内陆河流域山区水文与生态研究   总被引：5，自引：0，他引：5  

康尔泗  陈仁升  张智慧  吉喜斌  金博文 《地球科学进展》2008,23(7):675-681

以河西走廊黑河干流山区流域为例,从山区水文循环、水文与生态系统以及径流形成和预测等方面讨论山区流域水文和生态相互作用研究的有关问题。山区降水的空间和时间分布规律和固态、液态降水组成变化主要受制于海拔和地形的影响,而不同海拔和地形条件下的下垫面不同土地覆被和复杂的空间异质性则主要影响蒸散发量。对内陆河山区流域的水文小循环的研究,有助于进一步研究和认识内陆河流域上、中、下游水文和生态系统的相互联系问题。至今,对山区水文过程与生态系统的相互作用问题的研究还非常薄弱,需要研究山区森林草地生态系统在山区水文循环中的作用以及在维持和保护山区生态和环境中的作用和意义。内陆河流域山区水文过程复杂而综合性强,须加强对山区径流形成机理的多学科交叉研究,不断改善出山径流对气候变化和人类活动响应过程的模拟和预测水平。  相似文献   

内陆河流域综合整治的生态恢复与重建技术     

高前兆  钱鞠  高雅玉  王鹏  张钰 《水文》2011,31(1):59-65,80

通过对我国西北内陆河流域的生态系统、水循环、水资源形成与消耗的特点,生态环境的变化以及水环境保护等问题分析,论述了开展内陆河流域综合治理的必要性和紧迫性。结合近期典型流域治理恢复成效,提出内陆河流域综合整治的第二步生态恢复目标。根据内陆河流域的治理实践,参照干旱区供水集水和保水技术,总结了改善下游绿洲水分生态平衡、控制中上游用水与保护河道水环境,防治河道水质盐化与农田排水再利用等生态恢复与重建的技术。最后,为了实现流域生态环境良性循环和水环境质量整体改善,提出了现阶段要加强水环境监测保护和生态补偿建设的任务。  相似文献   

干旱区内陆河流域的生态安全与生态需水量研究——兼谈塔里木河生态需水量问题   总被引：14，自引：0，他引：14  

陈亚宁  郝兴明  李卫红  陈亚鹏  叶朝霞  赵锐锋 《地球科学进展》2008,23(7):732-738

结合对干旱区生态安全和生态需水量关键科学问题的探讨,提出干旱内陆河流域生态脆弱区的生态安全分析是以水过程研究为核心的,水文过程控制着生态过程,对流域生态系统的稳定性有着直接影响,而水资源开发利用和水循环对生态系统功能有重要影响,天然植物恢复和生长的合理地下水位的研究是确立生态需水量的基础.并实证分析和计算了维系塔里木河生态安全的生态需水量,塔里木河干流现状生态需水量为31.74×108 m3,其中,上、中、下游分别为9.95×108 m3、18.47×108 m3和3.32×108 m3.  相似文献   

内陆河流域水文过程研究的一些科学问题   总被引：5，自引：0，他引：5  

康尔泗  陈仁升  张智慧  吉喜斌  金博文 《地球科学进展》2007,22(9):940-953

水科学研究的发展，对水文科学提出了新的挑战，即如何在流域、区域和全球尺度进行学科交叉、综合集成和协同研究，从而更全面地认识水在地球资源和环境变化中的作用，认识水圈及其与大气圈、岩石圈和生物圈的相互作用。为了解内陆河流域水文循环和水量平衡各分量之间的变化和转化关系及其与生态和环境之间的相互作用，以及对全球变化和人类活动的响应和反馈，基于内陆河流域上游山区径流形成区、中游人工绿洲水资源开发利用区和下游荒漠绿洲径流散失区的流域水文循环特征，从能水通量、生态和生物地球化学过程讨论了山区水文过程；从生态水文、尺度转换、阈值和反馈讨论了水文和植被的相互作用；从国外提出的关键作用带的概念讨论了内陆河流域地下水—土壤—植被作用层的水文过程。提出了开展内陆河流域水文过程观测和研究的基本框架。  相似文献   

寒区和干旱区水文研究的回顾和展望   总被引：9，自引：3，他引：6  

康尔泗 《冰川冻土》1998,20(3):238-244

寒区和干旱区水文研究冰川,积雪,冻土,高寒山区和山前地带已初步形成了较完整的观测实验和研究体系,８０年代以来,在冰川融水径流,出山径流形成的观测实验,寒区水文过程,冰川作用流域水文过程和大气过程相互关系。乌鲁木齐地区的水资源问题,气候对水资源的影响,高亚洲冰冻圈水文,冰川洪水和融雪径流以及干旱区水文等方面已取得了多项研究成果,近年来,寒区和干旱区水文水资源的研究在内陆河流域水资源合理开发利用与社会  相似文献   

