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1.
地下水依赖型生态系统生态水文研究进展 总被引:3,自引:2,他引:1
地下水依赖型生态系统(GDEs)中植被动态和土壤水盐平衡受地下水影响显著。从地下水与植被、土壤水、地表水和盐分动态关系、气候变化与人类干扰下的GDEs响应、GDEs模型与管理等方面综述了GDEs生态水文研究进展。指出在地下水环境变化后GDEs植被如何响应、GDEs功能是否发生突变、发生突变的生态阈值等是其可持续管理亟待回答的问题,其关键和难点是如何刻画地下水到地表土壤介质中的生态水文过程,加强相应的观测与模拟研究是未来的重要方向。此外,实现GDEs可持续管理还需要明确4个问题:(1)如何界定GDEs的范围,哪些物种和生境依靠地下水存在?(2)GDEs可持续发展需要何种地下水条件?(3)在社会资源有限的情况下如何管理地下水资源;(4)观测哪些生态参数来体现GDEs管理措施的有效性? 相似文献
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全球气候变化背景下,冻土将会发生显著变化,进而影响寒区生态和水文系统的物理、化学和生物过程,并诱发区域水资源恶化与生态功能退化,其中坡面冻土水文过程是物质和能量在寒区地表各圈层迁移转化的重要载体与基本单元。为此,基于"驱动-过程-机制"这一研究视角,从冻土退化及其水文过程响应、冻土水文过程及其局地因素影响、冻土水文过程机制及其影响模拟等三个方面,综述了国内外有关冻土退化影响下坡面水文过程研究方面的最新进展;同时,在总结了当前冻土水文过程研究不足的基础上,提出了如下建议:(1)更加注重坡面冻土水文过程要素观测与方法集成研究;(2)更加注重坡面冻土水文过程变化机理与耦合机制研究;(3)更加注重坡面冻土水文过程时空演化与效应评估研究。以期提升寒区流域径流形成演化的认知能力与径流变化的预测能力,并为寒区流域水资源稳定和适应性利用提供理论基础与科学对策。 相似文献
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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
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
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流域生态水文过程模拟研究进展 总被引:6,自引:0,他引:6
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
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中国岩溶湿地生态水文过程研究进展 总被引:3,自引:0,他引:3
《地质科技情报》2019,(6)
岩溶湿地是广泛分布于岩溶地区的一种特殊的湿地类型。受特殊水文地质结构的控制,岩溶湿地生态系统的结构和功能与其他湿地类型有着显著差异。基于国内外湿地及岩溶湿地相关研究成果的基础上,阐述了我国西南岩溶湿地具有上下双层结构、封闭的储蓄水构造、快速的生态水文循环等特点,以及地表水-地下水转化、生态需水转化的规律和研究方法,分析了人类活动对岩溶湿地水量、水质以及生态系统演化的影响,并总结了岩溶湿地生态水文模型的研究现状及发展趋势。最后,针对目前岩溶湿地生态水文过程研究中存在的问题,提出在未来研究中应加强对岩溶湿地结构及生态水文循环过程的研究、查明人类活动对岩溶湿地产生的影响、构建生态水文耦合模型等建议。 相似文献
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针对陆海交互作用下河口生态需水影响因素多且时空差异性显著的特点,在系统分析淡水输入对河口生态系统水环境过程和生物过程影响的基础上,按生态需水目标的差异,将河口生态需水分析方法划分为基于典型生物资源保护目标、基于生境保护目标以及基于多目标整合分析3种类型。从生态需水目标筛选、生态需水目标对淡水输入响应关系以及生态需水计算方法实用性方面探讨了河口生态需水研究中面临的主要问题。结论认为生态系统健康综合表征指标的确定应成为分析河口生态需水的关键科学基础,筛选控制性生态要素构建河口关键生态水文过程模型可成为有效提高生态需水计算方法实用性的主要技术手段。 相似文献
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研究目的是采用水文模型系统(HMS)模拟峨嵋河流域暴雨水文过程,并为长江上游地区气候和水文响应研究提供可靠的信息。HMS是一种分布式水文模型可用于研究各种气候因子和地表覆盖变化而引起的水文过程响应,该系统(HMS)利用气象、土壤类型、土地利用和地表覆盖、数字高程(DEM)和降雨径流等资料,研究气候、陆面、地表水和地下水的相互作用机理。在本次研究中,采用SCS Curve Number(CN)和Green-Ampt(GA)方法来计算径流过程,用GIS来数字化DEM、土壤、土地利用和陆地覆盖数据。通过用不同时间间隔的降雨和不同计算方法的水力参数模拟水文过程,来检验降雨的时间尺度效应和水力参数的空间变异性对水文过程的影响。结果表明,HMS对峨嵋河流域暴雨洪水的模拟及预测具有较好的适用性。 相似文献
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疏勒河流域中下游盆地地下水功能区划 总被引:1,自引:0,他引:1
按地下水目标功能单项评价分级和主导功能综合评价的组合特征,对疏勒河流域中下游盆地地下水目标功能在5级分区的基础上,结合各自的属性与具体条件进行了功能区划:地下水资源功能划分为11种类型;生态功能划分为12种类型;地质环境功能划分为8种类型。地下水功能综合区划依据资源功能区和生态功能区,分别划分为4种类型的资源利用区和3种类型生态环境保护利用区。 相似文献
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地下水资源在内陆干旱区具有重要的植被生态功能, 依赖地下水的植被生态系统的需水量是目前流域水资源综合管理的重要组成部分.在分析地下水资源生态功能研究进展的同时, 系统阐述了内陆干旱区依赖地下水的植被生态需水量研究的几个关键科学问题: ①依赖地下水的植被生态系统的识别方法; ②地下水对植被生态系统作用机制的分析; ③地下水关键属性安全界限的确定; ④地下水系统结构分析; ⑤生态用水配置方案的确定; ⑥区域尺度地下水-天然植被系统关系的概念模型.并逐一提出了这些问题的解决方案, 能够为干旱区植被生态系统保护和恢复提供思路, 也能够为水资源开发利用与以植被生态系统保护为中心的干旱区生态文明建设提供地学支撑. 相似文献
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Ecohydrology of Groundwater Dependent Ecosystems: A Review 总被引:2,自引:0,他引:2
