低氧合。在一个废弃矿山下游的卡曼奇水库，铜、锌、铁和锰含量下降

IF 1.1 4区环境科学与生态学 Q4 LIMNOLOGY

Lake and Reservoir Management Pub Date : 2022-02-28 DOI:10.1080/10402381.2021.1905755

A. Horne, Rodney Jung

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引用次数: 2

摘要

[摘要]霍恩杰，荣格。2022。低氧合。在一个废弃矿山下游的卡曼奇水库，铜、锌、铁和锰含量下降。湖保护区。管理。38:139 - 149。加利福尼亚州卡曼奇水库上游的一个废弃矿山使沉积物中的铜(Cu)和锌(Zn)浓度增加了10倍。监管机构和环保人士声称，水库床上的低氧氧化系统(HOS)会搅动沉积物，增加供应给莫克鲁姆河及其大型鱼类孵化场的钢头鲑鱼和奇努克鲑鱼的低氧水的金属毒性。相反，HOS处理后，Zn和Cu的浓度下降幅度较小，铁(Fe)和锰(Mn)的浓度下降幅度较大。在HOS之前，ΣCu浓度相对较低(平均深层3.3µg/L，表层2.4µg/L)，但在软水中有时超过水生生物标准3µg/L。HOS后，长期平均值ΣCu下降12%至2.9µg/L(深);表面浓度不变。在HOS之前，底层水ΣZn(平均值= 17.7µg/L)偶尔超过27µg/L的标准，但在HOS之后，长期平均值下降了36%，为11.3µg/L。相反，ΣFe下降了40倍，溶解的Fe下降了150倍，ΣMn下降了30倍，溶解的Mn下降了400倍。铁和锰的下降与氧化物析出一致。然而，Cu和Zn的下降是由于在氧化的HOS羽流中混合时较深的低磷离子均匀化，而不是由于氧化本身或HOS诱导藻类减少79%。居屋计划对水库管理很重要，它能略微减少水库流出物中的重金属，对下游河流和鱼类孵化场有利。通过曝气或螺旋桨进行混合，预计也会有类似的结果。

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Hypolimnetic oxygenation 5. Copper, zinc, iron, and manganese declines in Camanche Reservoir downstream of an abandoned mine

Abstract Horne, AJ, Jung R. 2022. Hypolimnetic oxygenation 5. Copper, zinc, iron, and manganese declines in Camanche Reservoir downstream of an abandoned mine. Lake Reserve. Manage. 38:139–149. An abandoned mine upstream of Camanche Reservoir in California had increased sediment copper (Cu) and zinc (Zn) concentrations by 10-fold. Regulators and environmentalists claimed that a hypolimnetic oxygenation system (HOS) on the reservoir bed would stir sediments and increase metal toxicity in the hypolimnetic water supplied to steelhead and Chinook salmon in the Mokelumne River and its large fish hatchery. On the contrary, after HOS, small decreases in the concentrations of Zn and Cu and large decreases in iron (Fe) and manganese (Mn) occurred. Before HOS, ΣCu concentrations were relatively low (mean deep, 3.3 µg/L, surface, 2.4 µg/L) but in the soft water sometimes exceeded an aquatic life criterion of 3 µg/L. After HOS, the long-term mean ΣCu dropped 12% to 2.9 µg/L (deep); surface concentrations were unchanged. Before HOS, bottom water ΣZn (mean = 17.7 µg/L) occasionally exceeded the criterion of 27 µg/L, but after HOS the long-term mean fell 36% to 11.3 µg/L. In contrast, ΣFe dropped 40-fold, dissolved Fe dropped 150-fold, ΣMn dropped 30-fold, and dissolved Mn dropped 400-fold. Fe and Mn declines were consistent with oxide precipitation. However, declines in Cu and Zn were due to homogenization of the deeper hypolimnion by mixing in the oxygenated HOS plume and not due to oxidation itself or the HOS-induced 79% reduction in algae. Important for reservoir management, HOS slightly reduced heavy metals in the reservoir outflows, benefiting the downstream river and fish hatchery. Similar results are predicted for mixing by aeration or propellers.

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来源期刊

Lake and Reservoir Management 环境科学-海洋与淡水生物学

自引率

6.70%

发文量

期刊介绍： Lake and Reservoir Management (LRM) publishes original, previously unpublished studies relevant to lake and reservoir management. Papers address the management of lakes and reservoirs, their watersheds and tributaries, along with the limnology and ecology needed for sound management of these systems. Case studies that advance the science of lake management or confirm important management concepts are appropriate as long as there is clearly described management significance. Papers on economic, social, regulatory and policy aspects of lake management are also welcome with appropriate supporting data and management implications. Literature syntheses and papers developing a conceptual foundation of lake and watershed ecology will be considered for publication, but there needs to be clear emphasis on management implications. Modeling papers will be considered where the model is properly verified but it is also highly preferable that management based on the model has been taken and results have been documented. Application of known models to yet another system without a clear advance in resultant management are unlikely to be accepted. Shorter notes that convey important early results of long-term studies or provide data relating to causative agents or management approaches that warrant further study are acceptable even if the story is not yet complete. All submissions are subject to peer review to assure relevance and reliability for management application.