干旱区内陆河流域生态水文综合集成研究   总被引：7，自引：1，他引：6  

程国栋  赵传燕 《地球科学进展》2008,23(10):1005-1012

针对干旱区内陆河流域生态环境问题,面对国家重大需求及地球系统科学发展方向,指出内陆河流域生态水文综合集成研究的必要性,旨在为精细管理水资源,提高单方水产出效益（经济效益和生态效益）提供思路。以黑河流域为例,追踪流域研究历程,目前从野外调查试验观测,模型模拟到研究平台建设,黑河流域的数据知识的积累已基本具备开展流域生态水文综合集成的条件,但仍然存在着巨大的挑战。根据存在的问题,提出未来进行集成研究应加强的3个方面：①加强综合观测;②强调人文因素的定量研究和人文过程的研究;③重视模型、模拟方法在描述和反演地理真实中的应用。  相似文献   

干旱区流域生态水文耦合模拟与调控的若干思考   总被引：5，自引：1，他引：4  

严登华  王浩  杨舒媛  刘明国  霍竹 《地球科学进展》2008,23(7):773-778

系统识别全球变化和高强度人类活动影响下干旱区流域生态水文耦合作用机制及演变规律,并通过综合生态水文调控,构建健康水循环和生态安全格局,是干旱区流域亟待解决的关键科学问题。传统的基于水文过程与生态过程的分离模拟与调控,尚不能满足上述实践需求;需结合原型观测与实验,对大气模式、水文模型、生态模式（包括天然生态模拟模型和作物生长模式）进行耦合开发,构建具有统一物理机制的流域生态水文模型。以此为支撑,对干旱区流域生态水文过程演变规律及阈值特征进行系统识别;并结合水生态服务功能评价,提出流域生态安全修复及水资源合理配置与调度方案;制定有效的风险管理措施,对流域生态水文过程进行动态调控。  相似文献   

干旱区山地森林生态水文研究进展     

《地球科学进展》2016,(10)

在全球气候变化背景下,干旱区山地森林及其与水的关系和水文功能表现出较强的敏感性,引起了学术界和管理部门的高度关注。从森林空间格局、生态水文过程及其对气候变化的响应等方面,系统阐述了干旱区山地森林生态水文的研究进展,辨析了森林斑块格局的形成与稳定机理、森林与流域产水量的关系以及森林生态水文对气候变化的响应。此外,结合目前的研究进展,提出了未来的研究重点:加强植被格局与水文过程的耦合研究;借助遥感技术和模型解决尺度问题;提升森林水文功能的认识水平;确定兼顾水文和其他生态效应的适宜森林规模。  相似文献   

生态水文学研究的奠基之作--<生态水文学>   总被引：2，自引：0，他引：2  

赵文智 《地球科学进展》2001,16(5):734-735

生态水文学是 90年代以来兴起的一门新兴边缘学科 ,是描述生态格局和生态过程的水文学机制的一门科学 ,是生态学的水文方面 ,是研究植物如何影响水文过程及水文过程如何影响植物分布和生长的水文学和生态学之间的交叉学科。所研究的对象不仅仅局限于湿地生态系统 ,还应该包括其他生态系统 ,如干旱地区的生态系统、森林和疏林生态系统、江河生态系统、湖泊生态系统和水生生态系统等。近 2 0年来 ,水文过程在生态系统中的重要性和植物对水文过程的影响变得越来越明显。任何生态系统格局和生态过程的变化都与水文过程相关联。正确的管理水资源…  相似文献   

流域生态水文过程模拟研究进展   总被引：6，自引：0，他引：6  

王凌河  严登华  龙爱华  杨舒媛 《地球科学进展》2009,24(8):891-898

生态水文学作为生态学和水文学的交叉学科,得到了相关研究者的广泛关注,并成为水文水资源研究领域中的一个热点,生态水文过程主要包括水文过程、生态过程以及二者之间相互作用的过程。从生态水文学内涵的角度,对山地、湿地、干旱区生态水文过程模拟以及流域集成模拟进展做了阐述,并分析建模的策略和统计了部分生态水文模型,考虑了建模过程中的尺度、数据、精度3个关键问题。并对生态水文模拟发展趋势做了展望,指出在未来的研究中应更多的关注以下几个方面:①生态水文过程模拟建模基础研究;②生态水文过程集成模拟研究;③基于数据库和GIS/RS技术的生态水文过程耦合模拟研究;④与原型观测相结合的生态水文过程模拟研究。建立符合我国实情的生态水文模型,是现阶段我国生态水文学研究的重要任务。  相似文献   

A Research Approach for Ecological,Environmental and Geological Differentiation of Rocky Desertification and Its Driving Mechanism in Karst Graben Basin     

