Long-Term Hydro–Climatic Trends in the Mountainous Kofarnihon River Basin in Central Asia

Hydro–climatic variables play an essential role in assessing the long-term changes in streamflow in the snow-fed and glacier-fed rivers that are extremely vulnerable to climatic variations in the alpine mountainous regions. The trend and magnitudinal changes of hydro–climatic variables, such as temp...

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Bibliographic Details
Published in:Water (Basel) 2020-08, Vol.12 (8), p.2140
Main Authors: Gulakhmadov, Aminjon, Chen, Xi, Gulahmadov, Nekruz, Liu, Tie, Davlyatov, Rashid, Sharofiddinov, Safarkhon, Gulakhmadov, Manuchekhr
Format: Article
Language:English
Subjects:
20th century
Agricultural development
Agricultural management
Agronomy
Air temperature
Alpine regions
Analysis
Climate change
Economic development
Environmental aspects
Forecasts and trends
Glaciers
Global warming
High altitude
Hydroelectric power
Hydrology
Hydrosphere
Influence
Low altitude
Mountain meteorology
Mountains
Precipitation
Regions
Resource management
River basins
Rivers
Seasonal variations
Seasons
Snow
Spring (season)
Stream discharge
Stream flow
Streamflow
Sustainable agriculture
Sustainable development
Temporal variations
Time series
Trends
Water management
Water resources
Water resources management
Watersheds
Winter
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Summary:Hydro–climatic variables play an essential role in assessing the long-term changes in streamflow in the snow-fed and glacier-fed rivers that are extremely vulnerable to climatic variations in the alpine mountainous regions. The trend and magnitudinal changes of hydro–climatic variables, such as temperature, precipitation, and streamflow, were determined by applying the non-parametric Mann–Kendall, modified Mann–Kendall, and Sen’s slope tests in the Kofarnihon River Basin in Central Asia. We also used Pettitt’s test to analyze the changes during the 1951–2012 and 1979–2012 time periods. This study revealed that the variations of climate variables have their significant spatial patterns and are strongly regulated by the altitude. From mountainous regions down to plain regions, the decadal temperature trends varied from −0.18 to 0.36 °C/decade and the variation of precipitation from −4.76 to −14.63 mm yr−1 per decade. Considering the temporal variation, the temperature trends decreased in winter and significantly increased in spring, and the precipitation trends significantly decreased in spring but significantly increased in winter in the high-altitude areas. As consequence, total streamflow in headwater regions shows the obvious increase and clear seasonal variations. The mean monthly streamflow decreased in fall and winter and significantly increased in the spring and summer seasons which can be attributed to the influence of global warming on the rapid melting of snow and ice. Although the abrupt change points in air temperature and precipitation occurred around the 1970s and 1990s in the low-altitude areas and 2000s in the high-altitude areas during the 1951–2012 and 1979–2012 periods, the general trends of hydro–climatic variables keep consistent. This study benefits water resource management, socio–economic development, and sustainable agricultural planning in Tajikistan and its downstream countries.
ISSN:2073-4441
2073-4441
DOI:10.3390/w12082140