Groundwater Dependent Ecosystems (GDEs) are ecosystems that must have access to groundwater to maintain their ecological structure and function. In other words, the vegetation dynamics moisture dynamics, and water-salt balance in GDEs are significantly affected by and directly related to the groundwater. This work reviews the most recent research advances in the ecohydrology of GDEs from: ①the interactions between groundwater and vegetation, ②the interactions between groundwater and soil moisture dynamics in the vadose zone, the interactions between ground and ③surface-water systems, ④the interactions between groundwater and salt accumulation dynamics, ⑤the responses of GDEs to climate changes and human disturbances, and ⑥the ecohydrological modeling works toward sustainable management of GDEs. It is pointed out that several issues need to be taken into account in the managements of GDEs, i.e., how does the vegetation of GDEs response to fluctuations and decreases in the groundwater level, whether there is a catastrophic loss of the functions of GDEs, and what is the threshold value below which such a catastrophe may occur. The key to solving those issues lies in how to delineate the different ecohydrological processes occurred in the soil medium from the top of the ground surface to the water table. Therefore, observation and modeling efforts are needed and will be important research priorities in the future, especially for GDEs in arid environments. We also argued that four more difficulties should be addressed towards sustainable management of GDEs in future: ①how to identify GDEs in the field, and determine which habitats and species are reliant on groundwater for their persistence in the landscape, ②what groundwater regime is required to sustain the existence of GDEs, ③how to manage GDEs with limited social resources, and ④what measures of ecosystem function can be monitored to determine that management is effective? 相似文献
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Review: From multi-scale conceptualization to a classification system for inland groundwater-dependent ecosystems 总被引:1,自引:0,他引:1
Guillaume Bertrand Nico Goldscheider Jean-Michel Gobat Daniel Hunkeler 《Hydrogeology Journal》2012,20(1):5-25
Aquifers provide water, nutrients and energy with various patterns for many aquatic and terrestrial ecosystems. Groundwater-dependent ecosystems (GDEs) are increasingly recognized for their ecological and socio-economic values. The current knowledge of the processes governing the ecohydrological functioning of inland GDEs is reviewed, in order to assess the key drivers constraining their viability. These processes occur both at the watershed and emergence scale. Recharge patterns, geomorphology, internal geometry and geochemistry of aquifers control water availability and nutritive status of groundwater. The interface structure between the groundwater system and the biocenoses may modify the groundwater features by physicochemical or biological processes, for which biocenoses need to adapt. Four major types of aquifer-GDE interface have been described: springs, surface waters, peatlands and terrestrial ecosystems. The ecological roles of groundwater are conditioned by morphological characteristics for spring GDEs, by the hyporheic zone structure for surface waters, by the organic soil structure and volume for peatland GDEs, and by water-table fluctuation and surface floods in terrestrial GDEs. Based on these considerations, an ecohydrological classification system for GDEs is proposed and applied to Central and Western-Central Europe, as a basis for modeling approaches for GDEs and as a tool for groundwater and landscape management. 相似文献