Li Qiang  Pu Junbing  Huang Ni  Du Hongmei  Qi Xiangkun  Wang Li  Yang Hui 《地球科学进展》2017,32(9):899-907

According to the national key research and development program of China “Evolution, integrating treatment and technological demonstration of rocky desertification in karst graben basin”, the task of “ecological, environmental and geological differentiation of rocky desertification and its driving mechanism in karst graben basin” was to reveal the migration of carbon, nitrogen, calcium and water, as well as evolution process and driving mechanism of ecosystem succession and rocky desertification. In this respect, the factors of lithology, topography, ecology, hydrology, vegetation, socio-economy, meteorology, soil, etc. were studied in the demonstration areas of Mengzi and Luxi rocky desertification control. Moreover, the interaction between vegetation and hydrological processes in the typical watershed was established, and the critical period and water requirement of the ecological water demand in the watershed were established. The ecological and hydrological process of the vegetation, as well as nitrogen, calcium and water cycling, and the carbon sequestration ability of ecosystems were used to predict the evolution of ecosystem succession and rocky desertification. The results provided the theoretical basis for the rational allocation of ecological water resources and ecological restoration in rocky desertification area.  相似文献   

Advances of Eco-environmental Effects and Adaptive Management in River Cascading Development     

Zhe Li  Yongbai Chen  Chong Li  Jinsong Guo  Yan Xiao  Lunhui Lu 《地球科学进展》2018,33(7):675-686

As a kind of anthropogenic activity with significant impact on river ecosystem, dam construction and reservoir creation will result in the degradation and disappearance of terrestrial ecosystem in its flooded area. It will cause the significant change of downstream eco-environment and disrupt the continuity and connectivity of natural rivers. There may be “accumulative effects” on the impact of river cascading development on its ecosystems, which is to “amplify” the impact of damming on river ecosystems step by step. However, the role, approach, and hydro-ecological mechanisms of the “accumulation effect” are still not clear. Additionally, this will also result in the uncertainty in the objective, targets, spatio-temporal scope and action path of adaptive management of river cascading development. In river cascading development, the current adaptive practice on restoring natural hydrological processes and river ecosystem may no longer be effective. There is need to understand the function and structure of river-reservoir system and its succession. The trade-offs between multi-stakeholders of river-reservoir system shall be also taken into consideration. The upper Yangtze River has experienced intensive cascading development, which is unique among the world’s rivers and will profoundly change the ecosystem in the upper Yangtze. The adaptive management of upper Yangtze should aim at optimizing the ecological structure of rivers and reservoirs and maintaining the health of river-reservoir ecosystems. Future research could be focused on the role and form of “accumulative effects” in upper Yangtze, and the trade-offs among multiple stakeholders. These will construct a new paradigm for the operation and management of green hydropower in the upper Yangtze.  相似文献   

森林冠层影响降雪截留过程的研究进展          下载免费PDF全文

肖洋  张淑兰  宋国华 《水科学进展》2017,28(3):462-471

森林冠层对降雪的截留和冠层截留雪的蒸发/升华、散落释放、融化滴落等过程显著影响了北方森林区域的水文循环,开展森林冠层对降雪截留过程影响的研究对于季节性积雪森林区域的气候变化、森林经营、森林火灾以及植被演替具有重要的科学意义。对当前的森林冠层影响降雪截留过程的观测方法和理论机制进行了深入探讨和总结,并针对现有研究中缺乏林分尺度和水平过程的研究等问题,提出了引入遥感技术等先进的研究方法以及开展多尺度、多过程和多因素的交叉研究是今后研究中的重点方向。  相似文献   

变化环境下城市水文学的发展与挑战——I.城市水文效应   总被引：3，自引：0，他引：3       下载免费PDF全文

张建云  宋晓猛  王国庆  贺瑞敏  王小军 《水科学进展》2014,25(4):594-605

全球气候变化和快速城市化导致的城市水循环过程变化是当前城市水文学研究的热点问题。为综合理解城市水循环演变过程,结合城市水文学的发展历程,剖析水循环过程对快速城市化进程的响应机制。总结了国内外城市化水文效应的主要成果,包括城市化对水循环过程、洪涝灾害、水生态系统以及水资源的影响。系统归纳了城市化水文效应的评估方法和技术手段。针对现有研究中的不足,指出变化环境下城市化水文效应研究面临的主要挑战及关键技术难题,提出未来研究的重点方向,如城市化降水效应的机理、不透水面的分布及有效性评估、城市化与水生态系统的响应关系与综合城市水资源管理及需水预测等。  相似文献   

