Sea-level change and facies development across potential Triassic-Jurassic boundary horizons, SW Britain

doi:10.1144/0016-764903-033

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Journal of the Geological Society; 2004; v. 161; issue.3; p. 365-379;
DOI: 10.1144/0016-764903-033
© 2004 Geological Society of London

Original Article

Sea-level change and facies development across potential Triassic–Jurassic boundary horizons, SW Britain

Stephen P. Hesselbo¹, Stuart A. Robinson¹^,2 & Finn Surlyk³

¹ ¹Department of Earth Sciences, University of Oxford, Parks Road, Oxford OX1 3PR, UK (e-mail: stephen.hesselbo@earth.ox.ac.uk)
² ²Present address: Lamont–Doherty Earth Observatory of Columbia University, 61 Route 9W, Palisades, NY 10964, USA
³ ³Geological Institute, University of Copenhagen, Øster Voldgade 10, DK-1350 Copenhagen K, Denmark

The Late Triassic to Early Jurassic aged succession of SW Britain(the Penarth and lower Lias Groups) comprises mudstone, sandstoneand limestone strata deposited in a variety of marine to non-marineenvironments. Faunal and floral characteristics of these successionshave led to the proposal that one location in SW England, StAudrie's Bay, should serve as the Global Stratotype Sectionand Point (GSSP) for the base of the Hettangian Stage and, thus,for the Triassic–Jurassic (Tr–J) boundary. The sectionsof SW Britain have also been used previously to infer sea-levelchange history and relate this to potential kill mechanismsassociated with the Tr–J boundary mass extinction. Chemostratigraphic,biofacies and lithofacies data are used here to suggest alternativemodels of sea-level change in relation to possible Tr–Jboundary horizons in the sections of SW Britain. A sea-levellowstand surface of erosion is inferred to occur within theCotham Member of the Lilstock Formation, a unit deposited inan environment that was often subaerially exposed. In contrastto previous interpretations, the top surface of the overlyingLangport Member (here inferred to be deposited on a carbonateramp of depositional or tectonic origin) represents a drowningevent of at least regional extent. All horizons regarded asplausible levels at which to place the Tr–J boundary basedon fossil distributions lie within strata deposited during relativesea-level rise. However, it is doubtful whether the higher horizonsproposed to mark the boundary faithfully record times of truebiotic change on a global scale and, additionally, there isno positive evidence that sea-level fall had any relation tothe genesis of proposed Tr–J marker horizons. It is unlikelythat sea-level fall played a significant role in the Tr–Jboundary extinctions in either a local or a global context.

Key Words: Triassic • Jurassic • extinction • sea-level change

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