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Remote sensing and GIS based determination of groundwater dependent ecosystems in the Western Cape, South Africa 总被引:4,自引:0,他引:4
Finding the location of groundwater dependent ecosystems (GDEs) is important in determining the extent of restrictions that
need to be placed upon the abstraction of groundwater. Remote sensing was combined with geographical information system (GIS)
modelling to produce a GDE probability rating map for the Sandveld region, South Africa. Landsat TM imagery identified the
areas indicating the probable presence of GDEs and GIS assisted in their delineation. Three GIS models were generated: a GIS
model predicting landscape wetness potential (LWP model) based on terrain morphological features; the LWP model was modified
to highlight groundwater generated landscape wetness potential (the resulting GglWP model); and a groundwater elevation model
was interpolated, combining groundwater level measurements in boreholes in the region with digital elevation model data. Biomass
indicators generated from Landsat were classified and combined with the GIS models, followed by field verification of riverine
and wetland GDEs. The LWP model provided the most accurate results of the three models tested for GDEs in this region.
相似文献
| Zahn MünchEmail: |
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Surface waters (streams, rivers, and wetlands) are the most important groundwater dependent ecosystems (GDEs) in Otago, New Zealand. Pumping wells in the vicinity can deplete water in the GDE. In Otago, most of the surface water resources are allocated and a method, which would assist in the implementation of water management policy, is needed to acknowledge the strong hydraulic link between surface and shallow groundwater. A simplified method has been developed which derives a numerical relationship between the bore pumping rate and the distance between the bore and surface water body beyond which depletion is considered insignificant. A range of GDE depletion scenarios are examined at various combinations of hydraulic parameters to find a minimum distance for a given pumping rate, at which 90% of the modelled surface water depletion scenarios become less than a threshold GDE depletion after a specified time. A buffer zone, based on the minimum distance is placed around GDEs, and groundwater abstraction rights within the buffer are subject to stricter rules. Applicants wishing to abstract from bores within the buffer zone will need to address the environmental impact of the proposed activity on the GDE. 相似文献
