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| Analysis of snowmelt runoff and its formation condition in typical small watersheds in the northern black soil region of Northeast China |
| YANG Xin, LIU Gang, XIE Yun, GAO Xiaofei, WANG Xiangying, WANG Da'an, XING Wanjun |
| Faculty of Geographical Science, State Key Laboratory of Earth Surface Processes and Resource Ecology, Beijing Normal University, 100875, Beijing, China |
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Abstract [Background] The forecast and formation condition of snowmelt runoff is very significative to understand the process of snowmelt erosion in the northern black soil region of Northeast China. Many studies have focused on the characteristics of snowmelt runoff, however, and the study on the formation condition of snowmelt runoff is deficient.[Methods] Based on the observed data of two small watersheds located in Hesan Farm, Heilongjiang province, the formula of effective accumulated temperature on the initial day of snowmelt is established,regression method was used to establish the functional relationship between snowmelt runoff depth and accumulated snowfall in the winter half year and accumulated rainfall in the autumn,and the functional relationship between effective accumulated temperature and snowfall. The occurrence conditions of snowmelt runoff were established by the above equations and indexes. The data include the daily temperature and snowfall of weather station located in the Hebei watershed from 2005 to 2015,and the spring snowmelt runoff of 2 weirs of small watersheds from 2005 to 2015.[Results] 1) The initial days of spring snowmelt runoff in the small watershed in the study area were mostly from late March to early April. The average snowmelt runoff depth of the study area was 11.9 mm from 2005 to 2015. In the year of snowmelt runoff, an increase of 1 mm in accumulated snowfall in the winter half year resulted in an increase of 0.9 mm in snowmelt runoff depth. 2) The regression equation between the snowmelt runoff depth D (mm) in spring and the accumulated snowfall in winter half year (Ps) and August-October rainfall (Pr) was D=0.91Ps+0.034Pr-21.02. Snowmelt runoff occured when both must meet D>0.3) Under the precondition that the accumulated snowfall reached the snowmelt runoff occurrence, the relationship between accumulated temperature (TA) above the thereshold temperature(-2.8℃) before snowmelt runoff occurred, and the accumulated snowfall in the winter half year (Ps) was regressed by a logarithmic function:TA=18.29ln(Ps)-10.78.[Conclusions] Whether snowmelt runoff occurs depends on accumulated snowfall in winter half year and accumulated rainfall in August to October. The snowmelt runoff depth can be expressed by a linear equation of the accumulated snowfall and rainfall. The initial day of snowmelt runoff occurrence can be calculated by threshold accumulated temperature. This study will help to forecast snowmelt runoff and guide agricultural production.
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Received: 28 June 2018
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| [1] |
YOOK K H,MOLNAU M.Simulation of soil erosion from winter runoff in the Palouse Prairie[J].Transactions of the ASAE,1982,25(6):1628.
|
| [2] |
LEWKOWICZ A G,KOKELJ S V.Slope sediment yield in arid lowland continuous permafrost environments, Canadian Arctic Archipelago[J].Catena,2002,46(4):261.
|
| [3] |
ANDERSON E A.A point energy and mass balance model of snow cover.NOAA[R].Technical Report NWS 19,US Department of Commerce,1976.
|
| [4] |
王平,李浩,陈强,等.典型黑土区不同尺度观测场地融雪径流[J].水土保持通报,2014,34(5):247. WANG Ping,LI Hao,CHEN Qiang,et al.Different scale observation sites of snow melt runoff in typical black soil area[J].Bulletin of Soil and Water Conservation,2014,34(5):247.
|
| [5] |
陈春艳,李毅,李奇航.新疆乌鲁木齐地区积雪深度演变规律及对气候变化的响应[J].冰川冻土,2015,37(3):592. CHEN Chunyan,LI Yi,LI Qihang.Snow cover depth in Urumqi region,Xinjiang:Evolution and response to climate change[J].Journal of Glaciology and Geocryology,2015,37(3):592.
|
| [6] |
郝晓华,王建,车涛,等.祁连山区冰沟流域积雪分布特征及其属性观测分析[J].冰川冻土,2009,31(2):284. HAO Xiaohua,WANG Jian,CHE Tao,et al.The spatial distribution and properties of snow cover in binggou watershed,Qilian Mountains:Measurement and analysis[J].Journal of Glaciology and Geocryology,2009,31(2):284.
|
| [7] |
刘海亮,蔡体久,满秀玲,等.小兴安岭主要森林类型对降雪、积雪和融雪过程的影响[J].北京林业大学学报,2012,34(2):20. LIU Hailiang,CAI Tijiu,MAN Xiuling,et al.Effects of major forest types of Xiaoxing'an Mountains on the process of snowfall,snow cover and snow melting[J].Journal of Beijing Forestry Univerity,2012,34(2):20.
|
| [8] |
李弘毅,王建.SRM融雪径流模型在黑河流域上游的模拟研究[J].冰川冻土, 2008,30(5):770. LI Hongyi,WANG Jian.The snowmelt runoff model applied in the upper Heihe River Basin[J].Journal of Glaciology and Geocryology,2008,30(5):770.
