帮助 关于我们

返回检索结果

昆仑山提孜那甫河流域雨雪分离的温度条件分析
Analysis of Temperature Conditions for Rain and Snow Separation in Tizinafu River Basin of Kunlun Mountains

查看参考文献28篇

文摘 气候变暖背景下高海拔山区融雪(冰)以及强降水引发的洪水愈加难以预测,通过山区雨雪分离可判定引发洪水的温度条件,从而为山洪准确预报提供简单而科学的参考依据。本研究以昆仑山提孜那甫河流域为例,基于流域内不同海拔气象站2012-2016年的降水以及温度数据,结合MOD10A2积雪数据,采用温度积分法和概率统计方法,利用研究期内的平均温度,确定出不同降水形态对应的温度条件,以达到雨雪分离的目的。研究结果表明,莫木克站最大温和积温分别达到20.91 ℃和51.82 ℃时,降水可判定为降雨,最大温和积温分别低于18.13 ℃,43.69 ℃时,降水可判定为降雪;库地站最大温和积温分别达到14.51 ℃,33.17 ℃时,降水可判定为降雨,最大温和积温分别低于13.57 ℃,31.68 ℃时,降水可判定为降雪;西合休站最大温和积温分别达到9.43 ℃,19.53 ℃时,降水可判定为降雨,最大温和积温分别低于8.22 ℃,19.4 ℃时,降水可判定为降雪。利用流域内气象站点附近乡镇的气象统计数据对温度条件及分离结果进行验证,在海拔2000 m以下、2000~3000 m以及3000 m以上不同海拔地区的准确率分别为92.86%、79.49%以及88.3%。本研究可为判别洪水类型和洪水预报提供科学参考。
其他语种文摘 Under the context of global climate change, the heavy flood caused by the snow melting (glacier melting) as well as heavy rainfall in the high altitude mountainous areas in Xinjiang Uygur Autonomous Region was becoming more unpredictable. Therefore, clarifying the relationship between the temperature and the rainfall types is the prerequisite step to predict the flood effectively in these mountainous regions. Fortunately, the approach of rainfall and snowfall separation in mountainous regions is capable of determining the temperature conditions which may cause the heavy flood. It is also able to provide important and scientific references to the accurately prediction for the heavy flood in the mountainous regions. In this study, temperature and precipitation data were collected from ground-based meteorological stations located in different altitude in a case study area: the Tizinafu River Basin in Kunlun Mountains. This study was conducted on a daily basis during 2012 to 2016. The MODIS10A2 snow cover data with 8-day temporal resolution were also applied as the valid reference data. For the purpose of rainfall and snow separation, we adopted the temperature integral and probability statistics methods to analyze the temperature conditions for different rainfall types in the research region. The remote sensing snow cover data combined with the average temperature over the latest past few years are used to determine the different temperature conditions with different precipitation patterns. The results were summarized as follows. If the maximum temperature and accumulated temperature reaches 20.91 ?C and 51.82 ?C, respectively, the precipitation can be predicted as rainfall in the Momuke station. In contrast, if maximum and accumulated temperature are below 18.13 ?C and 43.69 ?C, respectively, the precipitation can be predicted as snowfall. Similarly, for Kudi station, if the maximum and accumulated temperature reaches 14.51 ?C and 33.17 ?C, respectively, the precipitation can be judged as rainfall. While the precipitation will be recognized as snowfall when the maximum and accumulated temperature are below 13.57 ?C and 31.68 ?C, respectively. In the same way, when the maximum temperature and accumulated temperature in the Xihexiu meteorological station are above 9.43 ?C and 19.53 ?C, respectively, the precipitation will be recognized as rainfall and the precipitation will be recognized as snowfall once maximum temperature and accumulated temperature are below 8.22 ?C and 19.4 ?C, respectively. For validating and evaluating the credibility of this rainfall and snowfall separation method as well as the reasonability of the reference temperature conditions, the meteorological data from the nearby villages of the study catchment were used to assess rainfall and snow separation results. From the results, we can conclude that in different elevation bands, the rainfall and snow separation results are always acceptable with different levels. The precisions are 92.86%, 79.49% and 88.3% in the elevation bands below 2000 m, 2000-3000 m, and 3000 m above sea level, respectively. The results is capable of providing a scientific evidence for monitoring flood types and flood forecasting, which is of great significance and is related to create new water resource management guidelines and planning schemes for local people and decision makers.
来源 地球信息科学学报 ,2017,19(12):1661-1669 【核心库】
DOI 10.3724/SP.J.1047.2017.01661
关键词 山区 ; 山洪预报 ; 雨雪分离 ; 温度积分 ; 概率统计
地址