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Groundwater in China’s permafrost region is vital for humans and cold-climate ecosystems. Permafrost responses to global warming have significantly changed the spatio-temporal patterns and distribution of properties associated with the groundwater system. The main areas of current and past studies on permafrost hydrogeology in China include four aspects: groundwater distribution and dynamics in permafrost regions, interplay between groundwater and permafrost, the impact of permafrost degradation on groundwater, and the regional effect of groundwater changes on the environment in permafrost regions. Over the last 10 years, the development and use of coupled heat-transport and groundwater models have focused on the hydrogeology of permafrost, and on groundwater development and distribution in permafrost regions. Progress in groundwater-related research on issues surrounding permafrost regions of China are comprehensively summarized and discussed in this review paper, which should provide a theoretical basis for further study of the groundwater system and its effects on the ecological environment under climate change. 相似文献
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Groundwater, as a drinking water source for nearly one third of the world’s urban population, plays a strategic role in the development of urbanization. The object of this study is urban areas with the largest demand for water resources, the heaviest load of groundwater pollution and the most intense development of underground projects. This study sorted out the eco-hydrological problems such as the variation of the groundwater hydrological process, the groundwater pollution, and the urban heat island of groundwater in urban areas under the background of urbanization. Furthermore, the mechanism of changes in the quantity, quality and heat of groundwater was also systematically analyzed, and the intrinsic interaction among these three factors was revealed. The study showed that changes in land use and land cover caused by the urbanization are the main reasons for the variation of groundwater hydrological process. The pollution load of urbanization construction and domestic production waste has aggravated the deterioration of groundwater quality. The increase in vertical heat flux caused by urbanization gives rise to the warming of groundwater. By summarizing the eco-hydrological problems and causes of groundwater in urbanized areas, several suggestions were proposed:
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干旱区绿洲地下水位调控方法与模型研究进展 总被引:1,自引:0,他引:1
适宜的地下水位是干旱区绿洲健康稳定发展的基础。从地下水生态水位的调控机理、调控方法、调控模型和应用实践入手,综述了干旱区绿洲地下水生态水位调控的研究进展:地表水与地下水相互转化规律是干旱区绿洲地下水生态水位调控的理论基础,掌握人类活动强烈影响下的地表水与地下水的响应关系是关键;地下水的补给、排泄和开发利用是实现地下水位调控的三个主要途径,不同调控方法在作用环节、适用性及效果方面存在显著差异;基于不同的研究重点,目前形成了以水资源配置、水循环过程和生态过程为核心的三类调控模型;建议继续深化强人类活动影响下干旱区绿洲生态水文响应机理与演变规律研究,构建基于调控措施-循环转化-响应反馈的地下水生态水位调控体系。 相似文献
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中国冻土地下水研究现状与进展综述 总被引:6,自引:5,他引:1
冻土地下水系统不仅在寒区水文循环中扮演着重要的角色,同时也在寒区水文过程和地表过程及其科学研究中起到了集蓄、融冻和泄流等至关重要的作用。近几十年随着全球气候变暖及人类活动(寒区工程量)的增加,冻土退化趋势显著,这一过程改变了寒区的水文地质条件,导致地下水动态特征发生显著变化,从而引起一系列的生态环境变化。近些年,诸多学者通过构建水热耦合模型来研究冻土地下水的运动机理、分布状况和季节动态,促进了寒区地下水理论知识的发展,推动了寒区水文地质知识体系的进步。本文主要针对目前我国多年冻土区地下水的研究现状进行了分析、整理、归纳,为进一步研究气候变化下地下水系统的发展与演变,以及对生态环境的影响提供参考依据。 相似文献
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半干旱区景观格局与生态水文过程研究进展 总被引:7,自引:2,他引:5
景观格局和生态水文过程之间具有紧密的联系和相互作用,在半干旱地区这种联系尤为显著,是地球科学研究的重要前沿领域.尺度效应在两者关系中起重要作用,不同尺度下两者相互作用机制有很大差异.归纳总结了半干旱地区景观格局与生态水文过程的研究现状与进展,包括二者相互作用机理、影响因素、干扰、尤其是人为干扰对这种相互作用的影响,以及模型模拟等.以尺度为线索,在斑块、坡面和流域尺度进行展开.最后,提出了半干旱地区景观格局与生态水文过程研究中存在的问题、热点和趋势,包括物理机制、干扰后的恢复机制、模型发展、流域尺度集成及尺度转换. 相似文献