干旱区生态环境知识资源中心(Arid): 基于CMDAS驱动SWAT模式的精博河流域水文相关分量模拟、验证及分析

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	基于CMDAS驱动SWAT模式的精博河流域水文相关分量模拟、验证及分析
其他题名	Simulation, validation,and analysis of the Hydrological components of Jing and Bo River Basin based on the SWAT model driven by CMADS
	孟现勇; 王浩; 雷晓辉; 蔡思宇
来源期刊	生态学报
ISSN	1000-0933
出版年	2017
卷号	37 期号:21 页码:7114-7127
中文摘要	利用大气和水文模型定量描述陆表相关变量变化规律一直是大气科学和水文学界的研究热点。然而,由于我国西部地区站点匮乏,传统气象观测站点已不能满足大尺度地表分量高精度模拟分析的需求。建立SWAT模型中国大气同化驱动数据集(China Meteorological Assimilation Driving Datasets for the SWAT model, CMADS)驱动SWAT(Soil and Water Assessment Tool)模型(简称为CMADS+SWAT模式),选取传统气象站点稀缺的新疆精博河流域为靶区,完成流域各地表分量(如土壤湿度、雪深、融雪)校准、验证及其时空关系提取与分析。分析发现:CMADS数据集可很好地驱动、率定SWAT模式完成本地化工作。其中,CMADS+SWAT模式在月尺度上总体NSE效率系数均在0.6590.942,日尺度也均在0.5260.815。对流域内土壤湿度和融雪过程进行相关分析发现:精博河流域土壤湿度在年内34月份达到其第一次峰值,主要贡献来自于流域内高山融雪现象;融雪期结束后,流域降水量增加,伴随气温上升等现象导致土壤温度呈现波动态势,至10月中旬冷空气过境产生较大降水(雪),最终使土壤水转变为冻土,直至次年接近融雪期,土壤水再次增加直到融雪过程结束。一方面证明CMADS+SWAT模式可有效提高SWAT水文模型在我国西北干旱区(站点稀缺区域)的表现能力,另一方面理清了精博河流域相关地表分量(土壤湿度、蒸发等)时空演变规律。本研究对我国大气水文学科发展将起到一定的科学促进作用。
英文摘要	Describing the changing rules of land surface variables by using meteorological and hydrological models has always been a research hotspot in the fields of atmospheric and hydrological science. However, due to the scarcity of weather stations in West China,traditional weather stations cannot satisfy the requirements of high precision simulation of large scale land surface components. Using the Jing and Bo River Basin in Xinjiang as a research area, the present study used the China Meteorological Assimilation Driving Datasets for the SWAT model (CMADS) to drive the Soil and Water Assessment Tool (SWAT) model, and then completed calibration, verification, and time-space relation analysis of each land surface component (such as soil moisture content, snow depth, and snow melt). Our analysis showed that the CMADS dataset can drive and calibrate the SWAT mode land complete localization work in Jin and Bo River Basin. The NSE efficiency coefficients of the SWAT model driven by the CMADS dataset were generally controlled between 0.659 and 0.942 at the monthly scale, and were also controlled between 0.526 and 0.815 at the daily scale. Furthermore, our analysis indicated that the soil moisture content would reach a high level for the first time between March and April each year,which is mainly caused by snow melting in the high mountains. However, when snow melting finished, due to an increase in precipitation and temperature,soil temperature fluctuated until the middle of October,when cold air brought considerable precipitation and snow. Finally, soil water was transformed into frozen soil until the snow melting period in the following year. Thereafter, soil water would increase again until the end of the snow melting period. On one hand, this study verified that the CMADS+SWAT mode can enhance the performance ability of the SWAT model in the arid areas of northwestern China,which lacks weather stations. On the other hand, the study provided a scientific explanation for time-space changing rules of land surface components (such as soil moisture and evaporation) in the Jing and Bo River Basin. The findings of this research will play a certain role in promoting the development of China’s meteorological and hydrological sciences.
中文关键词	精博河流域 ; 地表分量
英文关键词	CMADS SWAT CMADS SWAT Jing and Bo River Basin surface component
语种	中文
国家	中国
收录类别	CSCD
WOS类目	GEOSCIENCES MULTIDISCIPLINARY
WOS研究方向	Geology
CSCD记录号	CSCD:6105376
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/236524
作者单位	中国水利水电科学研究院, 流域水循环模拟与调控国家重点实验室, 北京 100038, 中国
推荐引用方式 GB/T 7714	孟现勇,王浩,雷晓辉,等. 基于CMDAS驱动SWAT模式的精博河流域水文相关分量模拟、验证及分析[J],2017,37(21):7114-7127.
APA	孟现勇,王浩,雷晓辉,&蔡思宇.(2017).基于CMDAS驱动SWAT模式的精博河流域水文相关分量模拟、验证及分析.生态学报,37(21),7114-7127.
MLA	孟现勇,et al."基于CMDAS驱动SWAT模式的精博河流域水文相关分量模拟、验证及分析".生态学报 37.21(2017):7114-7127.