首页|期刊导航|水文地质工程地质|地下水中痕量汞的形态分布与迁移机制

地下水中痕量汞的形态分布与迁移机制

皮坤福王焰新 LIU Juewen 杨雅楠 PHILIPPE Van Cappellen

水文地质工程地质2025，Vol.52Issue(2)：1-13,中插1-中插4,17.

水文地质工程地质2025，Vol.52Issue(2)：1-13,中插1-中插4,17.DOI:10.16030/j.cnki.issn.1000-3665.202410014

地下水中痕量汞的形态分布与迁移机制

Speciation and mobilization of ultra-trace Hg(Ⅱ)in groundwater

皮坤福 ¹王焰新 ²LIU Juewen ³杨雅楠 ²PHILIPPE Van Cappellen⁴

作者信息

1. 中国地质大学(武汉)环境学院/地下水质与健康教育部重点实验室,湖北武汉 430074||滑铁卢大学地球与环境科学系生态水文学研究组,安大略省滑铁卢 N2L3G1
2. 中国地质大学(武汉)环境学院/地下水质与健康教育部重点实验室,湖北武汉 430074
3. 滑铁卢大学化学系/纳米技术研究所,安大略省滑铁卢 N2L3G1
4. 滑铁卢大学地球与环境科学系生态水文学研究组,安大略省滑铁卢 N2L3G1
折叠

摘要

Abstract

Accurate quantification of various mercury(Hg)species dynamics in groundwater is critical for understanding Hg mobilization,fate,and consequent impacts on water ecological security.This foundational work,however,faces challenges due to the lack of highly sensitive,reliable,and field-deployable detection technologies that can determine and monitor ultra-trace Hg(II)in groundwater.Here,this research presents and assesses two types of biosensing methods for dissolved Hg(II)based on a deoxyribonucleic acid(DNA)sensing material:the DNA-functionalized hydrogel for direct Hg(II)detection in groundwater and the DNA-DGT sensor for simultaneous sampling and detection with the diffusive gradients in thin films technique(DGT).Applying tests to hydrogeochemically diverse groundwaters from the Grand River Watershed,Canada,the results indicate that the DNA-functionalized hydrogel is able to quickly detect dissolved Hg(II)but inapplicable to low Hg(II)concentrations(<1.60 μg/L),whereas the DNA-DGT sensor can capture variably ultra-trace Hg(II)species depending on the deployment time.Quantification of Hg(II)species in groundwater via joint DNA-DGT sensing and hydrogeochemical calculation indicates that temperature,pH,Cl-,and dissolved organic matter significantly affected partitioning of trace Hg(II)between various mobile species,diffusion efficiency,and thus its mobility.Combined with hydrogeochemical modeling,the DNA-DGT measurements reveal that mobilization and transformation of Hg(II)are linked to redox cycling of sulfur in groundwater.This study therefore highlights that monitoring of low-level Hg(II)with ultra-sensitive,field-deployable biosensing methods is of significance to understanding mobility and fate of Hg in groundwater and its threat to safe drinking water supply.

关键词

汞/生物纳米传感/地下水污染/原位检测/水文地球化学模拟/迁移转化

Key words

mercury/bionanosensing/groundwater pollution/in-situ monitoring/hydrogeochemical modeling/mobilization

分类

地质学

引用本文复制引用

皮坤福,王焰新,LIU Juewen,杨雅楠,PHILIPPE Van Cappellen..地下水中痕量汞的形态分布与迁移机制[J].水文地质工程地质,2025,52(2):1-13,中插1-中插4,17.

基金项目

国家重点研发计划项目(2023YFC3708001) （2023YFC3708001）

111计划(B18049) （B18049）

中央高校基本科研业务费(CUG230614) （CUG230614）

加拿大自然科学与工程研究委员会战略合作伙伴项目(STPGP507070) （STPGP507070）

水文地质工程地质

OA北大核心

ISSN：1000-3665

访问量0

下载量0

段落导航