共查询到10条相似文献,搜索用时 140 毫秒
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Nida Samad Muhammad Hamid Chauhdry Muhammad Ashraf Muhammad Saleem Qudsia Hamid Umair Babar Hassan Tariq Muhammad Shahid Farid 《Arabian Journal of Geosciences》2016,9(6):466
Sediment yield is the amount of erosional debris from drainage basin deposited in reservoirs. The economic life of storage reservoir depends upon the estimation of the time it takes for the reservoir to be filled with the deposition of sediments. This research is based on assessing the sediment yield in Rawal Dam catchment by using Soil and Water Assessment Tool (SWAT) model. Digital Elevation Model (DEM), land use maps, soil maps, and weather data of the study watershed were used as input to SWAT model. Monthly sedimentation data of year 2010 and discharge data from 1998 to 2005 is being used for model calibration and validation, respectively. Whereas simulations are being generated from 1998 to 2011 for both sedimentation and discharge. Modified Universal Soil Loss Equation (MUSLE) was used for the estimation of sediment yield. The Nash and Sutcliffe coefficient of the model was found to be 0.79 which depicts its effectiveness. After the estimation of the sediment yield and discharge by using SWAT model, double mass curve was used to evaluate the sedimentation rate. The rate of sediment transport can be reduced by the construction of check dams. Various sites have also been proposed for check dams construction to prevent the sediments transported into the Rawal Catchment. 相似文献
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The soil conservation service (SCS) methodology for computing direct run-off, using soil-cover-moisture complexes involves the selection of a runoff curve number (CN) for such complex events. This method has been further simplified by introducing an assumption on initial abstraction, with only one unknown parameter CN, which is represented by the potential retention capacity of the watershed (S). In this study, coupled SCN-CN with USLE model was used for the estimation of the runoff and sediment yield for eleven watersheds of different land uses (urban, agricultural, and forest) from Damodar Valley Corporation (DVC), Hazaribagh district, Jharkhand, India. For the validation, runoffsediment yield model is employed to a large set of rainfall-runoff-sediment yield data (68 storm events) observed from eleven watersheds. Model performance was assessed by using Nash and Sutcliffe statistical method. The efficiency of results was varying from 60.42 to 92.99 % for sediment yield and 54.23 to 96.12 % for runoff; this efficiency showed a reliable performance of model for estimating the sediment yield and runoff. 相似文献
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Estimating of water erosion in semiarid regions using RUSLE equation under GIS environment 总被引:1,自引:0,他引:1
Omar Djoukbala Mohamed Mazour Mahmoud Hasbaia Oussama Benselama 《Environmental Earth Sciences》2018,77(9):345
Water erosion is one of the main forms of land degradation in Algeria, with a serious repercussion on agricultural productivity. The purpose of this study is to estimate the soil loss of Wadi El-Ham watershed in the center of Algeria, this study aims also to evaluate the effectiveness and reliability of the use of the Revised Universal Soil Loss Equation (RUSLE) under a Geographic Information System in this field. The RUSLE model involves the main factors of erosion phenomena, namely, rain aggressiveness, soil erodibility, topographic factor, land cover index and the anti-erosive practices factor. Using this approach, the specific erosion in Wadi El-Ham watershed is estimated as 5.7 (t/ha/yr) in the entire watershed area. This result is compared to the measured suspended sediment at the Rocade-Sud gauging station situated outlet the watershed. These data consist of 1293 instantaneous measures of the water discharge and the suspended sediment concentration recorded during 21 years. Through this comparison, the used approach of RUSLE under GIS estimates the soil loss in Wadi El-Ham in Hodna region of Algeria with an error of 7.5%. Consequently, the results obtained in cartographic format make it possible to target the areas requiring priority action for a larger scale analysis to find appropriate solutions to combat erosion and to protect the natural environment. 相似文献
