A global reference for black shale geochemistry and the T-OAE revisited: upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England

Ian Jarvis; Elizabeth Atar; Darren R. Gröcke; Liam G. Herringshaw; João P. Trabucho-Alexandre

doi:10.1017/S0016756824000244

A global reference for black shale geochemistry and the T-OAE revisited: upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England

Ian Jarvis^*
, Elizabeth Atar
, Darren R. Gröcke
, Liam G. Herringshaw
, João P. Trabucho-Alexandre

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The Pliensbachian–Toarcian succession of North Yorkshire provides a global reference for the interval incorporating the Toarcian Oceanic Anoxic Event (T-OAE, ~183 Ma). Major and trace element, carbon stable-isotope (δ¹³C_org) and total organic carbon (TOC) data for the Dove’s Nest core, drilled close to the classic outcrop sections of the Yorkshire coast, demonstrate geochemical, mineralogical and grain-size trends linked to sea level and climate change in the Cleveland Basin. High-resolution correlation between the core and outcrop enables the integration of data to generate a comprehensive chemostratigraphic record. Palaeoredox proxies (Mo, U, V, TOC/P, DOP and Fe speciation) show a progressive shift from oxic bottom waters in the late Pliensbachian through dysoxic–anoxic conditions in the earliest Toarcian to euxinia during the T-OAE. Anoxia–dysoxia persisted into the middle Toarcian. Elemental and isotope data (Re, Re/Mo, δ³⁴S_CAS, δ⁹⁸Mo and ε²⁰⁵Tl) from the coastal sections evidence global expansion of anoxic and euxinic seafloor area driving drawdown of redox-sensitive metals and sulfate from seawater leading to severe depletion in early Toarcian ocean water. The record of anoxia–euxinia in the Cleveland Basin largely reflects global-scale changes in ocean oxygenation, although metal depletion was temporarily enhanced by periods of local basin restriction. Osmium and Sr isotopes demonstrate a pulse of accelerated weathering accompanying the early Toarcian hyperthermal, coincident with the T-OAE. The combined core and outcrop records evidence local and global environmental change accompanying one of the largest perturbations in the global carbon cycle during the last 200 Ma and a period of major biotic turnover.

Original language	English
Article number	e13
Number of pages	77
Journal	Geological Magazine
Volume	161
DOIs	https://doi.org/10.1017/S0016756824000244
Publication status	Published - 25 Oct 2024

Bibliographical note

Publisher Copyright:
© The Author(s), 2024.

Funding

Thanks are due to Hugh Jenkyns (Oxford University), Guillaume Suan (Universite de Lyon), two anonymous referees and editor Emese Bordy (University of Cape Town) for their thoughtful comments and suggestions that greatly improved the quality of this manuscript. We thank Anglo American Woodsmith Project (formerly Sirius Minerals) for allowing us to study and sample the Dove's Nest core; Howard Armstrong for help describing and sampling the core; Simon DeMars, Kate Olde and Julian Swinden provided invaluable assistance during analytical work by EA in the Kingston laboratories. Analytical costs were supported by the UK Natural Environment Research Council (I.J. grant number NE/H020756/1), (D.G. grant number NE/H021868/1).

Funders	Funder number
UK Natural Environment Research Council	NE/H020756/1, NE/H021868/1

Keywords

anoxia
carbon isotopes
carbonaceous mudstone
extinction
Oceanic anoxic event
palaeoredox proxies
trace metals

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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a-global-reference-for-black-shale-geochemistry-and-the-t-oae-revisited-upper-pliensbachian-middle-toarcian-lower-jurassic-chemostratigraphy-in-the-cleveland-basin-englandFinal published version, 5.11 MBLicence: CC BY

Cite this

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title = "A global reference for black shale geochemistry and the T-OAE revisited: upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England",

abstract = "The Pliensbachian–Toarcian succession of North Yorkshire provides a global reference for the interval incorporating the Toarcian Oceanic Anoxic Event (T-OAE, \textasciitilde{}183 Ma). Major and trace element, carbon stable-isotope (δ13Corg) and total organic carbon (TOC) data for the Dove{\textquoteright}s Nest core, drilled close to the classic outcrop sections of the Yorkshire coast, demonstrate geochemical, mineralogical and grain-size trends linked to sea level and climate change in the Cleveland Basin. High-resolution correlation between the core and outcrop enables the integration of data to generate a comprehensive chemostratigraphic record. Palaeoredox proxies (Mo, U, V, TOC/P, DOP and Fe speciation) show a progressive shift from oxic bottom waters in the late Pliensbachian through dysoxic–anoxic conditions in the earliest Toarcian to euxinia during the T-OAE. Anoxia–dysoxia persisted into the middle Toarcian. Elemental and isotope data (Re, Re/Mo, δ34SCAS, δ98Mo and ε205Tl) from the coastal sections evidence global expansion of anoxic and euxinic seafloor area driving drawdown of redox-sensitive metals and sulfate from seawater leading to severe depletion in early Toarcian ocean water. The record of anoxia–euxinia in the Cleveland Basin largely reflects global-scale changes in ocean oxygenation, although metal depletion was temporarily enhanced by periods of local basin restriction. Osmium and Sr isotopes demonstrate a pulse of accelerated weathering accompanying the early Toarcian hyperthermal, coincident with the T-OAE. The combined core and outcrop records evidence local and global environmental change accompanying one of the largest perturbations in the global carbon cycle during the last 200 Ma and a period of major biotic turnover.",

