Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes

Terrestrial runoff represents a major source of mercury (Hg) to aquatic ecosystems. In boreal forest catchments, such as the one in northern Sweden studied here, mercury bound to natural organic matter (NOM) represents a large fraction of mercury in the runoff. We present a method to measure Hg stab...

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Published in:Environmental Science: Processes & Impacts
Main Authors: Jiskra, Martin, Wiederhold, Jan G., Skyllberg, Ulf, Kronberg, Rose-Marie, Kretzschmar, Ruben
Format: Article in Journal/Newspaper
Language:English
Published: Royal Society of Chemistry 2017
Subjects:
Northern Sweden
Online Access:https://edoc.unibas.ch/68584/
https://edoc.unibas.ch/68584/1/20190120213828_5c44dc44bb2d1.pdf
https://doi.org/10.1039/c7em00245a
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spelling ftunivbasel:oai:edoc.unibas.ch:68584 2023-05-15T17:45:08+02:00 Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes Jiskra, Martin Wiederhold, Jan G. Skyllberg, Ulf Kronberg, Rose-Marie Kretzschmar, Ruben 2017 application/pdf https://edoc.unibas.ch/68584/ https://edoc.unibas.ch/68584/1/20190120213828_5c44dc44bb2d1.pdf https://doi.org/10.1039/c7em00245a eng eng Royal Society of Chemistry https://edoc.unibas.ch/68584/1/20190120213828_5c44dc44bb2d1.pdf Jiskra, Martin and Wiederhold, Jan G. and Skyllberg, Ulf and Kronberg, Rose-Marie and Kretzschmar, Ruben. (2017) Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes. Environmental science: Processes & impacts, 19 (10). pp. 1235-1248. doi:10.1039/c7em00245a info:pmid/28825440 urn:ISSN:2050-7887 urn:ISSN:2050-7895 info:eu-repo/semantics/openAccess Article PeerReviewed 2017 ftunivbasel https://doi.org/10.1039/c7em00245a 2023-03-05T07:21:17Z Terrestrial runoff represents a major source of mercury (Hg) to aquatic ecosystems. In boreal forest catchments, such as the one in northern Sweden studied here, mercury bound to natural organic matter (NOM) represents a large fraction of mercury in the runoff. We present a method to measure Hg stable isotope signatures of colloidal Hg, mainly complexed by high molecular weight or colloidal natural organic matter (NOM) in natural waters based on pre-enrichment by ultrafiltration, followed by freeze-drying and combustion. We report that Hg associated with high molecular weight NOM in the boreal forest runoff has very similar Hg isotope signatures as compared to the organic soil horizons of the catchment area. The mass-independent fractionation (MIF) signatures (Δ; 199; Hg and Δ; 200; Hg) measured in soils and runoff were in agreement with typical values reported for atmospheric gaseous elemental mercury (Hg; 0; ) and distinctly different from reported Hg isotope signatures in precipitation. We therefore suggest that most Hg in the boreal terrestrial ecosystem originated from the deposition of Hg; 0; through foliar uptake rather than precipitation. Using a mixing model we calculated the contribution of soil horizons to the Hg in the runoff. At moderate to high flow runoff conditions, that prevailed during sampling, the uppermost part of the organic horizon (Oe/He) contributed 50-70% of the Hg in the runoff, while the underlying more humified organic Oa/Ha and the mineral soil horizons displayed a lower mobility of Hg. The good agreement of the Hg isotope results with other source tracing approaches using radiocarbon signatures and Hg : C ratios provides additional support for the strong coupling between Hg and NOM. The exploratory results from this study illustrate the potential of Hg stable isotopes to trace the source of Hg from atmospheric deposition through the terrestrial ecosystem to soil runoff, and provide a basis for more in-depth studies investigating the mobility of Hg in terrestrial ecosystems using Hg ... Article in Journal/Newspaper Northern Sweden University of Basel: edoc Environmental Science: Processes & Impacts 19 10 1235 1248
institution Open Polar
collection University of Basel: edoc
op_collection_id ftunivbasel
language English
description Terrestrial runoff represents a major source of mercury (Hg) to aquatic ecosystems. In boreal forest catchments, such as the one in northern Sweden studied here, mercury bound to natural organic matter (NOM) represents a large fraction of mercury in the runoff. We present a method to measure Hg stable isotope signatures of colloidal Hg, mainly complexed by high molecular weight or colloidal natural organic matter (NOM) in natural waters based on pre-enrichment by ultrafiltration, followed by freeze-drying and combustion. We report that Hg associated with high molecular weight NOM in the boreal forest runoff has very similar Hg isotope signatures as compared to the organic soil horizons of the catchment area. The mass-independent fractionation (MIF) signatures (Δ; 199; Hg and Δ; 200; Hg) measured in soils and runoff were in agreement with typical values reported for atmospheric gaseous elemental mercury (Hg; 0; ) and distinctly different from reported Hg isotope signatures in precipitation. We therefore suggest that most Hg in the boreal terrestrial ecosystem originated from the deposition of Hg; 0; through foliar uptake rather than precipitation. Using a mixing model we calculated the contribution of soil horizons to the Hg in the runoff. At moderate to high flow runoff conditions, that prevailed during sampling, the uppermost part of the organic horizon (Oe/He) contributed 50-70% of the Hg in the runoff, while the underlying more humified organic Oa/Ha and the mineral soil horizons displayed a lower mobility of Hg. The good agreement of the Hg isotope results with other source tracing approaches using radiocarbon signatures and Hg : C ratios provides additional support for the strong coupling between Hg and NOM. The exploratory results from this study illustrate the potential of Hg stable isotopes to trace the source of Hg from atmospheric deposition through the terrestrial ecosystem to soil runoff, and provide a basis for more in-depth studies investigating the mobility of Hg in terrestrial ecosystems using Hg ...
format Article in Journal/Newspaper
author Jiskra, Martin
Wiederhold, Jan G.
Skyllberg, Ulf
Kronberg, Rose-Marie
Kretzschmar, Ruben
spellingShingle Jiskra, Martin
Wiederhold, Jan G.
Skyllberg, Ulf
Kronberg, Rose-Marie
Kretzschmar, Ruben
Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
author_facet Jiskra, Martin
Wiederhold, Jan G.
Skyllberg, Ulf
Kronberg, Rose-Marie
Kretzschmar, Ruben
author_sort Jiskra, Martin
title Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
title_short Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
title_full Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
title_fullStr Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
title_full_unstemmed Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
title_sort source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes
publisher Royal Society of Chemistry
publishDate 2017
url https://edoc.unibas.ch/68584/
https://edoc.unibas.ch/68584/1/20190120213828_5c44dc44bb2d1.pdf
https://doi.org/10.1039/c7em00245a
genre Northern Sweden
genre_facet Northern Sweden
op_relation https://edoc.unibas.ch/68584/1/20190120213828_5c44dc44bb2d1.pdf
Jiskra, Martin and Wiederhold, Jan G. and Skyllberg, Ulf and Kronberg, Rose-Marie and Kretzschmar, Ruben. (2017) Source tracing of natural organic matter bound mercury in boreal forest runoff with mercury stable isotopes. Environmental science: Processes & impacts, 19 (10). pp. 1235-1248.
doi:10.1039/c7em00245a
info:pmid/28825440
urn:ISSN:2050-7887
urn:ISSN:2050-7895
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1039/c7em00245a
container_title Environmental Science: Processes & Impacts
container_volume 19
container_issue 10
container_start_page 1235
op_container_end_page 1248
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