Abstract
Precipitation has been considered to be a critical water source for both human livelihoods and ecosystems in Central Asia. Using observational data and gridded datasets, we studied the regional and seasonal differences of precipitation climate characteristics and variations in precipitation over Central Asia. Using observational data obtained from the China Meteorological Administration, Global Historical Climatology Network (V3.02), we divided Central Asia into four subregions (North, Center, Southwest, and Southeast) based on the differences in seasonal cycles of precipitation. ‘Single peaks’ were detected as types of seasonal cycles over the North and the Southeast, while ‘two peaks’ was the type that occurred in the Southwest. For the Center, the zone of transition between the North and the Southwest, each monthly precipitation value was higher than the Southwest’s and less than the North’s. GPCC (R2 of 0.89, RMSE of 64.5 mm/year) was proven to be the most suitable dataset of the four datasets (CRU, GPCC, MERRA, and TRMM) to describe precipitation in Central Asia, based on validation against observational data, and used to detect the spatial and temporal trend of precipitation in Central Asia and four subregions during 1960–2013. No significant trends were observed for annual precipitation in Central Asia, while precipitation in winter displayed a significant increase (0.11 mm/year). Additionally, significantly increasing trends (0.16, 0.27, 0.13, and 0.13 mm/year) were detected in spring, summer, autumn, and winter over the Southeast during 1960–2013.
Highlights
Precipitation is considered to be a critical water source for both human livelihoods and ecosystems of Central Asia, which comprises one of the largest arid and semiarid areas in the world [1,2,3].In recent years, earth’s global mean surface temperature has significantly increased and warming has been estimated to lead to large increases in atmospheric water vapor content and acceleration of the hydrological cycle [4,5,6]
Mean annual precipitation (MAP) distribution within Central Asia was determined based on observations from all of the 341 meteorological stations (Figure 2)
The results indicated that GPCC was the most suitable dataset to describe the precipitation in Central Asia
Summary
Precipitation is considered to be a critical water source for both human livelihoods and ecosystems of Central Asia, which comprises one of the largest arid and semiarid areas in the world [1,2,3].In recent years, earth’s global mean surface temperature has significantly increased and warming has been estimated to lead to large increases in atmospheric water vapor content and acceleration of the hydrological cycle [4,5,6]. Precipitation is considered to be a critical water source for both human livelihoods and ecosystems of Central Asia, which comprises one of the largest arid and semiarid areas in the world [1,2,3]. In the context of global warming, a sound understanding of precipitation climate characteristics and variations in precipitation is essential for successful management of water resources in this arid and semiarid region. A Synthetic Assessment of the Global Distribution of Vulnerability to Climate Change published by CIESIN (Center for International Earth Science Information Network) declared that no data were available in Central Asia [7]. Central Asia was hampered by the lack of observational data. Large parts of Central Asia are sparsely populated steppes, deserts and mountain systems where the density of meteorological stations is very
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