中国科学院新疆生态与地理研究所, 荒漠与绿洲生态国家重点实验室, 乌鲁木齐, 830011

语种 中文
文献类型 研究性论文
ISSN 1560-8999
学科 地球物理学
基金 "千人计划"--新疆项目 ;  中国科学院国际伙伴关系计划项目 ;  中国科学院项目 ;  2016年"创新人才国际合作培训计划"项目
文献收藏号 CSCD:6140924

参考文献 共 28 共2页

1.  李晓萌. 基于格网的洪水灾害危险性评价分析-以巴基斯坦为例. 地球信息科学学报,2013,15(2):314-320 被引 6    
2.  丁一汇. 气候变化国家评估报告(I):中国气候变化的历史和未来趋势. 气候变化研究进展,2006,2(1):3-8 被引 572    
3.  陈国阶. 中国山区发展报告,2010 被引 1    
4.  赵刚. 中国山洪灾害危险性评价. 水利学报,2016,47(9):1133-1142 被引 25    
5.  连健. 基于AO的洪水灾害风险分析模型设计与构建. 地球信息科学学报,2012,11(3):376-381 被引 1    
6.  王礼先. 山洪及泥石流灾害预报,2001 被引 28    
7.  刘志雨. 山洪预警预报技术研究与应用. 中国防汛抗旱,2012,22(2):41-45 被引 21    
8.  叶金印. 一种用于缺资料地区山洪预警方法研究与应用. 水力发电学报,2013,32(3):15-19 被引 12    
9.  王鑫. 暴雨山洪水动力学模型及初步应用. 武汉大学学报·工学版,2009,42(4):413-416 被引 7    
10.  Bloschl G. A spatially distributed flash flood forecasting model. Environmental Modelling & Software,2008,23(4):464-478 被引 5    
11.  Braud I. The use of distributed hydrological models for the Gard 2002 flash flood event: analysis of associated hydrological processes. Journal of Hydrology,2010,394(1/2):162-181 被引 8    
12.  Vincendon B. Benefit of coupling the ISBA land surface model with a TOPMODEL hydrological model version dedicated to Mediterranean flash-floods. Journal of Hydrology,2010,394(1/2):256-266 被引 2    
13.  Papanicolaou A N. One-dimensional hydrodynamic/sediment transport model applicable to steep mountain streams. Journal of Hydraulic Research,2004,42(4):357-375 被引 4    
14.  董玉文. 新疆洪水成因及特性分析. 重庆交通大学学报(自然科学版),2004,23(2):118-122 被引 2    
15.  闫彦. 新疆北疆地区融雪洪水灾害预警模型的建立与验证. 干旱区地理(汉文版),2009,32(4):552-557 被引 11    
16.  方立鹤. 新疆塔城地区山洪灾害成因分析. 中国西部科技,2005(11):38-39 被引 1    
17.  刘金涛. 雷达估测降雨技术在实时洪水预报中的应用研究,2003 被引 2    
18.  张火青. 天气雷达在洪水预警报中的应用. 水利水电科技进展,1996,16(3):21-25 被引 3    
19.  张廷治. 诱发山洪泥石流特强暴雨的特征. 气象,1996,22(5):43-47 被引 5    
20.  范世香. 水文学原理,2014 被引 4    
引证文献 1

1 孙从建 昆仑山提孜那甫河流域2012—2016年近地表气温时空分布特征 干旱区地理,2019,42(3):459-468
被引 0 次

显示所有1篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号