The decline of hypersaline lakes, such as Maharloo Lake, presents significant ecological challenges. That highlights the need to comprehensively analyze the changing dynamics driven by human activities and climate change. Satellite imagery analysis from 1987 to 2022 reveals that the surface area of Maharloo Lake has decreased from 270 to 252 square kilometers due to land use changes. Moreover, the water level of the lake has declined by 30% during the wet season (May) and 90.2% during the dry season (October). The primary factors contributing to this decline include changes in temperature, potential evapotranspiration, excessive groundwater extraction, and the diversion of surface water for agriculture and urban development. These changes have transformed Maharloo Lake from a permanent to a seasonal lake, leading to an increase in the overall extent of barren, saline lands. The lake sediments are predominantly composed of fine-grained, destructive deposits with chemical salts, with over 90% being silt and clay. The average maximum wind speed and threshold erosion velocity indicate a reduced role of wind in eroding the lake's surface sediments, and the low levels of fine particulate matter (PM) and Total Suspended Particulates (TSP) particles around the lake suggest the sediments are resistant to wind erosion and have not been a significant source of dust storms thus far. Understanding the nature of the sediments and their sensitivity to wind erosion, as well as the influence of the erosive wind factor in the occurrence of dust storms, is crucial. One cannot uniformly consider all lakes or dried lake beds as sources of dust storms based solely on changes in water levels.
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Transformations in a hypersaline lake: Examining the linkages between water level changes and Aeolian dust generation.
Environ Res
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Department of Arid and Mountain Reclamation Engineering, University of Tehran, Iran.
The decline of hypersaline lakes, such as Maharloo Lake, presents significant ecological challenges. That highlights the need to comprehensively analyze the changing dynamics driven by human activities and climate change. Satellite imagery analysis from 1987 to 2022 reveals that the surface area of Maharloo Lake has decreased from 270 to 252 square kilometers due to land use changes.
View Article and Find Full Text PDFEnchelyothrix muria n. gen, n. sp., (Ciliophora, Litostomatea, Spathidiida), an extreme halotroph spathidiid from Maharloo Lake, Iran.
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August 2023
Department of Zoology, Faculty of Science, Charles University, Prague, Czech Republic. Electronic address:
Although free-living ciliated protists (Ciliophora) commonly inhabit aquatic and terrestrial biotopes of mild to moderate salinity (PSS-practical salinity scale S = 10-150), very few have adapted to life at more extreme salinities (>150 to saturation). Such extreme halophiles or halotrophs are of interest from the standpoints of evolution, cell physiology, ecology, and even astrobiology. In this work, we present the morphology, 18S rRNA gene sequence, and phylogenetic analysis of a novel spathidiid ciliate (Ciliophora, Litosatomatea) that thrives in saturated brines of Maharloo Lake, Iran.
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May 2023
Department of Radiochemistry and Environmental Chemistry, Faculty of Chemistry, Maria Curie-Skłodowska University, 20-031, Lublin, Poland.
Nowadays, one of the biggest challenges is the lack of coordination between the microplastic identification methods used by researchers. To advance our global understanding of microplastic contamination and address the knowledge gaps, we require acceptable or similar identification methods or instruments designed to support the quantitative characterization of the microplastics data. In the current study, we focused on the thermogravimetric analysis (TGA) with differential scanning calorimetry (DSC) method which is usually used experimentally by other researchers, while we tried to look at this method in a real aquatic environment, Maharloo Lake and its Rivers.
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School of Life Sciences, Pharmacy, and Chemistry, Kingston University, Surrey, UK.
The study of microplastics in inland water bodies has been growing recently, but there is still insufficient knowledge of the status of microplastics in lacustrine ecosystems, especially saline lakes. Studies have also been conducted on sediment, water, and biological compartments of lakes. In the present study, the status of microplastics in abiotic compartments of the saline Maharloo Lake (Iran) was evaluated for the first time and included surface sediment, lake salt, sludge, lake water, and wastewater.
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Sci Total Environ
June 2022
School of Geography, Earth and Environmental Sciences, University of Plymouth, PL4 8AA, UK.
Hypersaline lakes support unique ecosystems and biogeochemistries but are often subject to anthropogenic pressures from pollution, water abstraction-diversion and climate change. Less understood, however, are the inputs, distributions and impacts of microplastics (MPs) in hypersaline environments. In this study, MPs are determined in water and sediment cores of Maharloo Lake, south-west Iran, and in the anthropogenically-impacted rivers that recharge the lake.
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