|
| [9] |
周扬,徐维新,白爱娟,等.青藏高原沱沱河地区动态融雪过程及其与气温关系分析[J].高原气象,2017,36(1):29. ZHOU Yang,XU Weixin,BAI Aijuan,et al.Dynamic snow-melting process and its relationship with air temperature in Tuotuohe,Qinghai-Xizang Plateau[J].Plateau Meteorology,2017,36(1):29.
|
| [10] |
HENDRICK R L,FILGATE B D, ADAMS W M.Application of environmental analysis to watershed snowmelt[J].Jour of Applied Meteorology,1971,10(3):420.
|
| [11] |
FLANAGAN D C,Livingston S J.WEPP user summary USDA-Water Erosion Prediction Project (WEPP):[R].West Lafayette:USDA-ARS NSERL Rep 11,1995.
|
| [12] |
张勇,刘时银.度日模型在冰川与积雪研究中的应用进展[J].冰川冻土,2006,28(1):102. ZHANG Yong,LIU Shiyin.Progress of the application of Degree-Day Model to study glaciers and snow cover[J].Journal of Glaciology and Geocryology,2006,28(1):102.
|
| [13] |
邱璧迎,范昊明,武敏,等.上坡融雪径流对下坡融雪影响的模拟试验[J].中国水土保持科学,2014,12(5):76. QIU Biying,FAN Haoming,WU Min,et al.Simulated slope snowmelt process of the priority runoff from uphill[J].Science of Soil and Water Conservation,2014,12(5):76.
|
| [14] |
张波,刘志辉,高云,等.典型融雪期雪层融雪水出流条件模拟及分析[J].干旱区地理,2015,38(3):506. ZHANG Bo,LIU Zhihui,GAO Yun,et al.Simulation and analysis of snow melt water outflow condition in typical snowmelt period[J].Arid Land Geography,2015,38(3):506.
|
| [15] |
魏天锋,刘志辉,王元.积雪覆盖下的季节性冻土对融雪水出流的影响[J].干旱区研究,2015,32(3):435. WEI Tianfeng,LIU Zhihui,WANG Yuan.Effect on snowmelt water outflow of snow-covered seasonal frozen soil[J].Arid Zone Research,2015,32(3):435.
|
| [16] |
周琳.中国气候丛书:东北气候[M].北京:气象出版社,1991:55. ZHOU Lin.A series of climate for China:Climate of Northeast China[M].Beijing:China Meteorological Press,1991:55.
|
| [17] |
李培基,米德生.中国积雪的分布[J].冰川冻土,1983,5(4):11. LI Peiji,MI Desheng.Distribution of snow cover in China[J].Journal of Glaciology and Geocryology,1983,5(4):11.
|
| [18] |
焦剑,谢云,林燕,等.东北地区融雪期径流及产沙特征分析[J].地理研究, 2009,28(2):333. JIAO Jian,XIE Yun,LIN Yan,et al.Study on snowmelt runoff and sediment yields in Northeast China[J].Geographical Research,2009,28(2):333.
|
| [19] |
朱景亮,齐非非,穆兴民,等.松花江流域融雪径流及其影响因素[J].水土保持通报,2015,35(2):125. ZHU Jingliang,QI Feifei,MU Xingmin,et al.Snowmelt runoff characteristics and its influencing factors of Songhua River Basin[J].Bulletin of Soil and Water Conservation,2015,35(2):125.
|
| [20] |
朱宾宾,满秀玲,俞正祥,等.大兴安岭北部森林小流域融雪径流特征[J].南京林业大学学报(自然科学版),2016,40(6):69. ZHU Binbin,MAN Xiuling,YU Zhengxiang,et al.Forming process of snowmelt-runoff of forest watershed in northern region of Da Hinggan Mountains[J].Journal of Nanjing Forestry University (Natural Sciences Edition),2016,40(6):69.
|
| [21] |
刘宝元,阎百兴,沈波,等.东北黑土区农地水土流失现状与治理对策[J].中国水土保持科学,2008,6(1):1 LIU Baoyuan,YAN Baixing,SHEN Bo, et al.Current status and comprehensive control strategies of soil erosion for cultivated land in the northeastern black soil area of China[J].Science of soil and water conservation, 2008,6(1):1.
|
| [22] |
于灵雪,张树文,贯丛,等.黑龙江流域积雪覆盖时空变化遥感监测[J].应用生态学报,2014,25(9):2526. YU Lingxue,ZHANG Shuwen,GUAN Cong,et al.Monitoring on spatial and temporal changes of snow cover in the Heilongjiang Basin based on remote sensing[J].Chinese Journal of Applied Ecology,2014,25(9):2526.
|
| [23] |
崔雪晴,蔡体久,刘文彬.小兴安岭林区森林覆盖率变化对小流域径流的影响[J].水土保持学报,2010,24(1):18. CUI Xueqing,CAI Tijiu,LIU Wenbin.Impact of forest coverage on forest stream flow hydrology in Xiaoxing' an Mountains[J].Journal of Soil and Water Conservation,2010,24(1):18.
|
| [24] |
郭忠明,王宁练.雪粒径遥感反演研究进展[J].冰川冻土,2011,33(3):539. GUO Zhongming,WANG Ninglian.Progress in the research on snow grain size retrieved from remote sensing[J]. Journal of Glaciology and Geocryology,2011,33(3):539.
|
|
|
|
