Spatiotemporal variability of snowfall and its concentration in northern Xinjiang, Northwest China

This study investigated the spatial and temporal variability of snowfall and its concentration across northern Xinjiang, Northwest China based on the corrected dataset (derived from 26 stations) using a wet-bulb temperature method during the snowfall hydrological years from 1961 to 2017. The snowfal...

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Published inTheoretical and applied climatology Vol. 139; no. 3-4; pp. 1247 - 1259
Main Authors Yang, Tao, Li, Qian, Liu, Wenjiang, Liu, Xiang, Li, Lanhai, De Maeyer, Philippe
Format Journal Article
LanguageEnglish
Published Vienna Springer Vienna 01.02.2020
Springer
Springer Nature B.V
Subjects
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Atmospheric Sciences
Climate change
Climate science
Climatology
Critical temperature
Daily precipitation
Earth and Environmental Science
Earth Sciences
Emergency preparedness
Global warming
Hydrology
Management
Mountains
Original Paper
Precipitation variability
Resource management
Snow
Snowfall
Stations
Temperature
Temperature rise
Temporal variability
Temporal variations
Valleys
Waste Water Technology
Water
Water Management
Water Pollution Control
Water resources
Water resources management
China
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Summary:This study investigated the spatial and temporal variability of snowfall and its concentration across northern Xinjiang, Northwest China based on the corrected dataset (derived from 26 stations) using a wet-bulb temperature method during the snowfall hydrological years from 1961 to 2017. The snowfall concentration was analyzed by means of three indices: the snowfall concentration index (CI), snowfall concentration degree (SCD), and snowfall concentration period (SCP). The results demonstrated that the snowfall and temperature increased by 5.69 mm and 0.35 °C per decade, respectively, in northern Xinjiang during the time period from 1961 to 2017. Maximum snowfall occurred at a critical temperature ranging from − 2 to 1 °C. The increased snowfall mainly took place in northern Xinjiang during winter. The distribution of the high snowfall CI value indicated that the daily snowfall showed a high irregularity in the northern slope of the Tianshan Mountains and the northern Altay Mountains, in which more than 77% snowfall was contributed by the 25% snowfall days in a year. The results of SCP revealed that the snowfall concentrated in northern Xinjiang during December, with an earlier arrival in the north and east of northern Xinjiang than in the western part. The SCD results proved that the monthly snowfall was more concentrated in the northern Altay Mountains, Ili Valley, and Boertala Valley than over the eastern part of northern Xinjiang during a year. The snowfall in almost all stations increased in concentration throughout the year. The obtained study results could provide scientific reference for future water resource management and snow disaster prevention under a warming climate.
ISSN:0177-798X
1434-4483
DOI:10.1007/s00704-019-02994-7