The influence of water conveyances on restoration of vegetation to the lower reaches of Tarim River   总被引：2，自引：1，他引：1  

Juan Wu  Deshan Tang 《Environmental Earth Sciences》2010,59(5):967-975

Because of long-term stream-flow cut off in the lower reaches of Tarim River, environmental degradation has become the most severe and widespread environmental problem in Tarim River basin. Nine ecological water conveyances to the lower reaches of Tarim River made ecological environment change a lot. 3S technology was used to monitor dynamic change of ecology. However, remote sensing area index cannot analyze ecological restoration degree of Tarim River precisely because the time of each water conveyance is short, the change of vegetation area is not obvious, and there exists visual interpretation error. In this paper, remote monitoring datum of high temporal resolution and high spatial resolution were used to research the relationships between normalized difference vegetation index (NDVI) and the groundwater depth, between NDVI and the surface vegetation coverage, and between the groundwater depth and the surface vegetation coverage. The growth and restoration of the vegetation in different periods were evaluated by investigative analysis of the change trend of NDVI. The conception of relative restoration degree was proposed and the response of vegetation restoration to the water conveyance was evaluated. The evaluation result suggests that: first, the response of vegetation to the water conveyance concentrates within 1,000 m of both riversides, and the range of influence becomes smaller along the lower reaches of Tarim River. Second, influenced by the groundwater recharge, the vegetation coverage shows decreasing trend with the increase of off-river distance. Third, the vegetation coverage shows decreasing trend along the watercourse influenced by the water consumption. Finally, in spatial, original scattered meadow of low coverage transforms to high coverage gradually in research region. Vegetation response to the water conveyance expands to both sides with the watercourse being the axis, and expanding scale increases continuously.  相似文献   

Desert riparian vegetation and groundwater in the lower reaches of the Tarim River basin   总被引：1，自引：0，他引：1  

Yaning Chen  Weihong Li  Changchun Xu  Zhaoxia Ye  Yapeng Chen 《Environmental Earth Sciences》2015,73(2):547-558

The Green Corridor in the lower reaches of Tarim River in northwestern China has an extreme hot and dry climate. Vegetation here, consisting of arbor, shrub and grass, relies on groundwater exceedingly. However, the increasing anthropogenic activities of large-scale agricultural reclamation and unreasonable water utilization in the upper and middle reaches caused the 321-km riverway in the lower reaches to dry up completely in 1972 and resulted in the sharp decline of groundwater, followed by the ruin of desert riparian vegetation on a large scale. The Green Corridor is on the verge of shrinking. Water has a key role in maintaining ecological balance and socioeconomic development. This paper, focused on the relationship between vegetation and groundwater, discusses (1) the change of groundwater table caused by the ecological water delivery carried out in the lower reaches of Tarim River; (2) the appropriate groundwater depth meeting the vegetation’s survival; (3) the minimum ecological flux and ecological water requirement for the growth of natural vegetation. It was shown that (1) based on the analysis of the monitoring data from the groundwater level of ten times water delivery, such an extensive artificial watering takes positive effect on raising the groundwater level along the two sides of the river; (2) a groundwater table depth of 2–4 m is probably the appropriate ecological water table level for the lower reaches of the Tarim River, and 6 m is the threshold for the local vegetation; (3) at the lower Tarim River, 1.157 × 10⁸ m³ of water flow is needed for itself. The longer the duration of water releases, the greater would be the groundwater rise and the larger the range of vegetation influenced. It was found that the duration and volume of water delivery was closely related to restoration of vegetation in the lower reaches of the Tarim River. The goal of this paper is to offer scientific evidences for water delivery in the rigorous areas to maintain an ecological balance.  相似文献   

The influence of 10 years of water conveyances on groundwater and juvenile Populus euphratica of the lower Tarim River     

Hu Yan  Yujie Wang  Yunqi Wang 《Environmental Earth Sciences》2014,71(9):4091-4096

The changes in the depth of groundwater were studied from the period before water conveyance through 2010, and the TDS of groundwater was analyzed in the lower reaches of the Tarim River during the period 2001–2010. Besides, the numbers of juvenile P. euphratica were investigated in the lower reaches of the Tarim River during the period 2001–2010. The findings indicate that: (1) the hydrological environment of the lower reaches has slowly deteriorated again; and (2) few juvenile P. euphratica were observed along the channel. These results show that the positive influence of the ecological water conveyance project on the ecosystem of the lower Tarim River should be beneficial in the long term; however, the long-term stability of the ecosystem cannot be achieved by the current water diversion scheme.  相似文献   

