Peter Doyle scite author profile

Mass accumulations of belemnite rostra (‘belemnite battlefields’) are common in Mesozoic sediments, and accumulations of belemnoids are also known from older rocks. Many Recent teuthid species suffer mortality immediately after spawning, and some authors have suggested that belemnite accumulations record a similar phenomenon. Conversely, it is clear that many belemnite battlefields actually formed in an environment of net sediment loss, with current alignment and winnowing. A proposed model for the production of belemnite battlefields involves five possible pathways: post‐spawning mortality, catastrophic mass mortality, predation concentration, stratigraphical condensation, and resedimentation. Although accumulations that have not been reworked are rare, it is possible to recognise the generating agents of belemnite accumulations through their intrinsic features. A genetic classification of belemnite battlefields, based on the identified pathways, is tested through field examples in Britain and Antarctica, as well as through published examples. □Belemnites, fossil accumulations, palaeoecology, Mesozoic, Antarctica, Yorkshire.

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Lower Jurassic-Lower Cretaceous belemnite biogeography and the development of the Mesozoic Boreal Realm

Doyle

1987

Palaeogeography, Palaeoclimatology, Palaeoecology

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Relative oxygenation of the Tithonian — Valanginian Vaca Muerta—Chachao formations of the Mendoza Shelf, Neuquén Basin, Argentina

Doyle

Poiré

Spalletti

et al. 2005

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Organic-rich sediments were deposited in the deeper sectors of the Neuquén Basin during the latest Jurassic and the Early Cretaceous. This paper presents the results of a detailed examination of these deposits in the northern-most extension of the basin, in the Mendoza Province, and explores their wider significance for palaeo-oxygenation studies.The Tithonian—Berriasian Vaca Muerta Formation, the primary source rock for the Neuquén Basin, comprises bituminous shales and interbedded limestones deposited during a major transgression. In the Valanginian, the beginning of a regressive phase enabled the development of shallow-marine carbonates to form the base of the Chachao Formation, which eventually led to extensive biohermal carbonates of the uppermost Chachao Formation. Along the length of the narrow N-S-trending Mendoza Shelf of the Neuquén Basin both units are well exposed, permitting detailed study of the stratigraphy, sedimentology, ichnology and palaeoecology. The analysis of the Tithonian—Valanginian succession in the Salado river valley shows that carbonate production increased up-section. Faunal associations are mostly limited to poorly diverse epibenthos and pseudoplankton in the lower part of the section (Vaca Muerta Formation), with increased diversity in the lower Chachao section, including shallow and deeper infaunal bivalves. A background level of laminated shales to Chondrites bioturbation is typical of anoxic—suboxic conditions. Micritic limestones and carbonate sandstones throughout the section commonly show the development of Thalassinoides suevicus.Relative oxygenation curves based on trace fossils and body fossils were developed and compared. There was a primary substrate control on trace fossil diversity and occurrence, with a primary oxygenation signal provided by body fossil evidence. Interpretation of the palaeo-oxygenation on the basis of trace fossil taxa alone, however, would lead to inaccurate results. This study, therefore, demonstrates the importance of integrated trace and body fossil analysis in the fuller understanding of black shales.

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Stratigraphy of the upper Jurassic-lower cretaceous Nordenskjöld Formation of eastern Graham Land, Antarctica

Whitham

Doyle

1989

Journal of South American Earth Sciences

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Cool Cretaceous climates: new data from the Albian of Western Australia

Pirrie

Doyle

Marshall

et al. 1995

JGS

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Peter Doyle

Stable-Isotope Analyses of Belemnite Rostra from the Whitby Mudstone Fm., England: Surface Water Conditions during Deposition of a Marine Black Shale

Dropstones: their origin and significance

Testing palaeo-environmental proxies in Jurassic belemnites: Mg/Ca, Sr/Ca, Na/Ca, δ18O and δ13C

Belemnite battlefields

Lower Jurassic-Lower Cretaceous belemnite biogeography and the development of the Mesozoic Boreal Realm

Relative oxygenation of the Tithonian — Valanginian Vaca Muerta—Chachao formations of the Mendoza Shelf, Neuquén Basin, Argentina

Stratigraphy of the upper Jurassic-lower cretaceous Nordenskjöld Formation of eastern Graham Land, Antarctica

Cool Cretaceous climates: new data from the Albian of Western Australia

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