The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula

The Latady Formation is a suite of Middle to Late Jurassic (170 – 140 Ma) sedimentary rocks situated in the southeastern region of the Antarctic Peninsula near where the break-up of Gondwana probably began. Latady Formation strata comprise a ~2.8 km thick sequence of black and grey shale and siltsto...

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Bibliographic Details
Main Author: Hikuroa, Daniel Carl Henare
Format: Thesis
Language:English
Published: ResearchSpace@Auckland 2004
Subjects:
Antarctic
Antarctic Peninsula
Latady
New Zealand
Orville
Orville Coast
The Antarctic
Antarc*
Antarctica
British Antarctic Survey
Online Access:http://hdl.handle.net/2292/286
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record_format openpolar
institution Open Polar
collection University of Auckland Research Repository - ResearchSpace
op_collection_id ftunivauckland
language English
description The Latady Formation is a suite of Middle to Late Jurassic (170 – 140 Ma) sedimentary rocks situated in the southeastern region of the Antarctic Peninsula near where the break-up of Gondwana probably began. Latady Formation strata comprise a ~2.8 km thick sequence of black and grey shale and siltstone, light brown sandstone, with subordinate conglomerate and sparse thin limestone and coal that accumulated in a back-arc position in the ‘Bay of Antarctica’. The sediments record terrestrial through to distal-shelf environments and are abundantly fossiliferous in places. Substantial paleontological collections of ~3300 specimens from 219 localities were made during a British Antarctic Survey deep field expedition to the Orville Coast in the 1999/2000 field season. The majority of fossils in the Latady Formation are poorly preserved internal and external moulds. Such material makes taxonomic description difficult. Nevertheless, a diverse, entirely marine fauna comprising 177 taxa (7 phyla, 93 genera) is recorded, dominated by marine invertebrates, predominantly bivalves, but also cephalopods, brachiopods, echinoderms, annelids, an arthropod, and a solitary coral. Vertebrates constitute a minor component (4 specimens), consisting of at least two, possibly three, species of fish and the second marine reptile recorded from the Antarctic Peninsula. 15 new species are described (but not named) in the following genera: ‘Paracerithium’, Lopatinia (s.l.), Modiolus, Pinna, Retroceramus, Oxytoma, Meleagrinella, Camptonectes (Camptochlamys), Myophorella (Scaphogonia), Vaugonia (3 species), Pronoella, Goniomya, and Pentacrinites, and there are a further 21 species too poorly preserved for description but likely to be new. Fifteen distinct faunal assemblages are recognised and named after the dominant species: Retroceramus cf. stehni, R. sp. C ?cf. galoi, Meleagrinella n. sp, Pterotrigonia thomsoni, Entolium spedeni, Neocrassina marwicki, N. ellsworthensis, Flabellirhynchia australensis, Pleuromya spp., Chariocrinus latadiensis, ‘Paracerithium’ n. sp., Malayomaorica malayomaorica, M. occidentalis, Retroceramus sp. indet. D., and Blanfordiceras cf. wallichi. These characterise environments ranging from sublittoral to distal-shelf. Collectively, the fauna, taphonomic signatures, assemblages, sediments, and sedimentary structures record an increase in depth from inner- to mid-shelf settings in the Bajocian, through outer-mid shelf during the Kimmeridgian, to outer-shelf depths in the Tithonian. Hence, a general trend of decreasing energy and increasing depth through time is observed. Bathonian and Callovian strata are recognised for the first time in the Latady Formation and the presence of strata of Bajocian, Oxfordian, Kimmeridgian, and Tithonian age is further verified. Generic affinities of the fauna are Tethyan (e.g. aff. Cyathophylliopsis, Lopatinia, Oxytoma, Camptonectes, Pronoella, Anisocardia, Teloceras, Normannites, Perisphinctes, Cycleryon, Chariocrinus, Pentacrinites), whereas at specific level they are with coeval New Zealand faunas (e.g. Pinna n. sp, P. kawhiana, Oxytoma trechmanni, O. n. sp., Aucklandirhynchia cf. aucklandica, ‘Paracerithium’ n. sp., Hibolithes aff. catlinensis, Belemnopsis aff. deborahae). South American affinities are also shown by the presence of Retroceramus cf. stehni, Pachysphinctes aff. americanensis, and Aspidoceras aff. euomphalum. Two influxes of Tethyan fauna to the ‘Bay of Antarctica’ occurred in the Bajocian (e.g. Grammatodon sp., Oxytoma trechmanni, O. n. sp., Camptonectes grandis) and Callovian (e.g. aff. Cyathophylliopsis delabechei, Cucullaea (Idonearca) sp., Camptonectes auritus, Mesosaccella sp., Pronoella spp.) most likely through the Trans-Ethyraean Seaway. The migration route was a short-lived epicontinental seaway formed during transgressions. Apart from the migration of Tethyan taxa, no other evidence of eustatic cycle influence is seen in Latady sediments and the dominant control of relative sea-level was local tectonism. The widespread cephalopod-byssate bivalve biofacies occurs later in the Latady Formation than in other southern Gondwanan sequences, but once established dominates the entire Late Jurassic. Typical constituents of the biofacies present in the Latady Formation include Retroceramus n. sp. A., R. aff. galoi, R. sp. B ?cf. galoi, R. spp. indet. D, E, F, Malayomaorica malayomaorica, M. occidentalis, Hibolithes spp., Belemnopsis spp., Pachyduvalia spp., Pachysphinctes spp., Torquatisphinctes spp., Virgatosphinctes spp., and Kossmatia spp. Individual horizons change from bivalve dominated in the Kimmeridgian – Middle Tithonian to ammonite dominated in the latest Tithonian.
