Carrying Capacity and Coupling Coordination of Water and Land Resources Systems in Arid and Semi-arid Areas: A Case Study of Yulin City, China

Quantitatively assessing the carrying capacity of water and land resources systems in arid and semi-arid areas is crucial for achieving the 2030 Sustainable Development Goals.In this work,taking Yulin City in China as a case study and employing the Criteria Importance Through Intercriteria Correlation(CRITIC)method,a modified model of coupling degree was developed to evaluate the car-rying capacity of water and land resources systems endowment and utilization,as well as their coupling coordination degree from 2013 to 2020.Our findings indicate that the water and land resources of Yulin are diminishing due to declines in agriculture,higher industrial water use,and wetland shrinkage.However,reallocating domestic water for ecological sustainability and reducing sloping farmland can mitigate this trend of decline.Temporally,as the coupling coordination between water and land resources system endowment in Yulin continuously improved,the coupling coordination between water and land resources system utilization first decreased and then in-creased with 2016 as the turning point.Spatially,the carrying capacity of water and land resources systems,the coupling coordination degree between water and land resources system endowment,and the coupling coordination degree between water and land resources system utilization in Yulin exhibited the same pattern of being higher in the six northern counties than in the six southern counties.Improving the water resources endowment is vital for the highly efficient use of water and land resources.

STAGES AND POTENTIALITY OF WATER RESOURCES DEVELOPMENT INARID NORTHWESTERN CHINA

The processes of water resources exploitation and utilization can be divided into three stages by water resources transformation, and the history, present situation and future trend of water resources development in piedmont areas around high mountains of arid northwestern China. The three stages are: the stage of surface water development (the first stage), the stage of comprehensive development of surface and ground water (the second stage) and the stage of economical development of water rare (the third stage). The three stages link each other and show the law and processes of water resources exploitation and utilization associated with social and technological progess. The economical water policy should run through the three stages. On this point, however, the third stage differs from the others, particularly, refering to irrigated agriculture. The third stage has more progressive significance because it breaks the traditional ideas on water resources development. According to our investigation and calculation, under present conditions of water resources development, the net used water is about 160 × 108 m3, accounting for 18% of the total water resources of northwestern China. The water resources have not ben fully develop. If the first stage is finished, the exploitable water can be increased by 91 %. After the second stage, furthermore, it can be increased by 216%.

Environmental issues and countermeasures in exploiting water resources of rivers

Based on affirming the tremendous benefits that water resources of rivers can provide in their exploitation, main environmental problems and their countermeasures have been proposed and analyzed in this paper. It is argued that multiple measures should be applied to solving those problems by simultaneously carrying out engineering measures, scientific research and also programs to cultivate the society’s awareness, aimed at a sustainable development strategy for exploiting water resources.

WATER RESOURCES DEVELOPMENT IN CHINA

The sustainable development of water resources is of vital importance to the maintenance of survival environment on which people rely for existence. A brief review is given on the characteristic features of water resources, the present status of water resources development and some major water conservancy projects under construction or in contemplation in China. Finally, the prospect of water resource development in

Climate change and groundwater resources in China

Water resources play an important role in supporting the economic and social development of China. The impact of climate change on water resources has become a bottleneck in this process, especially for major projects, with surface water and groundwater systems experiencing considerable impacts. The annual natural recharge of fresh groundwater is 8 840×10~8 m^3, which accounts for approximately 31% of the water resources. Groundwater is the most significant water source for many cities and energy bases, and it is also the main source acting as a buffer against extreme climate events caused by climate change. However, most of the groundwater in China buried deeply and unevenly, which increases the difficulty of investigating and exploiting this resource.This paper illustrates the general conditions of China water resources and hydrogeological hazards, such as karst sinkholes, surface subsidence, and soil salinization, caused by climate change, El Nino, La Nina, other climate events and human activities and presents the regulatory measures enacted to mitigate these issues in China.The China Geological Survey(CGS) has organized professional teams to investigate and evaluate groundwater resources and the environment since 1999. Based on these investigations, the total quantity, expected exploitable quantity and current exploited quantity of groundwater in whole China have been evaluated. In addition, an evaluation of the groundwater pollution caused by climate change throughout China and key areas has been conducted. At present, the CGS is conducting national groundwater monitoring projects and establishing regional engineering and technical measures for water resource exploitation and utilization.

