Trace Elements in the Bottom Sediments of the Crimean Saline Lakes. Is It Possible to Explain Their Concentration Variability?

Nickolai Shadrin,Natalia Mirzoeva,Oksana Miroshnichenko,Elena Anufriieva,Natalia Kravchenko,Nataliya Tereshchenko

doi:10.3390/w12092364

Nickolai Shadrin, Natalia Mirzoeva + Show 4 more

Open Access

https://doi.org/10.3390/w12092364

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Journal: Water	Publication Date: Aug 23, 2020
Citations: 7	License type: CC BY 4.0

Affiliation: Marine Hydrophysical Institute

Abstract

Knowledge of trace elements content and their behavior in aquatic ecosystems is important for their sustainable use. There is a lack of such data for saline and, especially, hypersaline lakes and lagoons. Concentrations of more than 20 elements were evaluated in bottom sediments of 15 saline/hypersaline lakes and Lagoon Sivash in Crimea. An average salinity varied from 4 to 335 g/L in studied water bodies. The concentration of the trace elements varied from lake to lake. The highest variability was recorded for Cd, from 4.13 mg/kg to below the detectable level (CV = 1.463), and for Se, from 5.52 to 0.05 mg/kg (CV = 1.053). The lowest variability demonstrated by Cr, from 368 to 17 mg/kg (CV = 0.463), and by V, from 67.8 to 1.7 mg/kg (CV = 0.481). According to the found content of studied elements, all lakes were separated into three groups, and Lagoon Sivash was not included in these clusters. Salinity affected the concentration of some elements in bottom sediments, and this effect was not linear or unidirectional. In some cases, the action of other factors, often unknown, masked the effect of salinity. The geochemical background affects the structure and functioning of aquatic ecosystems, but the state of these ecosystems can significantly modify this background. An understanding of the differences in the elemental composition of bottom sediments in different lakes is possible only based on an integrated consideration of the interaction of all landscape, intra-ecosystem, and anthropogenic processes and factors that can influence this.

Highlights

To some extent, geochemical factors determine the formation of the structure and functioning of aquatic ecosystems [1,2,3]
Concentrations of Ca, Sr, and Mn in the bottom sediments did not correlate with the salinity, and the concentration of Fe significantly correlated with the salinity (R = 0.585, p = 0.03) in thalassohaline lakes and the dependence was approximated by the equation: CFe = 13.39 + 0.06 × S, (2)
Cluster analysis was performed for lakes, where Ca, Fe, Mn, and Sr were determined; it showed that all lakes are grouped into two main clusters

Summary

Introduction

Geochemical factors determine the formation of the structure and functioning of aquatic ecosystems [1,2,3]. Are essential food elements that are critically needed in some quantities for physiological processes in organisms, their proper growth, and development [4,5]. Being essential, they may become toxic at high concentrations [6]. Some other elements, such as Ag, As, Cd, Cr, Hg, Ni, Pb, Sn, and others have no currently known biological functions but lead to toxic effects even at low concentration [7,8] Geochemical anomalies with such low or high concentrations of different elements form due to the natural geological factors as well as to the different anthropogenic activities [9]. Increased or decreased concentrations of trace elements in aquatic environmental components can pose risks to the normal ecosystem functioning and the health of people that use ecosystem resources [7,8,10]

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