Coal mining-derived ochres in the UK: a potential selenium trap
Coal mining-derived ochres in the UK: a potential selenium trap
Thanks to the pioneering research of Paul Younger over the past 20 years, acid mine drainage in the UK has been recognized as a major environmental issue. Acid mine drainage and hydrous ferric oxide deposition are environmental hazards resulting from centuries of extensive coal mining activities across the UK. Oxidative weathering of pyrite in coal from spoil heaps and exposed bedrock can liberate trace elements, releasing them into local water systems. In addition to posing an environmental threat through water and ground contamination, ochres can also act as a remediation material, trapping elements such as selenium. Trace elements with a close association to iron oxides, such as selenium, may fix to the fine‐grained ochre materials, resulting in hyper‐enriched ochres. Selenium in coals has been known to cause an environmental issue in areas of North America but is also an important commodity for solar cells and nanotechnologies. Coal‐bearing areas of the UK, such as Northumberland, are known to contain a high selenium content, and coal‐derived ochres in these regions also contain significant selenium. The widespread occurrence of ochres in UK coal‐mining regions may therefore present a unique ‘E tech’ trace element source and prevent a toxicity problem for which they were once thought to be responsible.
140-145
Bullock, Liam
c6ffb9b0-0a54-4ab2-9edb-f97280e6ce2d
Parnell, John
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Perez, Magali
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Armstrong, Joseph G.T.
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July 2019
Bullock, Liam
c6ffb9b0-0a54-4ab2-9edb-f97280e6ce2d
Parnell, John
b86302b0-b930-4b7c-9786-13abc612fef7
Perez, Magali
496b62b9-ca3a-4b78-aaf7-4d14627f5771
Armstrong, Joseph G.T.
e787408b-d6cd-4355-963e-8590a0ce11db
Bullock, Liam, Parnell, John, Perez, Magali and Armstrong, Joseph G.T.
(2019)
Coal mining-derived ochres in the UK: a potential selenium trap.
Geology Today, 35 (4), .
(doi:10.1111/gto.12279).
Abstract
Thanks to the pioneering research of Paul Younger over the past 20 years, acid mine drainage in the UK has been recognized as a major environmental issue. Acid mine drainage and hydrous ferric oxide deposition are environmental hazards resulting from centuries of extensive coal mining activities across the UK. Oxidative weathering of pyrite in coal from spoil heaps and exposed bedrock can liberate trace elements, releasing them into local water systems. In addition to posing an environmental threat through water and ground contamination, ochres can also act as a remediation material, trapping elements such as selenium. Trace elements with a close association to iron oxides, such as selenium, may fix to the fine‐grained ochre materials, resulting in hyper‐enriched ochres. Selenium in coals has been known to cause an environmental issue in areas of North America but is also an important commodity for solar cells and nanotechnologies. Coal‐bearing areas of the UK, such as Northumberland, are known to contain a high selenium content, and coal‐derived ochres in these regions also contain significant selenium. The widespread occurrence of ochres in UK coal‐mining regions may therefore present a unique ‘E tech’ trace element source and prevent a toxicity problem for which they were once thought to be responsible.
Text
MS_Ochres_LAB_GT_002_
- Accepted Manuscript
More information
Accepted/In Press date: 2 August 2018
e-pub ahead of print date: 26 July 2019
Published date: July 2019
Identifiers
Local EPrints ID: 433246
URI: http://eprints.soton.ac.uk/id/eprint/433246
ISSN: 0266-6979
PURE UUID: 3c0f16a2-f49a-417f-a55e-1896e6430923
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Date deposited: 12 Aug 2019 16:30
Last modified: 16 Mar 2024 08:03
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Author:
Liam Bullock
Author:
John Parnell
Author:
Magali Perez
Author:
Joseph G.T. Armstrong
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