Abstract
Understanding paleo—and recent environmental changes and the dynamics of individual drivers of water availability is essential for water resources management in the Mongolian Altai. Here, we follow a holistic approach to uncover changes in glaciers, permafrost, lake levels and climate at the Tsengel Khairkhan massif. Our general approach to describe glacier and lake level changes is to combine traditional geomorphological field mapping with bathymetric measurements, satellite imagery interpretation, and GIS analyses. We also analysed climate data from two nearby stations, and measured permafrost temperature conditions at five boreholes located at different elevations. We identified four glacial moraine systems (M4-M1) and attribute them to the period from the penultimate glaciation (MIS 4/5) until the Little Ice Age (MIS 1). During the Local Last Glacial Maximum (LLGM; MIS 2), a glacier reached down into the western Kharganat Valley and blocked it, resulting in the formation of the endorheic Khar Lake basin. Subsequently, the lake was fed mainly by precipitation and permafrost meltwater. In recent years, glaciers have been in strong recession, yet Khar Lake levels have remained relatively stable, which is in contrast to mainly decreasing lake levels in other regions throughout Mongolia. While temperatures in the Altai are increasing (leading to increasing evaporation), precipitation in higher elevations has increased, which—in addition to increased glacier and permafrost melting—would counteract the increasing aridity effects. A systematic and holistic monitoring of glaciers, permafrost, lake levels and climate in the Mongolian Altai is necessary, and results from (sub-)disciplines need to be correlated.
Highlights
IntroductionMongolia’s water resources are limited and unevenly distributed, and are related to three dominant drainage basins: Arctic Basin, Pacific Basin, and Central Asian Internal Basin
Understanding paleo- and recent environmental changes and the dynamics of individual drivers of water availability is essential for water resources management in the Mongolian Altai.Mongolia’s water resources are limited and unevenly distributed, and are related to three dominant drainage basins: Arctic Basin, Pacific Basin, and Central Asian Internal Basin
For the 1980s, the total water resources of Mongolia had been estimated at 599 km3, of which 83.7% was found in the ~3500 lakes, 10.5% in the 262 glaciers of the Geosciences 2017, 7, 73; doi:10.3390/geosciences7030073
Summary
Mongolia’s water resources are limited and unevenly distributed, and are related to three dominant drainage basins: Arctic Basin, Pacific Basin, and Central Asian Internal Basin. The latter includes in the far west the Mongolian Altai Mountains and Great Lakes Depression with its largest lakes. Batnasan [2] believed that these water resources are highly vulnerable to several drivers including climatic changes, overgrazing, deforestation, mining, and several hydropower development projects. He attributed the rise of lake levels by. These glaciers have been characterized as mountain-slope glaciers (75%), valley glaciers (21%), and flat-top glaciers (4%) [14]
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