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1.
It is important to understand how land use change impacts groundwater recharge,especially for regions that are undergoing rapid urbanization and there is limited surface water.In this study,the hydrological processes and re-charge ability of various land use types in Guishui River Basin,China(in Beijing Municipality) were analyzed.The impact of land use change was investigated based on water balance modeling,WetSpass and GIS.The results indicate that groundwater recharge accounts for only 21.16% of the precipitation,while 72.54% is lost in the form of evapotranspiration.The annual-lumped groundwater recharge rate decreases in the order of cropland,grassland,urban land,and forest.Land use change has resulted in a decrease of 4 × 106 m3 of yearly groundwater recharge in the study area,with a spatially averaged rate of 100.48 mm/yr and 98.41 mm/yr in 1980 and 2005,respectively.This variation has primarily come from an increase of urban area and rural settlements,as well as a decrease of cropland. 相似文献
2.
《山地科学学报》2021,(7)
Mountain block recharge(MBR), an important water resource, is a widespread process that recharges lowland aquifers. However, little is known about MBR due to the limited climatic and geologic data in mountainous regions such as the northern central foothills of Tianshan. Here, we present an approach to quantify MBR through the combination of water balance calculations and numerical modeling. MBR calculated from the water balance in the data-limited Tianshan Mountains is employed as a fluid-flux boundary condition in the numerical model of the plain. To verify the performance of the model, mean absolute error and root mean square error were used. Results show that the volume of water that is recharging the aquifer via MBR is 107.29 million m~3/yr, accounting for 2.2% of the total precipitation that falls in the mountains. Additionally, 53.3% of that precipitation enters the plain aquifer via runoff, totaling 2,652.68 million m~3/yr. The lower volume of MBR is attributed to a major range-bounding anticline with apparent low permeability in the Tianshan Mountains. Through numerical modeling of groundwater, MBR coming from bedrock was found to be significant, accounting for 14% of total aquifer recharge in the plain, only after the portion of runoff seepage. This research contributes to a deeper understanding of MBR, and may provide instructions for estimating groundwater recharge in arid and semi-arid areas. 相似文献
3.
Spatial-temporal characteristics of land subsidence corresponding to dynamic groundwater funnel in Beijing Municipality,China 总被引:2,自引:0,他引:2
Beibei Chen Huili Gong Xiaojuan Li Kunchao Lei Youquan Zhang Jiwei Li Zhaoqin Gu Yanan Dang 《中国地理科学(英文版)》2011,21(6):753-764
Due to long-term over-exploitation of groundwater in Beijing Municipality,regional groundwater funnels have formed and land subsidence has been induced.By combining a groundwater monitoring network,GPS monitor-ing network data,radar satellite SAR data,GIS and other new technologies,a coupled process model based on the dy-namic variation of groundwater and the deformation response of land subsidence has been established.The dynamic variation of groundwater funnels and the land subsidence response process were analyzed systematically in Beijing.Study results indicate that current groundwater funnel areas are distributed mainly in the southwest of Shunyi District,the northeast of Chaoyang District and the northwest of Tongzhou District,with an average decline rate of groundwa-ter level of 2.66 m/yr and a maximum of 3.82 m/yr in the center of the funnels.Seasonal and interannual differences exist in the response model of land subsidence to groundwater funnels with uneven spatial and temporal distribution,where the maximum land subsidence rate was about-41.08 mm/yr and the area with a subsidence rate greater than 30 mm/yr was about 1637.29 km2.Although a consistency was revealed to exist between a groundwater funnel and the spatial distribution characteristics of the corresponding land subsidence funnel,this consistency was not perfect.The results showed that the response model of land subsidence to the dynamic variation of groundwater was more revealing when combining conventional technologies with InSAR,GIS,GPS,providing a new strategy for environmental and hydrogeological research and a scientific basis for regional land subsidence control. 相似文献
4.
近30年来长江源区土地覆被变化特征分析 总被引:2,自引:0,他引:2
长江源区是我国重要的水源涵养地。本文利用20世纪70年代中后期、90年代初期、2004年和2008年共4期土地覆被数据,通过土地覆被转类途径与幅度、土地覆被状况指数和土地覆被转类指数,分析评价了长江源区近30年来土地覆被与生态状况的时空变化特征。结果表明:草地是长江源区主要的土地覆被类型,2008年草地面积占该区总面积的66.93%。在70年代中后期-90年代初期、90年代初期-2004年和2004-2008年的3个时段内,土地覆被状况指数变化率分别为-0.15、-0.24和0.01;土地覆被转类指数分别为-0.20、-0.66和0.08。近30年来,长江源区土地覆被和生态状况总体经历了变差-显著变差-略有好转的过程。2004-2008年,长江源区年平均温度比前期(70年代中后期-2004年)升高了0.57℃,年平均降水量比前期增加了17.63mm。区域气候变化有助于自然生态系统的恢复。后期生态保护与建设工程的实施,对植被恢复产生了一定的积极作用。 相似文献
5.