Response of riparian vegetation to water-table changes in the lower reaches of Tarim River, Xinjiang Uygur, China   总被引：1，自引：0，他引：1  

Yaning Chen  Zhonghe Pang  Yapeng Chen  Weihong Li  Changchun Xu  Xinming Hao  Xiang Huang  Tianming Huang  Zhaoxia Ye 《Hydrogeology Journal》2008,16(7):1371-1379

The lower reaches of Tarim River in the Xinjiang Uygur region of western China had been dried out for more than 30 years before water began to be diverted from Konqi (Peacock) River via a 927-km-long channel in year 2000, aimed at improving the riparian ecological systems. Since then, eight intermittent water deliveries have been carried out. To evaluate the response of riparian vegetation to these operations, the groundwater regime and vegetation changes have been monitored along the 350-km-long stem of the river using a network of 40 dug wells at nine transects across the river and 30 vegetation plots at key sites. Results show that the water table rose remarkably, i.e. from a depth of 9.87 m before the water delivery to 3.16 m after the third water delivery. The lateral distance of affected water table extended to 1,050 m from the riverbank after the fourth water delivery. The riparian vegetation has changed in composition, type, distribution, and growing behavior. This shows that the water deliveries have had significant effects on restoration of riparian ecosystems.  相似文献   

生态输水条件下塔里木河下游断面尺度地下水流数值模拟   总被引：1，自引：0，他引：1       下载免费PDF全文

古力米热·哈那提  张音  关东海  刘迁迁  苏里坦 《水科学进展》2020,31(1):61-70

由于中国西北地区地表水资源有限,地下水则成为重要的备用水资源,而地表水和地下水转化过程及其耦合模拟是水资源开发利用和科学评价的基础,因此,为了准确反映塔里木河下游间歇性生态输水后地下水的动态变化,以塔里木河下游英苏断面为例,基于Boussinesq方程建立了改进的地下水动力学(GH-D2)模型,模拟了塔里木河下游绿色走廊典型断面地下水对全时段(2000-2015年)间歇性生态输水的响应过程。结果表明,尽管Boussinesq方程的GH解能较好地模拟地下水位的瞬态变化,但模拟地下水位多年变化的结果并不理想,而改进的GH-D2模型考虑了间歇性生态输水对地下水位变化的滞后效应,对长时间尺度地下水位变化的模拟具有较好的效果。与GH和GH-D1模型相比,GH-D2模型模拟的地下水位值更接近于观测值,这将对塔里木河下游实施科学合理的生态输水计划以及生态恢复和重建策略提供关键的技术支撑。  相似文献   

塔里木河下游生态输水及植被恢复遥感监测评价   总被引：9，自引：1，他引：8  

邓铭江 《冰川冻土》2007,29(3):380-386

在干旱区内陆河流域,由于水资源过度开发利用,生态环境退化已成为普遍现象.向断流的河道和生态退化区域实施生态输水,是河流生态系统恢复的基本行为和必然过程.基于向塔里木河下游7次生态输水过程中地表水、地下水、植被恢复等系统监测,并运用卫星遥感技术,对生态输水后植被恢复响应特征指标NDVI(植被指数),进行了系统研究分析,并提出植被相对恢复度的评价方法.  相似文献   

基于流域水资源合理配置的塔里木河流域生态调度研究     

邓晓雅  杨志峰  龙爱华 《冰川冻土》2013,35(6):1600-1609

塔里木河流域近期综合治理已近尾声,众多山区水库及水电开发建设将大规模展开,开展流域生态调度对巩固综合治理已取得的成效,强化水资源统一管理,构建和谐流域具有重要的现实意义. 基于流域已确定实施的水资源分配方案和近10 a来的生态输水实践,分析了生态调度与水资源合理配置的关系以及流域生态调度关键问题、主要技术路线和基本框架结构,计算了流域生态调度关键控制断面阿拉尔断面生态流量,探索了源流区、干流中上游、干流下游生态调度的目标和措施,提出了源流"集中同步组合"、干流"分段耗水控制"、干流下游"地下水位调控"的生态调度方案,以期为流域水资源统一管理、控制性水利工程运行管理和流域生态环境保护提供参考依据.  相似文献   

