期刊
JOURNAL OF HYDROLOGY-REGIONAL STUDIES
卷 38, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.ejrh.2021.100974
关键词
Acid mine drainage; Geochemistry; Stable isotopes; Pit lakes; Water; Natural attenuation; Touristic use; Geotourism
This article investigates the temporal and spatial water chemistry variation and stable isotopic composition in long-time abandoned mining lakes in Southwest Poland. The study finds that processes in the lakes are similar, with differences resulting from depth, altitude, and source of inflow. The lakes exhibit characteristics such as stratification, evaporation influence, and bacterial sulfate reduction.
Study region: This article contributes to understanding processes occurring in long-time abandoned, shallow and unremediated mining lakes exemplified by the Colorful Lakes near Wie ' sciszowice, Southwest Poland. Study focus: Temporal and spatial water chemistry variation and stable isotopic composition has been investigated in two sampling campaigns in wet and dry seasons. Novelties relating to these Lakes are that for the first time, depth and temporal dependent samples were studied chemically and isotopically. Water samples from various depths of the lakes and drainage water were analyzed for main ions, trace and semi-metals as well as sulfur and water isotopes. Data were interpreted statistically and with the chemical-thermodynamic code PHREEQC. New hydrological insights for the region: Processes in the lakes are similar, resulting from rain and groundwater infiltrating the rocks and mine residues and leaching efflorescent salts. Differences result from the lakes' depth, altitude, and source of inflow. They cause the Blue Lake to be in the Al- and the Yellow and Purple Lakes in the Fe-buffer-range. These lakes' characteristics result either in stratification, evaporation influence or a well-mixed pit lake identified by the isotope variability. Isotope results further identified bacterial sulfate reduction throughout the lake water column during spring and summer. Saturation indices show an undersaturation in relation to most phases, and the species distribution in the lakes mirrors their individual buffer environment.
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