Moiwo Juana Paul 《中国地理科学(英文版)》2006,16(3):229-235
The impact of land-use on distributed groundwater recharge and discharge in the western Jilin (WJ) was analyzed in this study.
WJ is a transitional, semi-arid zone with a fragile, hydrological closed ecosystem in the Songhua River Basin (SRB). The research
tool includes a seamlessly linked MODFLOW, WetSpass, the Seepage packages, and ArcGIS. The model calibration showed good agreement
between simulated water table elevation and measured water table depths, while predicted groundwater discharge zones showed
strong correlations with field occurrences of drainage systems and wetlands. Simulated averages for distributed recharge,
water table elevation and groundwater drawdown were 377.42mm/yr, 194.43m, and 0.18m respectively. Forest vegetation showed
the highest recharge, followed by agricultural farmlands, while open-water and other drainage systems constituted groundwater
exit zones. When present land-use conditions were compared with the hypothetical natural pre-development scenario, an overall
loss of groundwater recharge (24.09mm/yr) was observed, which for the project area is 18.05 × 108m3. Groundwater abstraction seemed to be the cause of water table drawdown, especially in the immediate vicinities of the supply
wells. An important issue of the findings was the ability of the hypothetical forest vegetation to protect, and hence sustain
aquifer reserves and dependent ecosystems. The profound data capture capability of ArcGIS makes it particularly useful in
spatio-temporal hydroecological modeling.
Biography: Moiwo Juana PAUL (1967–), male, a native of Sierra Leone of West Africa, Ph.D. candidate, specialized in wetland
ecology. 相似文献
6.
分析九江环庐山地区观测井水、大气降水、冷泉水、地热温泉水及地表水水样的常量化学组分和氢氧同位素及氚活度,结果表明,庐山地区地下水主要分为西北、东南两个水文地质单元,西北侧以九江台2号井井水、东林寺泉水为代表,水化类型为HCO3-Ca;东南侧以地热温泉井水、观音桥泉水为代表,水化类型为HCO3-Na,离子组分主要来自风化壳岩石风化。氢氧同位素显示,九江庐山地区地下水均属于降水成因型,部分井泉具有深循环的特征;氯离子估算结果显示,大气降水直接补给率约为4.5%~33.27%。大气降水下渗补给形成裂隙承压自流井泉是庐山地区地下水主要成因,另有部分为降水经长时间深循环形成地热温泉水,而九江台2号井既有浅表水特征又有深循环水的特征,暗示两个不同补给源的含水层通过不同循环路径上升到浅表地层,携带有部分深部构造活动信息,有利于获取地震前兆异常信息。 相似文献
7.
山东半岛蓝色经济区的开发建设已成为我国的发展战略。地下水防污性能反映地下水系统遭受污染的可能性,可以为土地利用规划、地下水资源保护规划、地下水水质监测等提供科学依据。该文选取DRASTIC评价方法,对山东半岛蓝色经济区地下水防污性能进行了评价。评价过程中选取地下水埋深、地下水净补给量、含水层介质、土壤介质、地形坡度、包气带介质及渗透系数等7个指标,通过对各指标因子进行赋值,确定权重,进一步划分防污性能等级。评价结果显示研究区按照防污性能等级划分标准可以分为5个区,即防污性能差区、防污性能较差区、防污性能中等区、防污性能较好区、防污性能好区,分别占总面积的0.13%,9.74%,39.76%,40.71%,9.66%。该模型的评价结果客观科学,能有效的为规划部门及地下水资源管理部门服务。 相似文献
8.