塔里木河下游生态输水后植被景观格局动态变化研究   总被引：7，自引：3，他引：4  

刘桂林  艾里西尔·库尔班  艾尔肯·艾白不拉  段含明  玉米提·哈力克  阿布都米吉提·阿布利克木  牛婷 《冰川冻土》2012,34(1):161-168

2000-2005年, 塔里木河流域管理局先后7次向塔里木河下游断流区进行了生态输水, 输水河道两岸的植被得到了一定的恢复. 以2000-2005的中巴资源卫星CCD影像为主要数据源, 获得了6 a的植被/非植被二值图, 并计算各年的景观格局指数, 分析了6 a植被景观格局的变化. 结果表明: 植被景观动态度在第四时段(2003-2004年)最大, 为47.83%; 在第三时段(2002-2003年)最小, 为-1.39%; 2000-2005年植被景观的动态变化呈正向趋势. 2000-2005年, 植被景观斑块个数与景观形状指数增加, 蔓延度指数下降了36.9, 斑块结合度指数均高于99, 表明研究区的植被景观破碎化程度、分离程度增加, 而景观类型联通性较高. 植被斑块面积均处于增加趋势且远离河道植被恢复率越小, 但植被景观的比重仍小于50%, 说明非植被类型是研究区的基质类型, 组成了景观的最大斑块. 针对缓冲区Zone 1, 植被景观的平均分维数处于减小趋势且2005年的斑块个数最小, 斑块结合度指数处于增加趋势, 表明近河道区域植被较为稳定, 受生态输水的干扰度较小, 植被景观斑块之间越来越聚集. 6 a间Zone 1的植被最大斑块指数均大于10%, 远高于其它5个缓冲带, 表明离河道越近植被景观的优势度最大.  相似文献   

塔里木河下游应急输水的水生态环境响应   总被引：26，自引：2，他引：26       下载免费PDF全文

邓铭江 《水科学进展》2005,16(4):586-591

塔里木河下游357km河道断流近30年,向塔里木河下游实施应急输水抢救生态环境,是世界范围内流域退化生态系统恢复与重建的稀有案例。以此为背景,在生态环境本底状况调查的基础上,通过大量的监测资料,应用河道水力学、地下水动力学以及植被生态学,以河道水量沿程消耗-地下水位动态变化-植物恢复为主线,摸清了水流在河道纵向、河道横向两侧和垂向剖面中的运移、转化和消耗规律,研究分析了应急输水的水生态环境三维响应特征和植被恢复效应。为创建和完善干旱区受损生态系统输水、修复与重建的评价体系打下基础,也为塔里木河流域综合治理提供技术支撑。  相似文献   

Evolutionary trend of water cycle in Beichuan River Basin of China under the influence of vegetation restoration          下载免费PDF全文

Zhu Liang  Liu Jing-tao  Yang Ming-nan  Zhang Yu-xi  Wen De-ping 《地下水科学与工程》2021,9(3):202-211

To understand the influence of vegetation restoration on the water cycle in semiarid areas, the effects of vegetation restoration on evolution of the key elements of water cycle were clarified by analyzing the evolutionary trend of atmospheric precipitation, ecological consumption water, and surface runoff on a river basin scale on the basis of analytical results of the changes in vegetation coverage and the long-term meteorological and hydrological monitoring data of Beichuan River Basin. The results show that the vegetation cover in the Beichuan River basin has rapidly increased in the hilly and mountainous areas since the 1980s, especially from 2000 to 2019, with the maximum and average vegetation cover rates increased by 14.98% and 52.2%, respectively. During 1956-2016, the annual precipitation in the basin remained relatively stable; the annual surface runoff slightly declined, with an average attenuation rate of 20 million m~3/10 a. The main reason for the runoff decline is the increase in ecological water induced by the vegetation restoration, which has changed the spatial-temporal distribution of the water from atmospheric precipitation in the basin. Spatially, more precipitation was converted into ecological water. As a result, the remnant runoff supplied to the lower reaches reduced accordingly. Temporally, more precipitation participated in the soil water-groundwater cycle, thus prolonging the outward drainage period of the precipitation. Moreover, the large-scale vegetation restoration induced a significant decrease in the surface wind speed, evaporation from water surface and drought index. As a result, a virtuously mutual feedback relationship was formed between the vegetation and meteorological elements. Therefore, vegetation restoration is of great significance for the improvement in the water conservation capacity and semiarid climate conditions in the Beichuan River basin.  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   总被引：2，自引：0，他引：2  

