopaea, and Buchia in western Antarctica does not necessarily indicate the existence of a late Jurassic anti-Boreal faunal realm. Available evidence suggests that the distribution of benthic faunas at this time was probably controlled by a series of distinctive sedimentary facies which extended around much of the southern margins of Gondwana, rather than by pronounced climatic zonation. Article in Journal/Newspaper Alexander Island Antarc* Antarctic Antarctic Peninsula Antarctica Natural Environment Research Council: NERC Open Research Archive Antarctic The Antarctic Antarctic Peninsula New Zealand Alexander Island ENVELOPE(-69.895,-69.895,-71.287,-71.287) Orville ENVELOPE(-63.000,-63.000,-75.167,-75.167) Fossil Bluff ENVELOPE(-68.274,-68.274,-71.332,-71.332) Latady ENVELOPE(-65.833,-65.833,-75.500,-75.500) Lassiter ENVELOPE(-62.000,-62.000,-73.750,-73.750)
institution	Open Polar
collection	Natural Environment Research Council: NERC Open Research Archive
op_collection_id	ftnerc
language	unknown
description	The majority of inoceramid bivalves occurring in Late Jurassic temperate realm assemblages can probably be assigned to the genus Retroceramus. Although there are a few transitional forms, Retroceramus can generally be distinguished from the better-known genus Inoceramus by features of both the external and internal shell morphology. The replacement of Retroceramus by Inoceramus in the Early Cretaceous may reflect the adoption of an epibyssate mode of life, and probably represents one of a series of endo- to epibyssate life habit transitions that occurred during the evolutionary history of the Inoceramidae.Four common Late Jurassic species of Retroceramus form the basis of an inoceramid zonation that can be used for local correlations within western Antarctica, and regional correlations throughout the Southern Hemisphere. Isolated exposures in the Antarctic Peninsula can be correlated with the Fossil Bluff Formation (Kimmeridgian-Albian) of eastern Alexander Island, and it should eventually be possible to correlate the latter unit with the extensive Jurassic Latady Formation (?Bajocian-Tithonian) of the Lassiter and Orville coasts. Used in conjunction with existing cephalopod biozones, this zonation scheme indicates that the lower levels of the Fossil Bluff Formation correlate with the Lower, Middle, and Upper Spiti Shales of the Himalayas and both the Ohauan and Puaroan stages of the New Zealand Jurassic. Tentative correlations can also be made with areas such as South America, New Caledonia, Indonesia, and Western Australia.The occurrence of genera such as Retroceramus, Anopaea, and Buchia in western Antarctica does not necessarily indicate the existence of a late Jurassic anti-Boreal faunal realm. Available evidence suggests that the distribution of benthic faunas at this time was probably controlled by a series of distinctive sedimentary facies which extended around much of the southern margins of Gondwana, rather than by pronounced climatic zonation.
format	Article in Journal/Newspaper
author	Crame, J.A.
spellingShingle	Crame, J.A. Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
author_facet	Crame, J.A.
author_sort	Crame, J.A.
title	Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
title_short	Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
title_full	Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
title_fullStr	Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
title_full_unstemmed	Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use
title_sort	late jurassic inoceramid bivalves from the antarctic peninsula and their stratigraphic use
publisher	Palaeontological Association
publishDate	1982
url	http://nora.nerc.ac.uk/id/eprint/524331/ https://www.palass.org/publications/palaeontology-journal/archive/25/3/article_pp555-603
long_lat	ENVELOPE(-69.895,-69.895,-71.287,-71.287) ENVELOPE(-63.000,-63.000,-75.167,-75.167) ENVELOPE(-68.274,-68.274,-71.332,-71.332) ENVELOPE(-65.833,-65.833,-75.500,-75.500) ENVELOPE(-62.000,-62.000,-73.750,-73.750)
geographic	Antarctic The Antarctic Antarctic Peninsula New Zealand Alexander Island Orville Fossil Bluff Latady Lassiter
geographic_facet	Antarctic The Antarctic Antarctic Peninsula New Zealand Alexander Island Orville Fossil Bluff Latady Lassiter
genre	Alexander Island Antarc* Antarctic Antarctic Peninsula Antarctica
genre_facet	Alexander Island Antarc* Antarctic Antarctic Peninsula Antarctica
op_relation	Crame, J.A. orcid:0000-0002-5027-9965 . 1982 Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use. Palaeontology, 25 (3). 555-603.
_version_	1766268134654738432

Late Jurassic inoceramid bivalves from the Antarctic Peninsula and their stratigraphic use

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