Carbon Cycle and Ecosystem Response to the Jenkyns Event in the Early Toarcian (Jurassic)
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The Toarcian Oceanic Anoxic Event, also known as the Jenkyns Event, was a hyperthermal episode which occurred during the early Toarcian (c. 183 Ma; Early Jurassic) and resulted in numerous collateral effects including global warming, enhanced weathering, sea-level change, carbonate crisis, marine anoxia–dysoxia, and a second-order mass extinction. This volume presents the last advances for understanding early Toarcian environmental changes through different disciplines: biostratigraphy, micropalaeontology, palaeontology, ichnology, palaeoecology, sedimentology, integrated stratigraphy, inorganic, organic and isotopic geochemistry, and cyclostratigraphy. The study of this abrupt climate change is critical for predicting future global changes, and for understanding the complex biogeochemical interactions through time between geosphere, atmosphere, hydrosphere and biosphere.
Biotic and stable-isotope characterization of the Toarcian Ocean Anoxic Event through a carbonate–clastic sequence from Somerset, UK
Correspondence: [email protected]
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Published:November 03, 2021
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CiteCitation
Ian Boomer, Philip Copestake, Kevin Page, John Huxtable, Tony Loy, Paul Bown, Tom Dunkley Jones, Matt O'Callaghan, Sarah Hawkes, David Halfacree, Henry Reay, Natalie Caughtry, 2021. "Biotic and stable-isotope characterization of the Toarcian Ocean Anoxic Event through a carbonate–clastic sequence from Somerset, UK", Carbon Cycle and Ecosystem Response to the Jenkyns Event in the Early Toarcian (Jurassic), M. Reolid, L. V. Duarte, E. Mattioli, W. Ruebsam
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Abstract
This study focuses on a condensed sequence of alternating carbonate–clastic sediments of the Barrington Member, Beacon Limestone Formation (latest Pliensbachian to early Toarcian) from Somerset (SW England). Abundant ammonites confirm (apart from the absence of the Clevelandicum and Tenuicostatum ammonite subchronozones) the presence of Hawskerense Subchronozone to Fallaciosum–Bingmanni subchronozones. Well-preserved, sometimes diverse assemblages of ostracods, foraminifera, nannofossils and low-diversity dinoflagellate assemblages support the chronostratigraphic framework. Stable-isotope analyses demonstrate the presence of a carbon isotope excursion, relating to the Toarcian Oceanic Anoxic Event, within the early Toarcian. Faunal, geochemical and sedimentological evidence suggest that deposition largely took place in a relatively deep-water (subwave base), mid-outer shelf environment under a well-mixed water column. However, reduced benthic diversity, the presence of weakly laminated sediments and changes in microplankton assemblage composition within the Toarcian Oceanic Anoxic Event indicates dysoxic, but probably never anoxic, bottom-water conditions during this event. The onset of the carbon isotope excursion coincides with extinction in the nannofossils and benthos, including the disappearance of the ostracod suborder Metacopina. Faunal evidence indicates connectivity with the Mediterranean region, not previously recorded for the UK during the early Toarcian.
- Ammonites
- Ammonoidea
- assemblages
- biogeography
- biostratigraphy
- biozones
- C-13/C-12
- carbon
- carbonate rocks
- Cephalopoda
- clastic rocks
- correlation
- England
- Europe
- Great Britain
- isotope ratios
- isotopes
- Jurassic
- lithostratigraphy
- Lower Jurassic
- lower Toarcian
- Mesozoic
- microfossils
- Mollusca
- nannoplankton
- O-18/O-16
- oceanic anoxic events
- oxygen
- palynomorphs
- plankton
- Pliensbachian
- sedimentary rocks
- sedimentology
- Somerset England
- stable isotopes
- Toarcian
- United Kingdom
- Western Europe
- Beacon Limestone Formation
- Barrington Member