Effects of Climate Warming and Vegetation Cover on Permafrost of Mongolia

Abstract

Long-term monitoring of permafrost in Mongolia showed that permafrost under the in fl uence of climate warming is ubiquitously degrading at different rates. The average trends of the increases in active layer thickness and mean annual ground temperature are 5–20 cm and 0.1–0.3°C per decade, respectively. These trends of the last 15–20 years are higher than those of the previous 15–20 years. Furthermore, the degradation of permafrost in the Hövsgöl mountainous region is more intense than in the Hentei and Hangai mountainous regions. Experimental results have shown that vegetation cover, especially moss cover, forest, and dense grass, are natural insulators that maintain lower soil temperature and higher soil moisture by lowering the evaporation rate. Hence, intense grazing may accelerate the degradation of per- mafrost. Since permafrost plays an important role in the maintenance of ecosystems in this region, the recent degradation of permafrost may lead to signi fi cant changes in ecosystems, especially in the soil thermal state and moisture content