Antimony Flux and Transport Dynamics in a Mining-Impacted River Is Linked to Catchment Hydrodynamics and Climate Oscillations

IF 3.2 3区 地球科学 Q1 Environmental Science
Gretchen Wichman, Scott G. Johnston, Damien T. Maher
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Abstract

We investigate how seasonal flow variations and a climatic regime that is dominated by the El Niño–Southern Oscillation (ENSO) influence Sb flux dynamics in an Australian river impacted by mining. Sampling (n = 496) spans a hydrologically complex 7-year period of drought, bushfires and floods from 2016 to 2023, during which 17% of samples exceeded the Sb drinking water guideline concentration (3 μg L−1). Aqueous Sb (SbAq) concentration–discharge (CQ) relationships are non-continuous/non-linear across the flow range, with chemodynamic behaviour at moderate flows reflecting hydrological connection to the primary Sb-source area combined with variable dilution. In contrast chemostatic behaviour occurred at extreme low and high flows, reflecting hydrological disconnection from the source area and persistent dilution, respectively. SbAq was significantly positively correlated (p < 0.01, Spearman's ρ = 0.58) with a Q index representing the proportional contribution of sub-catchment flow from the mineral-field area, suggesting sufficient localised rainfall in the Sb mining-impacted sub-catchment contributes to downstream peaks in SbAq concentrations. Aqueous and particulate Sb (SbP) annual loads (La) during the study period spanned 24–5174 and 1.2–2820 kg, respectively and were strongly flow dependant with extreme interannual variability reflecting dry and wet years. We extrapolate daily load-daily discharge (LdQd) relationships for SbAq and SbP to estimate Ld over a 53-year period (1970–2023) of continuous Q data (mean total Sb La = 1865 kg ± [SE] 247). Positive correlations between the annual Southern Oscillation Index and both Sb La (p < 0.05) and proportional SbP La over 53 years suggests ENSO fluctuations influence annual Sb transport dynamics. Upstream SbP load estimates correspond with downstream estimates of coastal floodplain sedimentary Sb mass, with approximately 10%–45% of the estimated SbP exported downstream since approximately 1880 accumulated on the Macleay coastal floodplain. Data suggest at current rates of export, complete flushing-leaching of mine tailings-derived Sb from the upper Macleay catchment may take in the order approximately 600–1000 years.

Abstract Image

受采矿影响河流中的锑通量和迁移动力学与流域水动力和气候振荡有关
我们研究了季节性流量变化和厄尔尼诺-南方涛动(ENSO)主导的气候系统如何影响一条受采矿影响的澳大利亚河流的锑通量动态。采样(n = 496)的时间跨度为 2016 年至 2023 年的 7 年,期间经历了干旱、丛林大火和洪水等复杂的水文过程,17% 的样本超过了锑的饮用水指导浓度(3 μg L-1)。在整个流量范围内,水体锑(SbAq)浓度-排量(C-Q)关系是非连续/非线性的,中等流量下的化学动力学行为反映了与主要锑源区的水文联系以及可变稀释。与此相反,在极端低流量和高流量时出现了化学稳定性,分别反映了与源区的水文联系断开和持续稀释。SbAq 与代表来自矿区的子流域流量比例的 Q 指数呈显著正相关(p < 0.01,Spearman's ρ = 0.58),这表明受锑矿开采影响的子流域的局部降雨量充足,导致下游的 SbAq 浓度达到峰值。研究期间,水体和颗粒锑(SbP)的年负荷(La)分别为 24-5174 千克和 1.2-2820 千克,与流量密切相关,年际变化极大,反映了干旱和潮湿年份的情况。我们通过推断 SbAq 和 SbP 的日负荷-日排放量(Ld-Qd)关系,估算出 53 年(1970-2023 年)连续 Q 数据的 Ld(Sb La 平均总量 = 1865 kg ± [SE] 247)。53 年间,年度南方涛动指数与 Sb La(p < 0.05)和 SbP La 比例之间的正相关性表明,厄尔尼诺/南方涛动波动会影响 Sb 的年度迁移动态。上游 SbP 负荷估算值与下游沿岸洪泛平原沉积 Sb 量的估算值相吻合,自约 1880 年以来向下游输出的 SbP 估算值中,约有 10%-45%积聚在麦克雷沿岸洪泛平原上。数据表明,按照目前的输出速度,上游麦克雷集水区矿山尾矿产生的锑可能需要大约 600-1000 年的时间才能完全冲刷浸出。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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