内陆河流域基于绿水理论的生态—水文过程研究   总被引：1，自引：1，他引：0  

王刚  张鹏  陈年来 《地球科学进展》2008,23(7):692-697

水文过程与植物生态过程之间的相互作用,是生态水文学研究的重点。基于Falkenmark等提出的绿水和蓝水概念的生态水文学研究,使水循环与生态学过程紧密地联系起来,并凸现了植物对水循环的作用。按绿、蓝水的理论思路进行分析,植被的水源涵养功能可看作是森林、草地等对天然降水在绿水和蓝水之间的按比例分成;荒漠雨养植被中植物的水循环模式是“纯绿”的,即降雨渗入土壤的水都以蒸散发（绿水）形式消耗掉;荒漠河（湖）岸植物的水循环是由蓝到绿,即其水分来源是地下水（蓝水）,经蒸腾（绿水）而消耗。  相似文献   

Spatial and temporal variation in the trends of hydrological response of forested watersheds in Thailand     

Jessada Techamahasaranont  Sangam Shrestha  Mukand S. Babel  Rajendra P. Shrestha  Damien Jourdain 《Environmental Earth Sciences》2017,76(12):430

Thailand has undergone significant forest cover changes in recent decades, and this is likely to have altered the hydrological functioning of many watersheds; however, such potential impacts are not fully understood. To contribute towards a better understanding of the potential hydrological impacts of forest cover changes, this study examines the temporal trends of several hydrological indices in eight watersheds of Thailand over the period from 1982 to 2013. A number of hydrological indices (runoff coefficient, baseflow index, flow duration indices, streamflow elasticity, dryness index) were analysed using a combined Thiel–Sen/Mann–Kendall trend-testing approach, to assess the magnitude and significance of patterns in the observed data. These trend tests indicated that the change in the hydrological response of watersheds varied with the change in structure and composition of forest species. A significant increase in runoff (viz. average flow) was observed in those watersheds covered with natural forests, whereas a significant reduction in runoff (viz. baseflow and low runoff) was observed in those watersheds where the land cover was changed to Para rubber plantations and reforested areas. It is also noteworthy that the watersheds covered by natural forest showed more streamflow elasticity than plantations or reforested areas. These results highlight the importance of considering both forest types/dynamics and watershed characteristics when assessing hydrological impacts.  相似文献   

Study on Water Internal Recycle Process and Mechanism in Typical Mountain Areas of Inland Basins,Northwest China: Progress and Challenge     

Yongjian Ding  Shiqiang Zhang 《地球科学进展》2018,33(7):719-728

The water resource and its change of mountainous area are very important to the oasis economic system and ecosystem in the arid areas of northwest China. Accurately understanding the water transfer and circulation process among vegetation, soil, and atmosphere over different hydrological units in mountainous areas such as snow and ice, cold desert, forest and grassland is the basic scientific issue of water research in cold and arid regions, which is also the basis of water resource delicacy management and regulation. There are many research results on the hydrological function of different land covers in mountain areas, basin hydrological processes, however, there are only very limited studies on the water internal recycle at basin scale. The quantitative study on the mechanism of water internal recycle is still at the starting stage, which faces many challenges. The key project “Study on water internal recycle processes and mechanism in typical mountain areas of inland basins, Northwest China” funded by National Natural Science Foundation of China will select the Aksu River and Shule River Basin, which have better observation basis, as study area. The internal mechanism of moisture transfer and exchange process of different land cover and atmosphere, the internal mechanism of water cycle in the basin, and water transfer paths in atmosphere will be studied through enhancing runoff plot experiments on different land cover, analyzing the mechanism of water vapor transfer and exchange between different land covers in the watershed by isotope tracing on the water vapor flux of vegetation water, soil moisture and atmospheric moisture, improving the algorithms of remote sensing inversion and ground verification on land surface evapotranspiration on different land cover, and analyzing the water vapor flux from reanalysis data, and the coupling modeling of regional climate model and land surface process model. At last, the effect of different land cover in hydrological process of mountain area, and the impact of land cover on downstream oasis will be systematically analyzed.  相似文献   

Review on Montane Forest Eco-hydrology in Arid Area     

He Zhibin  Du Jun  Chen Longfei  Zhu Xi  Zhao Minmin 《地球科学进展》2016,31(10):1078-1089

Since the forest eco-hydrology of arid area shows a well sensitivity of the global climate change, the relationship between forest and water and the hydrological function has attracted the attention of academic communites and management departments. This paper expounds the research progress in arid mountain forest eco-hydrology, and analyses the formation and stable mechanism of forest patch pattern, the relationship between forest and water yield and the response of forest eco-hydrology to climate change from three aspects: Forest spatial pattern, hydrological process and its response to climate change. In addition, combined with the current research progress, the research emphases in the future are put forward: Strengthening the research on the coupling of vegetation pattern and hydrological process; solving the scale problem by using remote sensing technique and model; enhancing the understanding towards the hydrological function of forest; determining the suitable forest scale which can balance the relationship of ecology and hydrological effect.  相似文献