Potential risks and challenges of climate change in the arid region of northwestern China

In the arid region of northwestern China(ARNC),water resources are the most critical factor restricting socioeconomic development and influencing the stability of the area’s ecological systems.The region’s complex water system and unique hydrological cycle show distinctive characteristics.Moreover,the intensified hydrological cycle and extreme climatic and hydrological events resulting from global warming have led to increased uncertainty around water resources as well as heightened conflict between water supply and water demand.All of these factors are exerting growing pressures on the socioeconomic development and vulnerable ecological environment in the region.This research evaluates the impacts of climate change on water resources,hydrological processes,agricultural system,and desert ecosystems in the ARNC,and addresses some associated risks and challenges specific to this area.The temperature is rising at a rate of 0.31
C per decade during 1961–2017 and hydrological processes are being significantly influenced by changes in glaciers,snow cover,and precipitation form,especially in the rivers recharged primarily by melt water.Ecosystems are also largely influenced by climate change,with the Normalized Difference Vegetation Index(NDVI)of natural vegetation exhibited an increasing trend prior to 1998,and then reversed in Xinjiang while the Hexi Corridor of Gansu showed the opposite trends.Furthermore,the desert-oasis transition zone showed a reduction in area due to the warming trend and the recent rapid expansion of irrigated area.Both the warming and intensified drought are threatening agriculture security.The present study could shed light on sustainable development in this region under climate change and provides scientific basis to the construction of the“Silk Road Economic Belt”.

干旱半干旱区生态系统凝结水的影响因素及其作用研究进展

凝结水是干旱半干旱生态系统重要的水分补给来源,对于维持生态系统功能具有重要意义。综述了干旱半干旱生态系统气象条件、地形环境和植被属性等因素对凝结水形成的影响,以及气候和环境变化对凝结水产量的影响机制。在此基础上,进一步从植被生长、生物土壤结皮、小型动物、微生物和地表水热平衡过程等方面,探讨了凝结水产量变化对干旱半干旱生态系统组成和过程的重要作用。最后对未来相关研究提出以下建议:(1)增加长时间序列的凝结水观测数据分析,(2)系统探讨凝结水对干旱半干旱区生态系统功能的综合影响,并(3)完善气候变化背景下凝结水与生态系统关系的相关研究。本文旨在对该领域的未来研究提出综述、建议和展望。

中国西北干旱区水资源与生态环境变化及保护建议

水资源短缺是制约西北干旱区经济社会高质量发展和生态安全保障的最关键自然因素。文章系统分析了西北干旱区水资源与生态环境变化趋势,从用水结构、水资源利用效率等解析了水资源承载力变化。结果显示,西北干旱区气温以0.32℃/10年的速率升高,降水以9.32 mm/10年的速率增加;冰川加速萎缩,冰雪融水径流增加,自20世纪90年代中期以来,山区来水量增加约110×10^(8)m^(3),水资源可利用总量增加。近10年来,水资源节约利用成效显著,用水效率不断提高,水资源承载力不断增强,生态系统健康向好发展。但西北干旱区水资源问题依然突出,极端气候水文事件强度加大,生态环境仍然脆弱,未来需要进一步挖掘水资源潜力,提升水资源管理水平,加大生态保护修复力度,以应对气候变化可能带来的风险。

旱区地下水文与生态效应研究现状与展望

围绕旱区地下水文与生态效应面临的科学问题以及国家生态文明与"一路一带"建设对地下水学科研究需求的紧迫性,分析了旱区地下水形成演化机理,研究了旱区地下水的功能。在此基础上,围绕6个重大科学问题分析了国内外研究现状、存在的问题与发展趋势,针对旱区地下水文与生态效应研究存在的瓶颈和国家的需求,提出了亟待解决的关键科学问题,助力于我国地下水科学的创新发展和国家经济建设。