The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts

Seamounts are of great oceanographic interest because of their local and basin-scale influence over ocean systems, their often unique ecosystems, and because they are associated with the formation of ferromanganese (Fe-Mn) crusts. These crusts are rich in some of the rare elements increasingly requi...

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Bibliographic Details
Main Authors: Spearman, J., Taylor, J., Crossouard, N., Cooper, A., Turnbull, M., Manning, A.J., Lee, M.
Format: Conference Object
Language:unknown
Published: 2019
Subjects:
General
North East Atlantic
Online Access:https://eprints.hrwallingford.com/1394/
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spelling ftrwallingford:oai:eprints.hrwallingford.com:1394 2023-05-15T17:38:32+02:00 The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts Spearman, J. Taylor, J. Crossouard, N. Cooper, A. Turnbull, M. Manning, A.J. Lee, M. 2019 https://eprints.hrwallingford.com/1394/ unknown Spearman, J. and Taylor, J. and Crossouard, N. and Cooper, A. and Turnbull, M. and Manning, A.J. and Lee, M. (2019) The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts. In: WODCON XXII, 22-26 April 2019, Shanghai, China. General Conference or Workshop Item PeerReviewed 2019 ftrwallingford 2022-02-24T13:14:49Z Seamounts are of great oceanographic interest because of their local and basin-scale influence over ocean systems, their often unique ecosystems, and because they are associated with the formation of ferromanganese (Fe-Mn) crusts. These crusts are rich in some of the rare elements increasingly required for development of renewable technologies, if viable and economical mining strategies can be developed to recover these resources. However, little is known about the potential for sediment (and chemical) plumes caused by deep sea mining to adversely affect the local ecosystem. The literature contains many references to the potential for mining to cause irreversible damage to the ecosystem but these are typically based on assumptions rather than evidence. This paper describes studies undertaken as a part of the MarineE-tech UK funded project, investigating the geo-chemical processes governing, and environmental issues arising from the mining of, Fe-Mn crusts. In this project innovative monitoring approaches have been developed for monitoring deep sea sediment plumes and these approaches have been applied to the Tropic Seamount in the North East Atlantic. The data set, possibly the first of its kind, involves 21 different experiments and has been used to validate detailed and detailed hydrodynamic and sediment transport models as a basis for a predictive tool for assessing the effects of sediment plumes from deep sea mining. These models have deep sea plumes have been then used as tools for evaluating the potential effects of deep sea mining of the crust. Conference Object North East Atlantic HR Wallingford Ltd.: ePrints at HR Wallingford
institution Open Polar
collection HR Wallingford Ltd.: ePrints at HR Wallingford
op_collection_id ftrwallingford
language unknown
topic General
spellingShingle General
Spearman, J.
Taylor, J.
Crossouard, N.
Cooper, A.
Turnbull, M.
Manning, A.J.
Lee, M.
The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
topic_facet General
description Seamounts are of great oceanographic interest because of their local and basin-scale influence over ocean systems, their often unique ecosystems, and because they are associated with the formation of ferromanganese (Fe-Mn) crusts. These crusts are rich in some of the rare elements increasingly required for development of renewable technologies, if viable and economical mining strategies can be developed to recover these resources. However, little is known about the potential for sediment (and chemical) plumes caused by deep sea mining to adversely affect the local ecosystem. The literature contains many references to the potential for mining to cause irreversible damage to the ecosystem but these are typically based on assumptions rather than evidence. This paper describes studies undertaken as a part of the MarineE-tech UK funded project, investigating the geo-chemical processes governing, and environmental issues arising from the mining of, Fe-Mn crusts. In this project innovative monitoring approaches have been developed for monitoring deep sea sediment plumes and these approaches have been applied to the Tropic Seamount in the North East Atlantic. The data set, possibly the first of its kind, involves 21 different experiments and has been used to validate detailed and detailed hydrodynamic and sediment transport models as a basis for a predictive tool for assessing the effects of sediment plumes from deep sea mining. These models have deep sea plumes have been then used as tools for evaluating the potential effects of deep sea mining of the crust.
format Conference Object
author Spearman, J.
Taylor, J.
Crossouard, N.
Cooper, A.
Turnbull, M.
Manning, A.J.
Lee, M.
author_facet Spearman, J.
Taylor, J.
Crossouard, N.
Cooper, A.
Turnbull, M.
Manning, A.J.
Lee, M.
author_sort Spearman, J.
title The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
title_short The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
title_full The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
title_fullStr The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
title_full_unstemmed The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts
title_sort measurement and modelling of plumes resulting from deep sea mining of fe-mn crusts
publishDate 2019
url https://eprints.hrwallingford.com/1394/
genre North East Atlantic
genre_facet North East Atlantic
op_relation Spearman, J. and Taylor, J. and Crossouard, N. and Cooper, A. and Turnbull, M. and Manning, A.J. and Lee, M. (2019) The measurement and modelling of plumes resulting from deep sea mining of Fe-Mn crusts. In: WODCON XXII, 22-26 April 2019, Shanghai, China.
_version_ 1766139008263389184

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