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):732-739

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9.95×10⁸m³、18.47×10⁸m³和3.32×10⁸m³。  相似文献   

加强塔里木河阿拉尔生态系统综合监测   总被引：3，自引：0，他引：3  

王顺德  曹晓莉  王彦国  严宇红  张学荣  沈永平  毛炜峄 《冰川冻土》2006,28(2):276-282

塔里木河流域是我国最大的内陆河流域,流域总面积102×10⁴km²,水资源总量为429×10⁸m³,水资源相对贫乏,生态环境十分脆弱.阿拉尔生态系统监测站位于阿克苏河、叶尔羌河、和田河三河和塔里木河交汇处的肖夹克,是平原区重要区域代表站,其生态环境直接关系着塔里木河干流上、中、下游生态和环境安全.查阅模清该区域的生态环境的基本特点、变化规律和演变趋势,对指导塔里木河综合治理,以及当地社会经济和谐发展极其重要.该站始建于1996年7月,监测项目有水文气象;地下水动态;乔、灌、草;土壤、水盐;沙漠化动态5类监测项目.野外监测设施有河道水文断面、气象观测场、第一监测剖面(长22 km).除水文气象监测项目在综合系统监测站附近外,其余4个监测项目均在第一剖面进行.  相似文献   

合理地下水生态水位的估算方法研究——以塔里木河下游为例   总被引：1，自引：0，他引：1  

荣丽杉  束龙仓  王茂枚  邓正波 《地下水》2009,31(1):12-15

从合理地下水生态水位的定义出发,探讨了各类估算合理地下水生态水位的方法。以塔里木河下游为例,分析应急生态输水后,地下水埋深与胡杨样枝生长情况的关系,结果表明,塔里木河下游合理地下水生态水位埋深为4～6m。  相似文献   

Environmental changes after ecological water conveyance in the lower reaches of Heihe River,northwest China   总被引：3，自引：0，他引：3  

Qiaoling Guo  Qi Feng  Jianlin Li 《Environmental Geology》2009,58(7):1387-1396

This paper analyzed the dynamic change of the groundwater level by 6 years’ monitoring in field monitoring and the change of vegetation by the field survey and satellite remote sensing after watering in the lower reaches of Heihe River. The findings indicated: (1) the groundwater level elevation and the plant growth are closely related to the volume and the duration of watering. In general, groundwater level elevates dramatically and plants are growing much more vigorously after watering; (2) Watering incidence on groundwater keeps extending with the watering times increasing; (3) Plants grew rapidly in 100–400 m away from the water channel after watering. Watering incidence on vegetation reached 1,000 m; (4) In terms of the function and structure of ecosystem after watering in the lower reaches of Heihe River, the ecological water conveyance does not still reach the goal of ecological restoration at a large spatial scale at present. In addition, in order to solve fundamentally the problem of ecological environment worsens in the lower reaches of Heihe River, some suggestions and countermeasures are put forward.  相似文献   

地形和径潮条件变化对东江三角洲洪季连通性影响          下载免费PDF全文

余明辉  王睿璞  陈小齐  刘长杰  刘画眉 《水科学进展》2021,32(5):759-769

河流连通性是河流生态系统的基本特征,具有季节差异的同时也受人类活动干预。建立一维水动力模型计算1999—2009年间人为扰动后地形改变和径潮条件变化对东江干流博罗—石龙河段及东江三角洲洪季连通性的影响。结果表明:东江干流及东江三角洲水系成环发育程度较低,河道共享性较高,平均节点连接率大于1;地形下切和径潮条件变化未改变结构连通性;输运连通性既受河道地形变化的影响,也受径潮条件变化的影响,其中河道地形下切使水量传输能力减小,河流输运连通性减弱;径流增大及外海潮动力减小均导致水量传输能力增大,河网输运连通性增强。研究成果可为东江三角洲防洪、水利工程规划及水生态环境等研究提供科学依据。  相似文献   

环境约束下塔里木河下游地区人类活动的历史演进   总被引：3，自引：2，他引：1  

韩春鲜 《冰川冻土》2010,32(4)