本文以济南市泉水补给区为研究对象,利用GIS空间分析方法,在其景观变化分析的基础上,参照中国陆地生态系统的生态服务价值系数,估算了泉水补给区生态服务功能价值变化,重点分析景观变化对研究区生态服务功能的影响,进而为区域可持续发展和城市建设提供理论支持。结果表明:(1)20世纪90年代以来,泉水补给区耕地和草地景观面积呈减少趋势,林地、园地和建设用地景观面积大幅增加,其中,以林地面积增加最大;从景观类型转化看,耕地与其他景观类型相互转化较为密切,特别是与建设用地和园地之间的转化;林地面积的增加主要来源于草地和耕地;(2)泉水补给区生态服务功能价值主要由林地和耕地景观生态服务价值构成,其变化对该研究区生态服务价值变化起决定作用;从生态服务价值构成类型来看,该地区土壤形成与保护服务功能单项价值所占比重最大,约占总服务功能价值的20%;(3)90年代以来,该地区总生态服务价值呈增加趋势;从单项服务价值变化来看,水源涵养、废物处理和食物生产服务功能价值则呈现出减小趋势,其中,以水源涵养减幅最大,为4.01%,主要是由该区建设用地增加,地面硬化面积增多而引起的。研究认为,济南市南部山区作为重要的泉水补给区,其生态服务功能尤为重要,特别是水源涵养功能,因此,研究区水源涵养服务功能价值的降低应在今后南部山区开发过程中得到足够的重视与保护,逐步增加泉水补给区的整体生态效益。 相似文献
9.
Ever growing demand for water for agricultural activities in the Izeh Plain has enhanced the use of groundwater. Due to enormous groundwater abstraction since 1985, the overall static water level has receded by more than 5 meters reflecting that the aquifer is under stress condition. As a result, interest is focused on application of artificial recharge as an option for groundwater management to augment water supply in this area. Therefore, in the present investigations, suitable sites for artificial recharge were selected by an integrated surface and sub-surface assessment of the area. On the basis of the data collected from four target points, it was realized that the selected sites for artificial recharge could not meet water demand of the area. In this study attention was also paid to utilization of the existing Miangran Lake water as an alternative to combat water shortage for irrigation. The study further indicated that the available Miangran Lake water could be used for irrigation of the reclaimed agricultural land and enabling to convert 20o0 hectares of rain-fed land into irrigation. The total cost to utilize lake water is US$ 2,756,729 and it was estimated that the project could recoup the investment within 5 years which is quite reasonable in this water scarcity prone area. 相似文献
10.
The relation between runoff and sediment and land cover is investigated in the Cedar Creek Watershed (CCW), located in Northeastern Indiana, United States. The major land cover types in this watershed are cultivated land, woodland and pasture /Conservation Reserve Program (CRP), which account for approximate 90 % of the total area in the region. Moreover, land use was changed tremendously from aooo to 9004, even without regarding the effect of the crop rotation system (corn & soybean). At least 49 % of land cover types were changed into other types in this period. The land cover types, ranking by changing area from high to low series, are rye, soybean, corn, woodland and pasture/CRP. The CCW is divided into 21 subwatersheds, and soil and water loss in each sub-watershed is computed by using Soil and Water Assessment Tool (SWAT). The results indicate that the variations in runoff and sediment have positive relation to the area of crops (especially corn and soybean); sediment is more sensitive to land cover changes than runoff; more heavy rainfall does not always mean more runoff because the combination of different land cover types always modify runoff coefficient; and rye, soybean and corn are the key land cover types, which affected the variation in runoff and sediment in the CCW. 相似文献
11.
Yi Zhang 《中国地理科学(英文版)》2018,28(1):74-85
The aim of this study was to better understand the mechanisms of regional climate variation in mountain ranges with contrasting aspects as mediated by changes in global climate. It may help predict trends of vegetation variations in native ecosystems in natural reserves. As measures of climate response, temperature and precipitation data from the north, east, and south-facing mountain ranges of Shennongjia Massif in the coldest and hottest months(January and July), different seasons(spring, summer, autumn, and winter) and each year were analyzed from a long-term dataset(1960 to 2003) to tested variations characteristics, temporal and spatial quantitative relationships of climates. The results showed that the average seasonal temperatures and precipitation in the north, east, and south aspects of the mountain ranges changed at different rates. The average seasonal temperatures change rate ranges in the north, east, and south-facing mountain ranges were from –0.0210℃/yr to 0.0143℃/yr, –0.0166℃/yr to 0.0311℃/yr, and –0.0290 ℃/yr to 0.0084℃/yr, respectively, and seasonal precipitation variation magnitude were from –1.4940 mm/yr to 0.6217 mm/yr, –1.6833 mm/yr to 2.6182 mm/yr, and –0.8567 mm/yr to 1.4077 mm/yr, respectively. The climates variation trend among the three mountain ranges were different in magnitude and direction, showing a complicated change of the climates in mountain ranges and some inconsistency with general trends in global climate change. The climate variations were significantly different and positively correlated cross mountain ranges, revealing that aspects significantly affected on climate variations and these variations resulted from a larger air circulation system, which were sensitive to global climate change. We conclude that location and terrain of aspect are the main factors affecting differences in climate variation among the mountain ranges with contrasting aspects. 相似文献
12.
