Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS
An in-situ DGT (diffusive gradient in thin films) technique was deployed to gleyic-layer soils identified in the active layer of eight Arctic islands for the release-resupply processes of labile Cd, Zn, and Pb during the thawing season. The capability to maintain the initial soil concentration of th...
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ftulancaster:oai:eprints.lancs.ac.uk:168085 2023-08-27T04:06:41+02:00 Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS Ji, X. Cheng, Y. Abakumov, E. Zhang, H. Han, C. Tang, R. Wu, D. Xie, X. 2021-11-30 https://eprints.lancs.ac.uk/id/eprint/168085/ https://doi.org/10.1016/j.catena.2021.105539 unknown Ji, X. and Cheng, Y. and Abakumov, E. and Zhang, H. and Han, C. and Tang, R. and Wu, D. and Xie, X. (2021) Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS. Catena, 206. ISSN 0341-8162 Journal Article PeerReviewed 2021 ftulancaster https://doi.org/10.1016/j.catena.2021.105539 2023-08-03T22:41:13Z An in-situ DGT (diffusive gradient in thin films) technique was deployed to gleyic-layer soils identified in the active layer of eight Arctic islands for the release-resupply processes of labile Cd, Zn, and Pb during the thawing season. The capability to maintain the initial soil concentration of these metals is highly dependent upon landscape elevation and soil texture, which determines the labile pool size of metals (Kdl). Cd and Zn had larger labile pools compared to Pb, indicating a larger resupply capacity for those metals. The rate at which the soil system can supply metal from solid phase to solution, represented as response time (Tc), of Zn and Cd was very short (<1 min), indicating rapid resupply. The longer Tc for Pb (~5 min) was consistent with its slower desorption. In fluctuating permafrost-affected areas, the increasing elevation, which causes heterogeneity in soil texture, organic matter, and pH, resulted in lower Kdl and higher Tc for Cd, Zn, and Pb. Combined with BCR methods, labile Cd was associated with Fe oxides, Zn was associated with both Fe and Mn oxides, and Pb was associated with Mn oxides and also highly bound to micro-aggregates and dissolved organic matter. © 2021 Elsevier B.V. Article in Journal/Newspaper Arctic Arctic permafrost Lancaster University: Lancaster Eprints Arctic CATENA 206 105539 |
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Open Polar |
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Lancaster University: Lancaster Eprints |
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ftulancaster |
language |
unknown |
description |
An in-situ DGT (diffusive gradient in thin films) technique was deployed to gleyic-layer soils identified in the active layer of eight Arctic islands for the release-resupply processes of labile Cd, Zn, and Pb during the thawing season. The capability to maintain the initial soil concentration of these metals is highly dependent upon landscape elevation and soil texture, which determines the labile pool size of metals (Kdl). Cd and Zn had larger labile pools compared to Pb, indicating a larger resupply capacity for those metals. The rate at which the soil system can supply metal from solid phase to solution, represented as response time (Tc), of Zn and Cd was very short (<1 min), indicating rapid resupply. The longer Tc for Pb (~5 min) was consistent with its slower desorption. In fluctuating permafrost-affected areas, the increasing elevation, which causes heterogeneity in soil texture, organic matter, and pH, resulted in lower Kdl and higher Tc for Cd, Zn, and Pb. Combined with BCR methods, labile Cd was associated with Fe oxides, Zn was associated with both Fe and Mn oxides, and Pb was associated with Mn oxides and also highly bound to micro-aggregates and dissolved organic matter. © 2021 Elsevier B.V. |
format |
Article in Journal/Newspaper |
author |
Ji, X. Cheng, Y. Abakumov, E. Zhang, H. Han, C. Tang, R. Wu, D. Xie, X. |
spellingShingle |
Ji, X. Cheng, Y. Abakumov, E. Zhang, H. Han, C. Tang, R. Wu, D. Xie, X. Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
author_facet |
Ji, X. Cheng, Y. Abakumov, E. Zhang, H. Han, C. Tang, R. Wu, D. Xie, X. |
author_sort |
Ji, X. |
title |
Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
title_short |
Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
title_full |
Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
title_fullStr |
Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
title_full_unstemmed |
Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS |
title_sort |
desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in arctic region assessed by geochemical fractionation and dgt/difs |
publishDate |
2021 |
url |
https://eprints.lancs.ac.uk/id/eprint/168085/ https://doi.org/10.1016/j.catena.2021.105539 |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic Arctic permafrost |
genre_facet |
Arctic Arctic permafrost |
op_relation |
Ji, X. and Cheng, Y. and Abakumov, E. and Zhang, H. and Han, C. and Tang, R. and Wu, D. and Xie, X. (2021) Desorption kinetics of heavy metals in the gleyic layer of permafrost-affected soils in Arctic region assessed by geochemical fractionation and DGT/DIFS. Catena, 206. ISSN 0341-8162 |
op_doi |
https://doi.org/10.1016/j.catena.2021.105539 |
container_title |
CATENA |
container_volume |
206 |
container_start_page |
105539 |
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1775347511759732736 |