keywords = "anoxia, carbon isotopes, carbonaceous mudstone, extinction, Oceanic anoxic event, palaeoredox proxies, trace metals",

author = "Ian Jarvis and Elizabeth Atar and Gr{\"o}cke, \{Darren R.\} and Herringshaw, \{Liam G.\} and Trabucho-Alexandre, \{Jo{\~a}o P.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s), 2024.",

year = "2024",

month = oct,

day = "25",

doi = "10.1017/S0016756824000244",

language = "English",

volume = "161",

journal = "Geological Magazine",

issn = "0016-7568",

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A global reference for black shale geochemistry and the T-OAE revisited: upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England. / Jarvis, Ian; Atar, Elizabeth; Gröcke, Darren R. et al.
In: Geological Magazine, Vol. 161, e13, 25.10.2024.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - A global reference for black shale geochemistry and the T-OAE revisited

T2 - upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England

AU - Jarvis, Ian

AU - Atar, Elizabeth

AU - Gröcke, Darren R.

AU - Herringshaw, Liam G.

AU - Trabucho-Alexandre, João P.

PY - 2024/10/25

Y1 - 2024/10/25

N2 - The Pliensbachian–Toarcian succession of North Yorkshire provides a global reference for the interval incorporating the Toarcian Oceanic Anoxic Event (T-OAE, ~183 Ma). Major and trace element, carbon stable-isotope (δ13Corg) and total organic carbon (TOC) data for the Dove’s Nest core, drilled close to the classic outcrop sections of the Yorkshire coast, demonstrate geochemical, mineralogical and grain-size trends linked to sea level and climate change in the Cleveland Basin. High-resolution correlation between the core and outcrop enables the integration of data to generate a comprehensive chemostratigraphic record. Palaeoredox proxies (Mo, U, V, TOC/P, DOP and Fe speciation) show a progressive shift from oxic bottom waters in the late Pliensbachian through dysoxic–anoxic conditions in the earliest Toarcian to euxinia during the T-OAE. Anoxia–dysoxia persisted into the middle Toarcian. Elemental and isotope data (Re, Re/Mo, δ34SCAS, δ98Mo and ε205Tl) from the coastal sections evidence global expansion of anoxic and euxinic seafloor area driving drawdown of redox-sensitive metals and sulfate from seawater leading to severe depletion in early Toarcian ocean water. The record of anoxia–euxinia in the Cleveland Basin largely reflects global-scale changes in ocean oxygenation, although metal depletion was temporarily enhanced by periods of local basin restriction. Osmium and Sr isotopes demonstrate a pulse of accelerated weathering accompanying the early Toarcian hyperthermal, coincident with the T-OAE. The combined core and outcrop records evidence local and global environmental change accompanying one of the largest perturbations in the global carbon cycle during the last 200 Ma and a period of major biotic turnover.

AB - The Pliensbachian–Toarcian succession of North Yorkshire provides a global reference for the interval incorporating the Toarcian Oceanic Anoxic Event (T-OAE, ~183 Ma). Major and trace element, carbon stable-isotope (δ13Corg) and total organic carbon (TOC) data for the Dove’s Nest core, drilled close to the classic outcrop sections of the Yorkshire coast, demonstrate geochemical, mineralogical and grain-size trends linked to sea level and climate change in the Cleveland Basin. High-resolution correlation between the core and outcrop enables the integration of data to generate a comprehensive chemostratigraphic record. Palaeoredox proxies (Mo, U, V, TOC/P, DOP and Fe speciation) show a progressive shift from oxic bottom waters in the late Pliensbachian through dysoxic–anoxic conditions in the earliest Toarcian to euxinia during the T-OAE. Anoxia–dysoxia persisted into the middle Toarcian. Elemental and isotope data (Re, Re/Mo, δ34SCAS, δ98Mo and ε205Tl) from the coastal sections evidence global expansion of anoxic and euxinic seafloor area driving drawdown of redox-sensitive metals and sulfate from seawater leading to severe depletion in early Toarcian ocean water. The record of anoxia–euxinia in the Cleveland Basin largely reflects global-scale changes in ocean oxygenation, although metal depletion was temporarily enhanced by periods of local basin restriction. Osmium and Sr isotopes demonstrate a pulse of accelerated weathering accompanying the early Toarcian hyperthermal, coincident with the T-OAE. The combined core and outcrop records evidence local and global environmental change accompanying one of the largest perturbations in the global carbon cycle during the last 200 Ma and a period of major biotic turnover.

KW - anoxia

KW - carbon isotopes

KW - carbonaceous mudstone

KW - extinction

KW - Oceanic anoxic event

KW - palaeoredox proxies

KW - trace metals

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DO - 10.1017/S0016756824000244

M3 - Article

AN - SCOPUS:85207954030

SN - 0016-7568

VL - 161

JO - Geological Magazine

JF - Geological Magazine

M1 - e13

ER -

A global reference for black shale geochemistry and the T-OAE revisited: upper Pliensbachian – middle Toarcian (Lower Jurassic) chemostratigraphy in the Cleveland Basin, England

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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