Urban Water Resource Utilization Efficiency in China

The efficient use of water resources directly affects environmental, social, and economic development; therefore, it has a significant impact on urban populations. A slacks-based measure for data envelopment analysis （SBM-DEA） has been widely used in energy efficiency and environmental efficiency analyses in recent years. Based on this model, data from 316 cities were examined and a category method was employed involving three different sorting techniques to empirically evaluate the efficiency of urban water re- source utilization in China between 2000 and 2012. The overall efficiency （OE） of urban water resource utilization in China was initially low, but has improved over the past decade. The scale efficiency （SE） was higher than the pure technological efficiency （PTE）; PTE is a major determining factor of OE, and has had an increasingly significant effect. The efficiency of water resource utilization varied ac- cording to the region, urban scale, and economic function. The OE score for the eastern China was higher than for the rest of the region, and the OE score for the western China was higher than for the central China. The OE score for urban water resource utilization has improved with urban expansion, except in the case of small cities. The SE showed an inverted U-shaped＇ trend with increasing urban expansion. The OE of urban water utilization in comprehensive functional cities was greater than in economic specialization cities, and was greater in heavy industry specialization cities than in other specialization cities. This study contributes to the field of urban water resource management by examining variations in efficiency with urban ~ezle

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”.

城市可持续发展中的节水与水资源管理研究

水资源是人类赖以生存的不可替代的重要资源,随着社会发展步伐的加快,越来越多的人开始注重节约水资源,合理利用水资源。现如今非常缺少的就是可持续发展的资源,且水资源对经济社会的快速发展有着重要的战略意义。水资源是人们生活的必需品,如果没有水资源的支撑和保护,人们将面临生存危机。所以,如何合理利用水资源,并使水资源得到可持续发展尤为重要。基于此,本文针对可持续发展的城市水资源进行分析,并提出节水与水资源管理的相关措施,以供借鉴。

喀斯特地下水开发利用与保护研究

我国南方喀斯特地区具有特殊的“地上、地下”二元地质结构,受喀斯特水文地质作用的影响,喀斯特地区的水资源的开发、利用以及保护都是相辅相成的。为此,总结了我国南方喀斯特地区地下水资源开发与利用途径(如制定专业打井找水技术、暗河及溶洞提水技术、植被保护技术、地表水-地下水输疏通协管)以及喀斯特地下水保护措施(如加强地表河和落水洞污水排放监管、严格岩溶水动态监测、加强打井建设管理、科学规划喀斯特地下水监测站),同时建议有关部门要及时编制岩溶地下水保护和利用规划,以期从长远角度实现喀斯特水资源的高效可持续开发利用以及科学合理的保护。

新时代全面提升国家水安全保障能力的战略思路和重要举措

党的二十大明确提出以中国式现代化全面推进中华民族伟大复兴。中国式现代化需要有力的现代化水利支撑保障,国家水安全保障能力是现代化水利支撑保障的核心。系统分析了中国式现代化对于水安全保障的新要求,提出了新时代保障国家水安全的总体思路,明确了重要举措,为加快推进新阶段水利高质量发展、全面提升国家水安全保障能力提供技术参考。

中国广义农业水土资源匹配及利用状况动态评价

作为农业发展的核心要素,水土资源匹配态势与利用程度决定着中国农业可持续发展及食物安全。为优化中国农业水土资源配置,该研究基于2000—2020年31个省市的统计数据,采用基尼系数评价农业水土匹配状况,提出广义农业水土匹配系数揭示各省农业水土资源匹配状况及配比程度,联合匹配特征与水土利用状况确定各省农业水土资源利用类型区。结果表明:1)研究期内,中国灌溉水与耕地分布差距较大(基尼系数均值0.424),匹配情况变差;广义农业水资源与耕地资源分布相对合理(基尼系数均值为0.360),无显著变化趋势。地理区及省际间农业水土匹配程度存在较大差异。华北、西北和东北地区匹配状况为“土多水少”,华东、华中和西南地区匹配状况为“水多土少”,广东(广义农业水土匹配系数均值为2.06)和云南(广义农业水土匹配系数均值为1.02)匹配程度分别为各省市最低和最高,匹配状况均为“水多土少”;2)农业水土资源利用程度空间异质性明显,垦殖率东南高西北低,农业水资源利用程度北高南低;3)吉林、新疆、江苏水土资源配置情况变差(转为低匹配高开发区),北京水土资源配置情况有所好转(转为高匹配低开发区)。研究结果能够为国家农业水土资源优化配置相关决策提供支撑,对实现国家食物安全及农业可持续发展具有重要意义。