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Noha Donia 《Arabian Journal of Geosciences》2013,6(9):3217-3228
Delineation of Lake Karoun watershed in Egypt was carried out and various watershed parameters and environmental characteristics were extracted using geographic information system and remote sensing. Environmental characteristics including normalized vegetation index (NDVI), moisture index, land surface temperature, and land use classes were obtained from high spatial resolution images (Landsat TM). Moreover, hydrological parameters, drainage flow directions, drainage networks, and catchments from digital elevation model have been delineated using the Advanced Space-borne Thermal Emission and Reflection Radiometer (ASTER) satellite images. As a result, the lake's watershed characteristics including the environmental and hydrological factors for each watershed zone were presented and analyzed. The information generated would be of immense help in hydrological modeling of watershed for prediction of runoff and sediment yield, thereby providing necessary inputs for developing suitable developmental management plans with sound scientific basis. 相似文献
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Kishan Singh Rawat Vinod Kumar Tripathi Anil Kumar Mishra 《Arabian Journal of Geosciences》2014,7(8):3131-3145
Assessment of soil loss through Sediment Yield Index (SYI) is important for watershed planning, prioritization, and development. In the absence of measured sediment data, SYI expressing the relative sediment yield from different basins work as a basis for grading another basin to adopt erosion control measures. An attempt was made to evaluate SYI in wider scale by using cost-effective tools like remote sensing and geographical information system (GIS). SYI was calculated for Madia subwatershed, which consists of 29 microwatersheds and located in Sagar District, Madhya Pradesh (M.P.) The IRS LISS III data and Shuttle Radar Topography Mission (SRTM) digital elevation models (DEM) of 90-m resolution were used to identify land use characteristics and geomorphometric analysis. Major land use was observed as agricultural land (24.7 %), water bodies (16.7 %), forest area (10.2 %), and settlement (21.3 %). In categorization, similar overall accuracy was observed for dense forest, barren land, settlement, and water bodies. The highest SYI with a value more than 20 was observed in microwatershed Mw6, Mw7, and Mw24, which comprises 33 % of the total watershed area. It gives the information about the watershed area that requires very high priority. 相似文献
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西南喀斯特区土层浅薄、成土速率低等特点决定了其允许土壤流失量小,土壤一旦流失,极难恢复,土壤侵蚀及其造成的石漠化现象已成为制约该区可持续发展最严重的生态环境问题。文章首先明晰西南喀斯特区土壤侵蚀特征,从坡面、小流域和区域三个尺度上系统概括西南喀斯特区土壤侵蚀的相关研究进展。针对当前喀斯特区土壤侵蚀研究野外径流小区、小流域及区域空间尺度数据缺少和相关研究模型限制性强等不足,建议从不同尺度深入研究喀斯特区土壤侵蚀发生发展规律及时空演化格局,并结合高新遥感、地球物理探测技术及模型,同步监测坡面—小流域—区域土壤流失,对土壤侵蚀进行定量评估,结合不同空间尺度土壤侵蚀特征构建系统性水土保持生态恢复治理模式和监测系统评价体系。 相似文献
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通过分析河流Flashiness指数的时空变异,进而评估水电开发、土地利用变化等人类活动对河流径流时空变异特征的影响。本研究选取地处东南沿海的中尺度流域——九龙江流域,基于1967~2007年近40年的水文资料,利用Flashiness指数、基流指数等重要水文指数,并借助GIS、多元统计分析的方法来识别九龙江北溪与西溪两大干流流域近40年来径流时空变化特征及其影响因素。研究结果表明,九龙江流域近40年来径流特征发生显著的变化,流域面积是影响九龙西溪和北溪径流时空变化的自然因素,大坝建设、水电开发改变了九龙江流域的水文条件,进而影响了径流量的年内分布规律及泥沙输出特征,土地利用变化是影响流域径流特征变化的潜在因子。研究结果可为流域水资源管理提供科学依据。 相似文献
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常用的水土保持措施是退耕还林,但淮河流域是中国重要的农业产区,大规模实行退耕还林并不现实,所以通过调整耕地类型来减少水土流失可能是解决社会经济发展和生态保护矛盾的好方法。为研究不同耕地类型对流域水文要素及产沙的影响,考虑水田和旱地两种耕地类型对淮河息县水文站上游流域构建SWAT模型,构造A(实际耕地利用方式)、B(所有耕地为水田)和C(所有耕地为旱地)三种耕地类型情景,比较不同耕地类型情景下流域水文要素及产沙的变化情况。研究结果表明:所构建的SWAT模型在息县流域径流及泥沙模拟中具有良好的适用性,R2和NSE(Nash Sutcliffe Efficiency)均达到0.75以上;水田和旱地两种不同耕地类型对流域多年年均蒸散发及多年平均径流量影响较小,但对流域产沙量影响较大,在汛期更为明显,模拟期内每平方公里水田每年最多比旱地少产沙491.8t,平均每年少产沙约208.7t。采取水田耕种比旱地耕种更有利于减少息县流域内的水土流失。 相似文献