青海哈拉湖气候水文和冰川水文过程模拟研究
发布时间:2023-05-14 06:47
青藏高原拥有世界海拔最高,面积最大的湖泊系统,同时其冰雪和冻土的储量也很可观,因此它在亚洲水文水资源利用中扮演着至关重要的角色。在过去的几十年里全球气候暖化的驱使下,不同冰川和湖泊系统的响应模式存在显著差异,由于个体系统的气候水文和冰川水文过程同时受到全球和局地因子的影响。气候及其变化的时空异质性将在本研究中进行定量化分析。哈拉湖地区(97°24’-97°47’E,38°12’-38°25’N)坐落于青藏高原东北部,该区域是否为季风边界也是一直以来的研究热点。而高山地区的湖泊及其流域对于任何形式的气候和环境变化的高度敏感性,也使哈拉湖地区的水文重建颇具意义。与其地点重要性形成对比的是,该区域没有任何气象站,也没有实测的水文气象资料。因此本文研究哈拉湖1950-2010年能量和水量平衡各组分的时空变化,模拟气候水文和冰川水文过程,是对无资料流域的水文数学模型,最优方法和应用方面的尝试。本研究分为定性分析和定量分析,对哈拉湖地区能量和气象场的代表性因子分析表明,五个因子分别为地貌特征,水汽传输,消融过程,降雨场和风场特征,总计能够解释98%的时空变率。定量分析主要基于大区域内气象站资料,高...
【文章页数】:69 页
【学位级别】:硕士
【文章目录】:
摘要
Abstract
1 Introduction
1.1 Problem statement
1.2 Research questions and study aims
1.3 Current state of research
1.3.1 Circulation pattern
1.3.2 Climate change on the Tibetan Plateau
1.3.3 Currently available gridded datasets for the TP
1.3.4 Recent Changes in Glacial Area and Volume
1.3.5 Lake level changes
1.3.6 Hydrological modeling
2 Study area and data basis
2.1 Study area
2.2 Data basis
3 Methodology
3.1 Factor analysis at Hala Lake
3.2 Linear regression of precipitation and air temperature
3.3 Energy-balance and water-balance theory
3.3.1 Evaporation estimation
3.3.2 Glacier meltwater simulation
4 Results
4.1 Characteristics of meteorological and energy field
4.2 Reconstruction of precipitation and temperature 1950-2010
4.3 Reconstruction of evaporation 1950-2010
4.4 Glacier melt rate modeling 1950-2010
4.4.1 Characteristics of energy components
4.4.2 Enhanced glacier melt model
5 Discussion
5.1 Glaciers' response to climate change
5.2 Reconstruction of water balance 1950-2010
5.3 Deficiencies and limitation
5.4 Outlook
6 Conclusion
Acknowledgement
Appendix
Reference
本文编号:3817396
【文章页数】:69 页
【学位级别】:硕士
【文章目录】:
摘要
Abstract
1 Introduction
1.1 Problem statement
1.2 Research questions and study aims
1.3 Current state of research
1.3.1 Circulation pattern
1.3.2 Climate change on the Tibetan Plateau
1.3.3 Currently available gridded datasets for the TP
1.3.4 Recent Changes in Glacial Area and Volume
1.3.5 Lake level changes
1.3.6 Hydrological modeling
2 Study area and data basis
2.1 Study area
2.2 Data basis
3 Methodology
3.1 Factor analysis at Hala Lake
3.2 Linear regression of precipitation and air temperature
3.3 Energy-balance and water-balance theory
3.3.1 Evaporation estimation
3.3.2 Glacier meltwater simulation
4 Results
4.1 Characteristics of meteorological and energy field
4.2 Reconstruction of precipitation and temperature 1950-2010
4.3 Reconstruction of evaporation 1950-2010
4.4 Glacier melt rate modeling 1950-2010
4.4.1 Characteristics of energy components
4.4.2 Enhanced glacier melt model
5 Discussion
5.1 Glaciers' response to climate change
5.2 Reconstruction of water balance 1950-2010
5.3 Deficiencies and limitation
5.4 Outlook
6 Conclusion
Acknowledgement
Appendix
Reference
本文编号:3817396
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