format Thesis
author Hikuroa, Daniel Carl Henare
spellingShingle Hikuroa, Daniel Carl Henare
The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
author_facet Hikuroa, Daniel Carl Henare
author_sort Hikuroa, Daniel Carl Henare
title The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
title_short The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
title_full The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
title_fullStr The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
title_full_unstemmed The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula
title_sort fauna and biostratigraphy of the jurassic latady formation, antarctic peninsula
publisher ResearchSpace@Auckland
publishDate 2004
url http://hdl.handle.net/2292/286
long_lat ENVELOPE(-65.833,-65.833,-75.500,-75.500)
ENVELOPE(-63.000,-63.000,-75.167,-75.167)
ENVELOPE(-65.500,-65.500,-75.750,-75.750)
geographic Antarctic
Antarctic Peninsula
Latady
New Zealand
Orville
Orville Coast
The Antarctic
geographic_facet Antarctic
Antarctic Peninsula
Latady
New Zealand
Orville
Orville Coast
The Antarctic
genre Antarc*
Antarctic
Antarctic Peninsula
Antarctica
British Antarctic Survey
genre_facet Antarc*
Antarctic
Antarctic Peninsula
Antarctica
British Antarctic Survey
op_relation PhD Thesis - University of Auckland
UoA1447118
op_rights Items in ResearchSpace are protected by copyright, with all rights reserved, unless otherwise indicated.
https://researchspace.auckland.ac.nz/docs/uoa-docs/rights.htm
Copyright: The author
_version_ 1766258365195878400
spelling ftunivauckland:oai:researchspace.auckland.ac.nz:2292/286 2023-05-15T13:53:19+02:00 The Fauna and Biostratigraphy of the Jurassic Latady Formation, Antarctic Peninsula Hikuroa, Daniel Carl Henare 2004 http://hdl.handle.net/2292/286 en eng ResearchSpace@Auckland PhD Thesis - University of Auckland UoA1447118 Items in ResearchSpace are protected by copyright, with all rights reserved, unless otherwise indicated. https://researchspace.auckland.ac.nz/docs/uoa-docs/rights.htm Copyright: The author Thesis 2004 ftunivauckland 2013-12-07T08:28:23Z The Latady Formation is a suite of Middle to Late Jurassic (170 – 140 Ma) sedimentary rocks situated in the southeastern region of the Antarctic Peninsula near where the break-up of Gondwana probably began. Latady Formation strata comprise a ~2.8 km thick sequence of black and grey shale and siltstone, light brown sandstone, with subordinate conglomerate and sparse thin limestone and coal that accumulated in a back-arc position in the ‘Bay of Antarctica’. The sediments record terrestrial through to distal-shelf environments and are abundantly fossiliferous in places. Substantial paleontological collections of ~3300 specimens from 219 localities were made during a British Antarctic Survey deep field expedition to the Orville Coast in the 1999/2000 field season. The majority of fossils in the Latady Formation are poorly preserved internal and external moulds. Such material makes taxonomic description difficult. Nevertheless, a diverse, entirely marine fauna comprising 177 taxa (7 phyla, 93 genera) is recorded, dominated by marine invertebrates, predominantly bivalves, but also cephalopods, brachiopods, echinoderms, annelids, an arthropod, and a solitary coral. Vertebrates constitute a minor component (4 specimens), consisting of at least two, possibly three, species of fish and the second marine reptile recorded from the Antarctic Peninsula. 