2017
DOI: 10.1002/lno.10770
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Distribution of trace elements and the influence of major‐ion water chemistry in saline lakes

Abstract: Although the water chemistry in saline lakes can differ drastically due to subtle differences in inflowing water conditions, the concentrations, distributions, and geochemical behaviors of trace elements in such environments are poorly understood. In this study, the influence of major‐ion chemistry on the trace element distribution in saline lakes is examined based on major and trace element concentrations and geochemical modeling in three carbonate‐rich saline lakes located in Mongolia and Turkey. The results… Show more

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Cited by 10 publications
(8 citation statements)
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“…Measuring concentrations of trace metals at the nanomolar level is extremely difficult in hypersaline solutions, and finding that the Co, Mo, and U concentrations of the englacial brine are similar to the earlier work published on WLB suggests these data are robust, and these waters have a similar source. In addition, these low values also support recent work indicating that in general, chloride‐rich saline lakes have lower Mo, V, and U than seawater (Mochizuki et al, ).…”
Section: Resultssupporting
confidence: 86%
“…Measuring concentrations of trace metals at the nanomolar level is extremely difficult in hypersaline solutions, and finding that the Co, Mo, and U concentrations of the englacial brine are similar to the earlier work published on WLB suggests these data are robust, and these waters have a similar source. In addition, these low values also support recent work indicating that in general, chloride‐rich saline lakes have lower Mo, V, and U than seawater (Mochizuki et al, ).…”
Section: Resultssupporting
confidence: 86%
“…Projecting from Toner and Catling ( 2020 ), we simplify the calculation by approximating molarity as molality; we contend this approximation to suffice for the order-of-magnitude estimates we seek. Iodine is proposed to be delivered to surface waters via rainfall, and so we might expect it to be evaporatively concentrated in closed-basin lakes; however, we located no reports of evaporative iodide concentrations in composition studies of such lakes (Friedman et al , 1976 ; Eugster and Jones, 1979 ; Fuge and Johnson, 1986 ; Mochizuki et al , 2018 ; Toner and Catling, 2020 ; Hirst, 2013 ). We, therefore, consider a bracketing range of [I − ] equal to the freshwater lake scenario.…”
Section: Methodsmentioning
confidence: 76%
“…As in the case of MEs and TEs, the PCA analysis carried out for REEs confirmed the results obtained with the CA method (Figure 6f). The presented issues are related to the global research on the chemical characteristics of lake waters [61][62][63][64][65]. In Poland, it is difficult to identify lakes that are not under the influence of human pressure [66,67].…”
Section: Discussionmentioning
confidence: 99%