在参考历史文献和考古成果的基础上,结合野外考察,研究了历史时期以来塔里木河下游的环境变迁和人类活动演化过程.研究认为,历史时期下游地区人类活动受气候影响下的河流生态环境变化的制约;19世纪末以来塔里木河上游地区的水土资源开发,使得下游水量减少,造成下游生态环境急剧退化,下游人类活动虽不稳定,但总体是进步的.20世纪90年代以来,下游生态环境进一步恶化,在制度与技术进步的支持下,人类生产空间扩张迅速、效益不断提高的同时,下游河道进一步退缩,天然绿洲沙漠化持续发展,下游尾闾垦区毗连沙漠,成为抵御绿洲生态环境退化的生态经济区,人工绿洲维持发展的代价高昂.因此,下游人地关系走向良性发展的前提是全流域开发利用水资源保持在下游生态环境不退化的限度内.  相似文献   

Changes in vegetation condition in areas with different gradients (1980–2010) on the Loess Plateau, China     

Baoqing Zhang  Pute Wu  Xining Zhao  Yubao Wang  Xiaodong Gao 《Environmental Earth Sciences》2013,68(8):2427-2438

This study characterized and compared changes in vegetation condition in areas with different gradients during the past three decades across the entire Loess Plateau. For this purpose, changes in vegetation type and vegetation coverage at sites with 0 – 15° and >15° slope gradients were determined by analyzing land use data and Normalized Difference Vegetation Index (NDVI) data, respectively. The software Arc/Info 9.3, land use transformation matrix, linear regression analysis, and Mann–Kendall test were used for the data processing and analysis. Policy influences, human impacts, and climate variability were also taken into account to find the reasons for vegetation condition change. The results indicated that the “Grain-For-Green” project achieved initial success. Areas of farmland and grassland changed most extensively, and far greater areas of farmland were transformed into forest and grassland than vice versa. Moreover, the conversion of farmland to forest and grassland mainly occurred in areas where slopes exceeded 15°, while grassland was mainly changed to farmland in areas with gentle slopes. Vegetation coverage on the Loess Plateau exhibited overall increases after the implementation of “Grain-For-Green” project. Regions with sparse vegetation have declined sharply, mostly in steeply sloped areas. Vegetation coverage has increased significantly in most regions, particularly in the parts traversed by the principal sediment source of the Yellow River, which could help to control the severe soil and water losses. However, regions with sparse vegetation on the Loess Plateau still covered 71.1 % of the total area in 2010. Therefore, it is important to further increase vegetation coverage in the future.  相似文献   

2001-2018年石羊河流域植被变化及其对流域管理的启示   总被引：1，自引：0，他引：1  

任立清  冉有华  任立新  谭美宝 《冰川冻土》2019,41(5):1244-1253

植被是流域生态系统的重要指标,植被景观管理也是流域综合管理的重要内容。综合利用长时间序列MODIS反射率和归一化差值植被指数（NDVI）产品及Landsat卫星遥感影像,基于谷歌地球引擎（GEE）平台,利用计算机自动分类的方法,监测了2001-2018年间石羊河流域的植被（包括灌溉土地）的逐年变化,结合降水、径流量和地下水位地面监测数据,分析了全流域植被指数、植被面积、灌溉土地范围的变化特征及其与水循环之间的互馈关系。研究发现,2001-2018年间,石羊河流域的植被面积以每年约135 km²的速率增加,其中,自然植被和灌溉土地分别以每年60.5 km²和74.6 km²的速率增加。除了金昌区的植被增加以灌溉土地为主外,其他区域都以自然植被的增加为主。特别是民勤地区,由于十多年的持续调水和有效退耕,地下水位近年来开始抬升,自然植被开始恢复。但与此同时,中游凉州区和永昌县的生态风险加大。未来可从灌溉规模控制、地表与地下水统一调度、景观分级和配置技术发展、优化产业结构、强化与流域外的连通性等方面加强流域综合管理,提高流域社会系统弹性,增强可持续发展能力。  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   

西北内陆河流域水循环和生态演变与功能保障机制研究          下载免费PDF全文

陈喜  黄日超  黄峰  刘秀强  张阳阳  张润润 《水文地质工程地质》2022,49(5):12-21

在气候变化、生态保护以及水资源调控影响下,西北内陆河流域水循环和生态环境状态发生了显著改变,迫切需要解答气候变化对植被恢复和产水量的影响,调水和压采等措施下地下水水位动态、管控指标及其对生态环境的维持机制。为此,文章阐述了内陆河流域气候-植被-土壤-水文相互作用机理以及上中下游演变状况。针对上游产水区,提出了山区气候变...  相似文献