Sources and transformation of mercury in a karst lake ecosystem : a new perspective based on stable mercury isotopes

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dc.contributor.author

Zhang, Hui

Fu, Xuewu

Wu, Xian

Deng, Qianwen

Tang, Kaihui

Zhang, Leiming

Sommar, Jonas Olof

Feng, Xinbin

dc.date.accepted

2025-05-12

dc.date.accessioned

2025-06-26T19:47:11Z

dc.date.available

2025-06-26T19:47:11Z

dc.date.issued

2025-09-01

dc.date.submitted

2025-01-03

dc.description.abstract - en

Identification of sources and transformation mechanisms of mercury (Hg) is fundamental to our understanding of the biogeochemical cycling of Hg in lake ecosystems. In this study, we conducted a comprehensive investigation on the isotopic compositions of Hg in water columns, sediments, atmospheric deposition endmembers, watershed river and runoff in Hongfeng Lake (HFL) ecosystem in southwestern China. We observed significant difference in δ²⁰²Hg between dissolved Hg (DHg) and particulate Hg (PHg) in lake, river, and runoff samples, with lighter isotopes preferentially adsorbed onto particulate matter. Δ¹⁹⁹Hg was also significantly higher for DHg than PHg in lake and river waters, primarily due to the higher susceptibility of DHg to photochemical reduction processes. Δ¹⁹⁹Hg and Δ²⁰⁰Hg of Hg in sediments were similar to those of PHg in water column, but significantly different from those of DHg, reflecting the dominant role of sedimentation of PHg from water column in the Hg accumulation in sediments. The isotopic compositions of Hg in lake water and sediments lied between those of atmospheric deposition and watershed runoff end-members. Using a Hg isotope mass balance model, we estimated that runoff input accounted for 72.3% of total Hg input into the HFL ecosystem, followed by riverine input (10.3%), particulate-bound Hg (PBM) dry deposition (5.5%), Hg(II) wet deposition (5.5%), Hg(0) dry deposition (4.2%), and gaseous oxidized Hg (GOM) dry deposition (2.2%). These results highlight the key role of watershed runoff as a source of Hg in lake ecosystems and improve our understanding of the biogeochemical cycling of Hg such ecosystems.

dc.identifier.issn

1879-2448

0043-1354

dc.identifier.uri

https://open-science.canada.ca/handle/123456789/3753

dc.language.iso

en

dc.publisher - en

Elsevier

dc.relation.isreplacedby

https://doi.org/10.1016/j.watres.2025.123820

dc.rights - en

Open Government Licence - Canada

dc.rights - fr

Licence du gouvernement ouvert - Canada

dc.rights.openaccesslevel - en

Green

dc.rights.openaccesslevel - fr

Vert

dc.rights.uri - en

https://open.canada.ca/en/open-government-licence-canada

dc.rights.uri - fr

https://ouvert.canada.ca/fr/licence-du-gouvernement-ouvert-canada

dc.subject - en

Mercury

Aquatic ecosystems

Lakes

Sediments

Water quality

dc.subject - fr

Mercure

Écosystème aquatique

Lac

Sédiment

Qualité de l'eau

dc.subject.en - en

Mercury

Aquatic ecosystems

Lakes

Sediments

Water quality

dc.subject.fr - fr

Mercure

Écosystème aquatique

Lac

Sédiment

Qualité de l'eau

dc.title - en

Sources and transformation of mercury in a karst lake ecosystem : a new perspective based on stable mercury isotopes

dc.title.alternative - en

Watershed runoff as a dominant pathway for mercury loading into a karst lake as unraveled by a novel mercury isotope and flux balance model

dc.type - en

Submitted manuscript

dc.type - fr

Manuscrit soumis

local.acceptedmanuscript.articlenum

123820

local.article.journaltitle - en

Water Research

local.article.journalvolume

283

local.pagination

28 pages, annexes

local.peerreview - en

No

local.peerreview - fr

Non

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