新疆孔雀河灌区面临地下水超采问题,科学认识区域地下水流系统的发育条件和演变特征,是优化地下水资源开发利用方式的基础。通过构建第四系含水层三维地下水稳定流模型,利用流线追踪技术,模拟识别了孔雀河流域1970-2020年期间地下水流系统的变化特征。结果表明,不同补给区和排泄区通过流线进行组合,在孔雀河周边形成了交错分布的地下水流系统,其空间分布格局随灌区地下水开采规模而变化。在20世纪70年代的拟天然状态,灌区主要发育自北向南的地下水流系统,其空间分布格局取决于水文地质参数和排泄要素,并可能存在1~4个以孔雀河为排泄带的流动系统。在有强烈地下水开采的现状条件下,灌区地下水流系统转变为从四周流向漏斗中心,截断了从孔雀河上游渗漏到中下游河道排泄的水流系统。近50 a来,以潜水蒸发为排泄方式的地下水流系统投影面积萎缩了29%,而以地下水开采为排泄方式的地下水流系统投影面积从零增加到研究区面积的40%。潜水蒸发对自然生态系统具有重要的支撑作用,灌区地下水开采应有所控制以保障潜水蒸发型地下水流系统的发育条件。 相似文献
13.
山东地面沉降灾害以鲁北平原最为严重,在德州地区的地面沉降已对当地人民的正常生产和生活构成了威胁,并制约了当地经济的可持续发展。通过建立水准测量网络及监测运行,查明了德州市地面沉降的规模和范围,研究成果表明工作区均存在地面沉降现象,截至2010年,德城区由于地下水开采强度大,地面沉降幅度最大,目前地面累计沉降量为-1186.9~-636.9mm,多年平均沉降速率为59.35mm/a,形成了以市区西北部为中心的地面沉降盆地。超量开采深层地下水是造成大规模地面沉降的重要因素。 相似文献
14.
华北平原水资源合理开发利用的思路与举措 总被引:4,自引:0,他引:4
经过几十年的大量开采利用,华北平原地下水资源不仅表现为区域超采和局部严重超采,也暴露出地下水补给源严重萎缩的问题。其主要表现在中西部粗质平原的地下水易补给区,因汇流山地水库强力拦蓄,河道主体补给功能丧失,而在中东部细质平原的径流主产区,因水位埋藏浅和水质咸化,降水径流不能形成对地下水的有效补给,蒸发流失严重。以往实践强调山区水利工程建设而轻视了东部低平原区径流拦蓄利用,重视对高海拔咸水体的改造利用而忽视了对低海拔咸水体的改造利用,强化地表水库建设的重要性而忽略了地下水库的重要性。面对华北平原供水紧张的严峻形势,调整水资源开发战略势在必行,其具体思路是:以千方百计提高降水利用水平为中心,调整和改善水资源开发利用整体布局;以地下水补给调蓄为重点,大力集蓄雨洪水和改造利用浅层水,充分发挥地表水和地下水两大功能作用。其具体举措有:实施山前梯级水坝的地下水库"回灌"工程;实施中东部及滨海淡水蓄水利用工程;实施东部浅层地下水规模化改造开发利用工程。若上述措施得以实施,可使降水利用率从现状的20.65%提高到26%以上,则华北平原供水问题有望获得解决。 相似文献
15.
中国西北地区植被NDVI的时空变化及其影响因子分析 总被引:6,自引:0,他引:6
利用GIMMS/NDVI数据分析了中国西北地区1982-2006年植被NDVI时空变化特征及其影响因子。近25年来,中国西北地区年均植被NDVI增速为0.5%/10a,并存在明显的空间差异。天山、阿尔泰山、祁连山、青海的中东部等地区植被NDVI显著增加;青海南部地区、陕西和宁夏交界地区、甘肃部分地区,以及新疆部分地区的植被NDVI下降。从不同植被类型看:林地、草地和耕地的年均NDVI都在提高。研究表明:中国西北地区植被NDVI变化是各种自然和人为因素综合作用的结果。植被NDVI与气温、降水的年际变化整体上都呈弱的正相关。但与其年内变化则都呈显著的线性关系,当月均温量超过20℃时,植被NDVI呈下降趋势;当月降水量在0100mm期间,植被NDVI随降水线性增长,当月降水量超过100mm之后,不再有明显的增长趋势。农业生产水平提高和植被生态建设等人类活动对西北地区植被NDVI增加有重要影响。 相似文献
16.