15 new species are described (but not named) in the following genera: ‘Paracerithium’, Lopatinia (s.l.), Modiolus, Pinna, Retroceramus, Oxytoma, Meleagrinella, Camptonectes (Camptochlamys), Myophorella (Scaphogonia), Vaugonia (3 species), Pronoella, Goniomya, and Pentacrinites, and there are a further 21 species too poorly preserved for description but likely to be new. Fifteen distinct faunal assemblages are recognised and named after the dominant species: Retroceramus cf. stehni, R. sp. C ?cf. galoi, Meleagrinella n. sp, Pterotrigonia thomsoni, Entolium spedeni, Neocrassina marwicki, N. ellsworthensis, Flabellirhynchia australensis, Pleuromya spp., Chariocrinus latadiensis, ‘Paracerithium’ n. sp., Malayomaorica malayomaorica, M. occidentalis, Retroceramus sp. indet. D., and Blanfordiceras cf. wallichi. These characterise environments ranging from sublittoral to distal-shelf. Collectively, the fauna, taphonomic signatures, assemblages, sediments, and sedimentary structures record an increase in depth from inner- to mid-shelf settings in the Bajocian, through outer-mid shelf during the Kimmeridgian, to outer-shelf depths in the Tithonian. Hence, a general trend of decreasing energy and increasing depth through time is observed. Bathonian and Callovian strata are recognised for the first time in the Latady Formation and the presence of strata of Bajocian, Oxfordian, Kimmeridgian, and Tithonian age is further verified. Generic affinities of the fauna are Tethyan (e.g. aff. Cyathophylliopsis, Lopatinia, Oxytoma, Camptonectes, Pronoella, Anisocardia, Teloceras, Normannites, Perisphinctes, Cycleryon, Chariocrinus, Pentacrinites), whereas at specific level they are with coeval New Zealand faunas (e.g. Pinna n. sp, P. kawhiana, Oxytoma trechmanni, O. n. sp., Aucklandirhynchia cf. aucklandica, ‘Paracerithium’ n. sp., Hibolithes aff. catlinensis, Belemnopsis aff. deborahae). South American affinities are also shown by the presence of Retroceramus cf. stehni, Pachysphinctes aff. americanensis, and Aspidoceras aff. euomphalum. Two influxes of Tethyan fauna to the ‘Bay of Antarctica’ occurred in the Bajocian (e.g. Grammatodon sp., Oxytoma trechmanni, O. n. sp., Camptonectes grandis) and Callovian (e.g. aff. Cyathophylliopsis delabechei, Cucullaea (Idonearca) sp., Camptonectes auritus, Mesosaccella sp., Pronoella spp.) most likely through the Trans-Ethyraean Seaway. The migration route was a short-lived epicontinental seaway formed during transgressions. Apart from the migration of Tethyan taxa, no other evidence of eustatic cycle influence is seen in Latady sediments and the dominant control of relative sea-level was local tectonism. The widespread cephalopod-byssate bivalve biofacies occurs later in the Latady Formation than in other southern Gondwanan sequences, but once established dominates the entire Late Jurassic. Typical constituents of the biofacies present in the Latady Formation include Retroceramus n. sp. A., R. aff. galoi, R. sp. B ?cf. galoi, R. spp. indet. D, E, F, Malayomaorica malayomaorica, M. occidentalis, Hibolithes spp., Belemnopsis spp., Pachyduvalia spp., Pachysphinctes spp., Torquatisphinctes spp., Virgatosphinctes spp., and Kossmatia spp. Individual horizons change from bivalve dominated in the Kimmeridgian – Middle Tithonian to ammonite dominated in the latest Tithonian. Thesis Antarc* Antarctic Antarctic Peninsula Antarctica British Antarctic Survey University of Auckland Research Repository - ResearchSpace Antarctic Antarctic Peninsula Latady ENVELOPE(-65.833,-65.833,-75.500,-75.500) New Zealand Orville ENVELOPE(-63.000,-63.000,-75.167,-75.167) Orville Coast ENVELOPE(-65.500,-65.500,-75.750,-75.750) The Antarctic

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