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Variation and relationship between soil moisture and environmental factors in the source region of the Yangtze River from 2005 to 2016

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ã€ä½œè€…ã€‘ LingLing Songï¼› ZongJie Liï¼› Qing Tianï¼› LieFu Wangï¼› Jing Heï¼› RuiFeng Yuanï¼› Juan Guiï¼› BaiJuan Zhangï¼› YueMin Lvï¼›

ã€Authorã€‘ LingLing Song;ZongJie Li;Qing Tian;LieFu Wang;Jing He;RuiFeng Yuan;Juan Gui;BaiJuan Zhang;YueMin Lv;College of Forestry,Gansu Agricultural University;Key Laboratory of Western Chinaâ€™s Environmental Systems (Ministry of Education),College of Earth Environmental Science,Lanzhou University;Tuotuohe Meteorological Station;Key Laboratory of Ecohydrology of Inland River Basin Gansu/Hydrology and Water Resources Engineering Research Center,Cold and Arid Region Environment and Engineering Research Institute,Chinese Academy of Sciences;

ã€é€šè®¯ä½œè€…ã€‘ Qing Tian;

ã€æœºæž„ã€‘ College of Forestry,Gansu Agricultural Universityï¼› Key Laboratory of Western Chinaâ€™s Environmental Systems (Ministry of Education),College of Earth Environmental Science,Lanzhou Universityï¼› Tuotuohe Meteorological Stationï¼› Key Laboratory of Ecohydrology of Inland River Basin Gansu/Hydrology and Water Resources Engineering Research Center,Cold and Arid Region Environment and Engineering Research Institute,Chinese Academy of Sciencesï¼›

ã€æ‘˜è¦ã€‘ This study analyzed soil moisture, soil erosion, and vegetation in the source region of the Yangtze River from 2005 to 2016. We found that soil moisture showed an increasing trend from 2005 to 2009 but decreased from 2009 to 2016. The surface soil moisture was severely affected by seasonal changes in the source region of the Yangtze River, especially in the soil from 0 to 40 cm. However, seasonal variation of soil moisture deeper than 40 cm was different from that in the upper layer. Soil moisture below 40 cm wasnâ€™t affected by the seasonal variation. Soil moisture from 0 to 50 cm and the average thickness of wind deposition showed a positive correlation in the study area from 2005 to 2016. For environmental protection in the source region of the Yangtze River, wind deposition played a role in water retention. Similarly, a positive correlation also existed between the average thickness of wind erosion and soil moisture. Deep-soil moisture was the key factor for vegetation structure on the Qinghai-Tibet Plateau. The results are also helpful for further understanding the variation of soil moisture on the Tibetan Plateau and providing a scientific basis for effectively protecting and controlling the ecological environment in the future.æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ This study analyzed soil moisture, soil erosion, and vegetation in the source region of the Yangtze River from 2005 to 2016. We found that soil moisture showed an increasing trend from 2005 to 2009 but decreased from 2009 to 2016. The surface soil moisture was severely affected by seasonal changes in the source region of the Yangtze River, especially in the soil from 0 to 40 cm. However, seasonal variation of soil moisture deeper than 40 cm was different from that in the upper layer. Soil moisture below 40 cm wasnâ€™t affected by the seasonal variation. Soil moisture from 0 to 50 cm and the average thickness of wind deposition showed a positive correlation in the study area from 2005 to 2016. For environmental protection in the source region of the Yangtze River, wind deposition played a role in water retention. Similarly, a positive correlation also existed between the average thickness of wind erosion and soil moisture. Deep-soil moisture was the key factor for vegetation structure on the Qinghai-Tibet Plateau. The results are also helpful for further understanding the variation of soil moisture on the Tibetan Plateau and providing a scientific basis for effectively protecting and controlling the ecological environment in the future.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ soil moistureï¼› soil erosionï¼› vegetationï¼› source region of the Yangtze Riverï¼›
ã€Key wordsã€‘ soil moistureï¼› soil erosionï¼› vegetationï¼› source region of the Yangtze Riverï¼›

ã€åŸºé‡‘ã€‘ supported by the Discipline Construction Fund Project of Gansu Agricultural University(GSAU-XKJS-2018-109);the Open Foundation of MOE Key Laboratory of Western Chinaâ€™s Environmental System,Lanzhou University;the Fundamental Research Funds for the Central Universities(lzujbky-2018-kb01);National"Plan of Ten Thousand People"Youth Top Talent Project,the Youth Innovation Promotion Association,CAS(2013274);Open funding from the Key Laboratory of Mountain Hazards and Earth Surface Process the open funding from State Key Laboratory of Loess and Quaternary Geology(SKLLQG1814);National Key R&D Program of China(2017YFC0404305)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ Sciences in Cold and Arid Regions ,å¯’æ—±åŒºç§‘å¦(è‹±æ–‡) , ç¼–è¾‘éƒ¨é‚®ç®± ,2019å¹´03æœŸ

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