估算地表径流使用曲线数法在哈利斯科州一个未测量的分水岭，墨西哥评估其形态计量参数

IF 0.7 4区地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Earth Sciences Research Journal Pub Date : 2023-02-28 DOI:10.15446/esrj.v26n4.99194

R. Hernández-Guzmán, Norma Leticia Onchi-Ramuco

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引用次数: 0

摘要

使用曲线数（CN）方法对不同风暴事件的地表径流进行了估计，并将其与墨西哥哈利斯科一个未经测量的流域的形态参数相关联。2019年的土地利用和土地覆盖地图来源于哨兵2号10米分辨率图像的无监督分类。形态计量学分析表明，研究区以缓坡、中高渗透性、植被茂密、地势较低的地区为主。它是一个排水良好的流域，洪水潜力低，也是一个地下水潜力区。约69%的研究区域对应于自然覆盖，其中热带干燥森林和常绿森林是最具代表性的类别。2013年至2019年，共发现77起风暴事件，径流量在0.05至2.272亿立方米之间。9月和10月是降雨量最大的月份，因此也是径流量最高的月份。平均径流量为14.52 Mm3，对应的平均径流量系数为12.86%。总之，本文使用的方法为在流域层面制定保护策略提供了有用的结果。

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Estimating surface runoff using the curve number method in an ungauged watershed in Jalisco, Mexico evaluating its morphometric parameters

The surface runoff was estimated using the curve number (CN) method for different storm events and it was associated with the morphometric parameters of an ungauged watershed in Jalisco, México. The land use and land cover map from 2019 was derived from the unsupervised classification of a Sentinel-2 image at 10 m resolution. The morphometric analysis revealed that the study area is dominated by areas of gentle slope and moderate to high permeability with dense vegetation and low relief. It is a well-drained watershed with low flood potentiality as well as a groundwater potential zone. About 69% of the study area corresponds to natural cover with tropical dry forest and evergreen forest as the most representative classes. A total of 77 storm events were identified from 2013 to 2019, with runoffs that ranged from 0.05 to 227.2 Mm3. September and October were the months with the most intense rainfall and, therefore, the months with the highest runoff volume. The average runoff was 14.52 Mm3, corresponding to an average runoff coefficient of 12.86%. Together, the methods used here provide useful results for delineating conservation strategies at the watershed level.

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来源期刊

Earth Sciences Research Journal 地学-地球科学综合

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： ESRJ publishes the results from technical and scientific research on various disciplines of Earth Sciences and its interactions with several engineering applications. Works will only be considered if not previously published anywhere else. Manuscripts must contain information derived from scientific research projects or technical developments. The ideas expressed by publishing in ESRJ are the sole responsibility of the authors. We gladly consider manuscripts in the following subject areas: -Geophysics: Seismology, Seismic Prospecting, Gravimetric, Magnetic and Electrical methods. -Geology: Volcanology, Tectonics, Neotectonics, Geomorphology, Geochemistry, Geothermal Energy, ---Glaciology, Ore Geology, Environmental Geology, Geological Hazards. -Geodesy: Geodynamics, GPS measurements applied to geological and geophysical problems. -Basic Sciences and Computer Science applied to Geology and Geophysics. -Meteorology and Atmospheric Sciences. -Oceanography. -Planetary Sciences. -Engineering: Earthquake Engineering and Seismology Engineering, Geological Engineering, Geotechnics.