Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites

Climate change is affecting the seasonality, biological productivity, and hydrology of lakes in high northern latitudes. These changes may affect the cycling of naturally occurring metal(loid)s and long-term stability of mining-derived contaminants. In mineralized regions, where concentrations of na...

Full description

Bibliographic Details
Main Authors: Miller, CB, Parsons, MB, Jamieson, HE, Ardakani, OH, Nasser, NA, Gregory, BRB, Patterson, RT, Galloway, JM
Format: Conference Object
Language:English
Published: . 2021
Subjects:
Environmental Sciences
Environmental management
Natural resource management
Northwest Territories
Canada
Courageous Lake
Online Access:https://gacmac2021.ca/
http://ecite.utas.edu.au/148516
id ftunivtasecite:oai:ecite.utas.edu.au:148516
record_format openpolar
spelling ftunivtasecite:oai:ecite.utas.edu.au:148516 2023-05-15T17:46:45+02:00 Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites Miller, CB Parsons, MB Jamieson, HE Ardakani, OH Nasser, NA Gregory, BRB Patterson, RT Galloway, JM 2021 application/pdf https://gacmac2021.ca/ http://ecite.utas.edu.au/148516 en eng . http://ecite.utas.edu.au/148516/2/148516 - Post depositional mobility of arsenic in a changing climate, implications for cumulative effects assessments at northern mine sites.pdf Miller, CB and Parsons, MB and Jamieson, HE and Ardakani, OH and Nasser, NA and Gregory, BRB and Patterson, RT and Galloway, JM, Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites, GAC-MAC 2021 Abstracts Book, 1-5 November 2021, Ontario, Canada/ Online, pp. 219. (2021) [Conference Extract] http://ecite.utas.edu.au/148516 Environmental Sciences Environmental management Natural resource management Conference Extract NonPeerReviewed 2021 ftunivtasecite 2022-05-16T22:16:44Z Climate change is affecting the seasonality, biological productivity, and hydrology of lakes in high northern latitudes. These changes may affect the cycling of naturally occurring metal(loid)s and long-term stability of mining-derived contaminants. In mineralized regions, where concentrations of naturally occurring metal(loids) are commonly above environmental quality guidelines, understanding the transport and fate of elements and the drivers of chemical change is especially relevant to guide cumulative effects assessments at past, present and future mine sites. This study integrates arsenic geochemistry, organic petrography, multivariate analysis of climate proxies (particle size, organic matter type and quantity), and radiometric dating (14C and 210Pb) to determine the influence of modern and late-Holocene (5,000 yr cal BP to present) warming episodes on the loading and cycling of arsenic in lake sediments. Integrated paleoclimate and sediment geochemistry reconstructions of two sediment cores collected from mining-impacted lakes in the Courageous Lake Greenstone Belt, Northwest Territories, Canada, document increases in sediment and porewater arsenic concentrations coincident with periods of climate warming. The presence of both primary arsenopyrite and secondary, authigenic arsenic-bearing minerals (framboidal pyrite and Fe-oxyhydroxides; determined by SEM, EMPA and synchrotron-based bulk-XANES) suggests that enhanced weathering and active remobilization of geogenic arsenic occurred in lake catchments during past warming intervals. Detailed characterization of the solid-phase speciation of arsenic and its association with organic matter shows that organic material plays an important role in stabilizing redox-sensitive authigenic minerals (i.e., sulphides and Fe-oxyhydroxides) in lake sediments. Based on the results of this study, we expect that increased concentrations of aquatic- and terrestrially-derived labile organic matter will drive the redistribution of arsenic in shallow lake sediments and result ... Conference Object Northwest Territories eCite UTAS (University of Tasmania) Northwest Territories Canada Courageous Lake ENVELOPE(-111.251,-111.251,64.167,64.167)
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Environmental Sciences
Environmental management
Natural resource management
spellingShingle Environmental Sciences
Environmental management
Natural resource management
Miller, CB
Parsons, MB
Jamieson, HE
Ardakani, OH
Nasser, NA
Gregory, BRB
Patterson, RT
Galloway, JM
Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
topic_facet Environmental Sciences
Environmental management
Natural resource management
description Climate change is affecting the seasonality, biological productivity, and hydrology of lakes in high northern latitudes. These changes may affect the cycling of naturally occurring metal(loid)s and long-term stability of mining-derived contaminants. In mineralized regions, where concentrations of naturally occurring metal(loids) are commonly above environmental quality guidelines, understanding the transport and fate of elements and the drivers of chemical change is especially relevant to guide cumulative effects assessments at past, present and future mine sites. This study integrates arsenic geochemistry, organic petrography, multivariate analysis of climate proxies (particle size, organic matter type and quantity), and radiometric dating (14C and 210Pb) to determine the influence of modern and late-Holocene (5,000 yr cal BP to present) warming episodes on the loading and cycling of arsenic in lake sediments. Integrated paleoclimate and sediment geochemistry reconstructions of two sediment cores collected from mining-impacted lakes in the Courageous Lake Greenstone Belt, Northwest Territories, Canada, document increases in sediment and porewater arsenic concentrations coincident with periods of climate warming. The presence of both primary arsenopyrite and secondary, authigenic arsenic-bearing minerals (framboidal pyrite and Fe-oxyhydroxides; determined by SEM, EMPA and synchrotron-based bulk-XANES) suggests that enhanced weathering and active remobilization of geogenic arsenic occurred in lake catchments during past warming intervals. Detailed characterization of the solid-phase speciation of arsenic and its association with organic matter shows that organic material plays an important role in stabilizing redox-sensitive authigenic minerals (i.e., sulphides and Fe-oxyhydroxides) in lake sediments. Based on the results of this study, we expect that increased concentrations of aquatic- and terrestrially-derived labile organic matter will drive the redistribution of arsenic in shallow lake sediments and result ...
format Conference Object
author Miller, CB
Parsons, MB
Jamieson, HE
Ardakani, OH
Nasser, NA
Gregory, BRB
Patterson, RT
Galloway, JM
author_facet Miller, CB
Parsons, MB
Jamieson, HE
Ardakani, OH
Nasser, NA
Gregory, BRB
Patterson, RT
Galloway, JM
author_sort Miller, CB
title Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
title_short Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
title_full Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
title_fullStr Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
title_full_unstemmed Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
title_sort post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites
publisher .
publishDate 2021
url https://gacmac2021.ca/
http://ecite.utas.edu.au/148516
long_lat ENVELOPE(-111.251,-111.251,64.167,64.167)
geographic Northwest Territories
Canada
Courageous Lake
geographic_facet Northwest Territories
Canada
Courageous Lake
genre Northwest Territories
genre_facet Northwest Territories
op_relation http://ecite.utas.edu.au/148516/2/148516 - Post depositional mobility of arsenic in a changing climate, implications for cumulative effects assessments at northern mine sites.pdf
Miller, CB and Parsons, MB and Jamieson, HE and Ardakani, OH and Nasser, NA and Gregory, BRB and Patterson, RT and Galloway, JM, Post-depositional mobility of arsenic in a changing climate: implications for cumulative effects assessments at northern mine sites, GAC-MAC 2021 Abstracts Book, 1-5 November 2021, Ontario, Canada/ Online, pp. 219. (2021) [Conference Extract]
http://ecite.utas.edu.au/148516
_version_ 1766150587589591040

Similar Items