地下水补给资源估算是地下水资源可持续开发利用的重要依据,传统地下水资源评价工作往往是采取水均衡法或达西定律等评价地下水补给资源,很少采用环境示踪剂方法。环境示踪剂在地下水补给研究中具有重要价值,特别是在干旱半干旱地区是一种非常简单可靠的评价方法。本文介绍了两种常见的环境示踪剂(3H、Cl)方法氚峰法和氯质量平衡法的基本原理及其在地下水补给研究中的主要应用,其中氯质量平衡法不仅可以估算地下水的补给量,而且可以研究植被覆盖变化对地下水补给影响和示踪地下水补给历史及气候变化。 相似文献
17.
18.
Aiming for the restoration of degraded ecosystems, many ecological engineering projects have been implemented around the world. This study investigates the ecological engineering project effectiveness on vegetation restoration in the Beijing-Tianjin Sand Source Region(BTSSR) from 2000 to 2010 based on the rain use efficiency(RUE) trend in relation to the land cover. More than half of the BTSSR experienced a vegetation productivity increase from 2000 to 2010, with the increasing intensity being sensitive to the indicators chosen. A clear tendency towards smaller increasing areas was shown when using the net primary productivity(NPP, 51.30%) instead of the accumulated normalized difference vegetation index(59.30%). The short-term variation in the precipitation and intra-seasonal precipitation distribution had a great impact on the remote sensing-based vegetation productivity. However, the residual trends method(RESTREND) effectively eliminated this correlation, while incorporating the variance and skewness of the precipitation distribution increased the models′ ability to explain the vegetation productivity variation. The RUE combined with land cover dynamics was valid for the effectiveness assessment of the ecological engineering projects on vegetation restoration. Particularly, the result based on growing season accumulated normalized difference vegetation index(ΣNDVI) residuals was the most effective, showing that 47.39% of the BTSSR experienced vegetation restoration from 2000 to 2010. The effectiveness of the ecological engineering projects differed for each subarea and was proportional to the strength of ecological engineering. The water erosion region dominated by woodland showed the best restoration, followed by the wind-water erosion crisscross regions, while the wind erosion regions dominated by grassland showed the worst effect. Seriously degraded regions still cover more area in the BTSSR than restored regions. Therefore, more future effort should be put in restoring degraded land. 相似文献
19.
基于地学知识的大尺度土地利用/土地覆盖精细化分类方法研究 总被引:4,自引:0,他引:4
人类活动对生态环境具有显著影响,大尺度土地利用/覆盖变化(Land Use/Cover Change,LUCC)作为人类活动最直接的表征,能够很好地反映这一过程,因此进行精确而迅速的大尺度土地利用/覆盖分类与提取方法研究尤为关键。全球覆盖产品GlobCover(2005/2006)数据已经具有良好的空间精度和数据准确度,但仍然存在一些分类误差。为提高地表覆被分类精度,本文以GlobCover(2005/2006)的巴西数据为例,以2005年Landsat TM/ETM影像为主要信息源,结合相应地学知识与辅助数据,利用人机交互逐栅格修改方法得到2005年土地利用数据产品。结果表明:通过对GlobCover数据和本次成果数据进行精度评价与对比分析,GlobCover数据巴西地区的总体精度为67.17%,Kappa系数为0.58,改进后产品总体精度为93.39%,Kappa系数为0.91。此外,改进后数据显示巴西常绿阔叶林面积最大,面积比例达45.67%;农地/自然植被镶嵌面积次之,比例为19.19%;封闭灌丛面积最小,比例为12.34%。农地/自然植被镶嵌和灌丛与草地2种地类的修改比例最大,其中混合像元地类比例减少3.54%,灌丛与草地比例增加3.81%。综上,改进方法可以有效地提高土地利用/覆盖分类的效率和精度,为后续大尺度LUCC产品的制作和以LUCC产品为基础的相关研究提供参考。 相似文献