生物地球化学和水文协同作用控制干旱区河流-水库系统中汞的命运

IF 4.3 3区 环境科学与生态学 Q1 CHEMISTRY, ANALYTICAL
Brett A. Poulin, Michael T. Tate, Jacob Ogorek, Sara E. Breitmeyer, Austin K. Baldwin, Alysa M. Yoder, Reed Harris, Jesse Naymik, Nick Gastelecutto, Charles Hoovestol, Christopher Larsen, Ralph Myers, George R. Aiken and David P. Krabbenhoft
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引用次数: 1

摘要

干旱景观中的水库提供了关键的蓄水和水力发电,但影响了汞的运输和生物地球化学循环。改善水库管理以减轻水生食物网中生物可利用甲基汞(MeHg)的供应和吸收,将受益于对水库内部和下游无机二价汞(Hg(II))和MeHg命运的机制理解。在此,我们对2016-2020年高时间分辨率的水中汞(II)、甲基汞(MeHg)和其他相关生物地球化学成分(过滤后的和与颗粒相关的)进行了量化。这是在(1)三个连续的水电水库(Snake River,爱达荷州,俄勒冈州)的流入和流出位置进行的,(2)在第一个水库(Brownlee水库)的纵向和纵向上进行的。春季高流量下,颗粒Hg(Hg(II)和MeHg)和通过过滤器的Hg(II)的上游输入分别受总悬浮固体和溶解有机质的控制。在夏季氧化还原分层条件下,Brownlee水库中中、低磷中MeHg的净形成导致过滤通过和颗粒MeHg浓度升高,后者超过500 ng g?1关于粒子。同时,颗粒有机质含量在纵向上(9 ~ 29%)呈上升趋势,在时间上随分层持续时间呈上升趋势。在夏末和秋季,脱层作用分别从Brownlee水库的上行金属离子和下行低铁离子中调动了MeHg,导致通过过滤器的MeHg含量升高,并向下游出口了富含MeHg的富有机颗粒(MeHg含量高达43%)。我们记录了生物地球化学和水文耦合过程,这些过程产生了水库中甲基汞的积累和以水和颗粒的形式输出,从而影响了水库内部和下游水生食物网对甲基汞的吸收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Biogeochemical and hydrologic synergy control mercury fate in an arid land river-reservoir system†

Biogeochemical and hydrologic synergy control mercury fate in an arid land river-reservoir system†

Reservoirs in arid landscapes provide critical water storage and hydroelectric power but influence the transport and biogeochemical cycling of mercury (Hg). Improved management of reservoirs to mitigate the supply and uptake of bioavailable methylmercury (MeHg) in aquatic food webs will benefit from a mechanistic understanding of inorganic divalent Hg (Hg(II)) and MeHg fate within and downstream of reservoirs. Here, we quantified Hg(II), MeHg, and other pertinent biogeochemical constituents in water (filtered and associated with particles) at high temporal resolution from 2016–2020. This was done (1) at inflow and outflow locations of three successive hydroelectric reservoirs (Snake River, Idaho, Oregon) and (2) vertically and longitudinally within the first reservoir (Brownlee Reservoir). Under spring high flow, upstream inputs of particulate Hg (Hg(II) and MeHg) and filter-passing Hg(II) to Brownlee Reservoir were governed by total suspended solids and dissolved organic matter, respectively. Under redox stratified conditions in summer, net MeHg formation in the meta- and hypolimnion of Brownlee reservoir yielded elevated filter-passing and particulate MeHg concentrations, the latter exceeding 500 ng g?1 on particles. Simultaneously, the organic matter content of particulates increased longitudinally in the reservoir (from 9–29%) and temporally with stratified duration. In late summer and fall, destratification mobilized MeHg from the upgradient metalimnion and the downgradient hypolimnion of Brownlee Reservoir, respectively, resulting in downstream export of elevated filter-passing MeHg and organic-rich particles enriched in MeHg (up to 43% MeHg). We document coupled biogeochemical and hydrologic processes that yield in-reservoir MeHg accumulation and MeHg export in water and particles, which impacts MeHg uptake in aquatic food webs within and downstream of reservoirs.

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来源期刊
Environmental Science: Processes & Impacts
Environmental Science: Processes & Impacts CHEMISTRY, ANALYTICAL-ENVIRONMENTAL SCIENCES
CiteScore
9.50
自引率
3.60%
发文量
202
审稿时长
1 months
期刊介绍: Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.
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