西北旱区现代农业提质增效发展模式探究

西北旱区是我国重要的土地资源储备基地,受水资源短缺、土地质量偏低等问题制约,实现农业高质量发展的难度较大,亟需探索集约高效的现代农业发展路径。本文系统分析了西北旱区农业发展的现状及面临的问题,构建了西北旱区现代农业提质增效理论框架。针对草原牧业区、农牧交错区、雨养农业区、灌溉农业区等区域的农业发展特征与功能定位,在优化配置农业自然资源、科技资源、经济资源、社会资源等基础上,本文重点分析了水土资源高效利用、农业种植结构调整与种植模式优化、农业生产精准管控技术创新、产业化与可持续发展等核心技术或方法,形成了具有区域鲜明特色的4类模式,即饲草–绿肥作物生产为主的牧区现代生态农业发展模式、饲草–粮食–经济作物生产并重的农牧交错区生态农业发展模式、粮食–林果生产为主的雨养区生态农业发展模式和粮食–经济作物–林果生产为主的灌溉区现代生态农业发展模式,以此实现农业生产功能、生态功能、教研功能、休闲功能的拓展延伸。为推动西北旱区现代农业高质量发展,需优化农业功能分区,科学规划农业发展格局;健全生态农业补偿机制,创建绿色核算制度;促进产业融合,树立现代生态农业发展理念;构建现代生态农业发展的绿色科技创新与推广服务体系;培育农业农村人才,完善人才政策体系。

我国旱作节水农业发展的思考

我国旱地面积占耕地面积的一半以上,大力发展旱作节水农业是有效解决干旱频发、水资源短缺问题及促进农业高产高效的必由之路,也是实施国家粮食安全战略的重要保障。本文对相关文献提出的旱作节水农业的概念、我国旱作节水农业的发展历史及现状、特点和主要措施、存在问题进行系统分析和总结,提出了国内旱作节水农业的发展思路和基本原则,并建议在发展过程中要在加强组织领导、增强资金支持、强化科技支撑、制定鼓励措施、加强宣传报道等方面做好工作。

银川市经济社会发展布局以水管控保障性分析

结合银川市区域条件、经济社会发展和自然生态平衡的要求,分析在水资源红线和水资源承载能力的约束下,银川市水资源条件对经济社会发展供水安全的优化和保障条件,以及银川市经济社会高质量发展与水资源空间均衡的规模与布局。提出通过控规模、控结构、控水量、提高用水效率等适应银川市经济发展需求的水资源保障措施,以期为银川市水资源管理和发展布局提供参考。

国际冰冻圈研究动态和我国冰冻圈研究的现状与展望

介绍了世界气候研究计划(WCRP)/气候与冰冻圈(CliC)计划所代表的国际冰冻圈研究基本特点与未来趋势;分析了我国冰冻圈独特的区域特点,阐明我国冰冻圈是维系干旱区绿洲经济发展和确保寒区生态系统稳定的重要水源保障,其气候效应、环境效应、资源效应和生态效应正日趋显著并广泛地影响到西部生态与环境安全和水资源持续利用,因而不仅具有科学上的重要性,而且具有国家战略需求上的紧迫性。提出未来我国冰冻圈研究应重点加强冰冻圈过程研究、记录研究、冰冻圈与气候模拟、冰冻圈与水资源以及冰冻圈变化的影响、适应与对策综合评估等5个方面的工作,逐步完善并形成我国冰冻圈科学体系。

国际河流开发给中国的启示

通过分析亚洲的两河流域、北美洲的圣劳伦斯河、欧洲的多瑙河、非洲的尼罗河和南美洲的亚马逊河等国际河流的开发案例,借鉴成功与失败的开发经验和教训,得出加强合作、整体开发、全流域开放、协调生态环境等一些对我国合理、高效开发利用国际河流水资源的有益启示,并对我国国际河流开发管理提出了"与邻为善,以邻为伴"的建议。

中国西部流域水循环研究进展与展望

由于中国西部水文循环的地区特性、生态系统的脆弱性和社会经济发展对水资源需求的增加,使得中国西部开发面临十分现实和严峻的水资源问题。从中国西部流域水循环的特点及存在的问题出发,探讨了中国西部流域水循环研究基础科学问题。同时,对21世纪中国西部流域水循环科学问题的研究进行了展望。核心的方面是:自然变化和人类活动影响的西北干旱地区水资源演变规律是什么?在西部生态环境建设中如何估算生态需水量?西北干旱地区的水资源究竟能够承载多大规模的社会经济发展需求?如何合理分配与调控水资源,最大限度地发挥其潜力,促进该地区社会经济的可持续发展?