Speciation of trace elements in the Bowland Shale

John Parnell; Kenneth Nwoko; Jörg Feldmann; Joseph Armstrong

doi:10.1144/SP534-2020-195

Speciation of trace elements in the Bowland Shale

John Parnell^* (Corresponding Author), Kenneth Nwoko, Jörg Feldmann, Joseph Armstrong

^*Corresponding author for this work

University of Graz

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

Abstract

Samples of Bowland Shale and equivalents in Ireland, representing a range of thermal maturities from oil window to gas window, contain trace elements distributed through multiple residences. The trace element distribution reflects the depositional environment, and influences subsequent element release. Measurements of Se, Cu, As, U and Mo indicate variable retention in loosely-bound and strongly-bound forms.
The trace elements are especially associated with diagenetic pyrite. Shales from
Ireland, at higher thermal maturity, have relatively high proportions of loosely-bound Se, Cu and As, which may reflect expulsion from the pyrite during recrystallization. The shale samples consistently contain high contents of organic matter, reflecting deposition in an anoxic environment. The Se, Mo and U in particular may be bound to organic matter, which may have adverse environmental impacts upon weathering of the shale.

Original language	English
Number of pages	16
Journal	Geological Society, London, Special Publications
Volume	534
Early online date	2 Dec 2022
DOIs	https://doi.org/10.1144/SP534-2020-195
Publication status	E-pub ahead of print - 2 Dec 2022

Bibliographical note

This research was supported by NERC grant number NE/M010953/1

Data Availability Statement

All data generated or analysed during this study are included in this published article.

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title = "Speciation of trace elements in the Bowland Shale",

abstract = "Samples of Bowland Shale and equivalents in Ireland, representing a range of thermal maturities from oil window to gas window, contain trace elements distributed through multiple residences. The trace element distribution reflects the depositional environment, and influences subsequent element release. Measurements of Se, Cu, As, U and Mo indicate variable retention in loosely-bound and strongly-bound forms.The trace elements are especially associated with diagenetic pyrite. Shales fromIreland, at higher thermal maturity, have relatively high proportions of loosely-bound Se, Cu and As, which may reflect expulsion from the pyrite during recrystallization. The shale samples consistently contain high contents of organic matter, reflecting deposition in an anoxic environment. The Se, Mo and U in particular may be bound to organic matter, which may have adverse environmental impacts upon weathering of the shale.",

author = "John Parnell and Kenneth Nwoko and J{\"o}rg Feldmann and Joseph Armstrong",

note = "This research was supported by NERC grant number NE/M010953/1",

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doi = "10.1144/SP534-2020-195",

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AU - Parnell, John

AU - Nwoko, Kenneth

AU - Feldmann, Jörg

AU - Armstrong, Joseph

N1 - This research was supported by NERC grant number NE/M010953/1

PY - 2022/12/2

Y1 - 2022/12/2

N2 - Samples of Bowland Shale and equivalents in Ireland, representing a range of thermal maturities from oil window to gas window, contain trace elements distributed through multiple residences. The trace element distribution reflects the depositional environment, and influences subsequent element release. Measurements of Se, Cu, As, U and Mo indicate variable retention in loosely-bound and strongly-bound forms.The trace elements are especially associated with diagenetic pyrite. Shales fromIreland, at higher thermal maturity, have relatively high proportions of loosely-bound Se, Cu and As, which may reflect expulsion from the pyrite during recrystallization. The shale samples consistently contain high contents of organic matter, reflecting deposition in an anoxic environment. The Se, Mo and U in particular may be bound to organic matter, which may have adverse environmental impacts upon weathering of the shale.

AB - Samples of Bowland Shale and equivalents in Ireland, representing a range of thermal maturities from oil window to gas window, contain trace elements distributed through multiple residences. The trace element distribution reflects the depositional environment, and influences subsequent element release. Measurements of Se, Cu, As, U and Mo indicate variable retention in loosely-bound and strongly-bound forms.The trace elements are especially associated with diagenetic pyrite. Shales fromIreland, at higher thermal maturity, have relatively high proportions of loosely-bound Se, Cu and As, which may reflect expulsion from the pyrite during recrystallization. The shale samples consistently contain high contents of organic matter, reflecting deposition in an anoxic environment. The Se, Mo and U in particular may be bound to organic matter, which may have adverse environmental impacts upon weathering of the shale.

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DO - 10.1144/SP534-2020-195

M3 - Article

VL - 534

JO - Geological Society, London, Special Publications

JF - Geological Society, London, Special Publications

ER -

Speciation of trace elements in the Bowland Shale

Abstract

Bibliographical note

Data Availability Statement

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