Base flow separation for soil erosion simulation in a granitic forested headwater catchment using a process-based model, GeoWEPP

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Takuhei Yamasaki, Shoichiro Hamamoto, Taku Nishimura
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引用次数: 0

Abstract

Distributed erosion models, which simulate the physical processes of water flow and soil erosion, are effective for predicting soil erosion in forested catchments. Although subsurface flow through multiple pathways is dominant for runoff generation in forested headwater catchments, the process-based erosion model, Geo-spatial interface for Water Erosion Prediction Project (GeoWEPP), does not have an adequate subsurface component for the simulation of hillslope water flow. In the current study, the quick flow related to soil erosion during rainfall events is separated from the total hydrograph using base flow separation for GeoWEPP to use direct runoff to predict sediment discharge from a granitic-forested catchment in Japan. Water runoff and sediment discharge also are simulated using the conventional method that reproduces the total hydrograph, and the accuracy of the calculation and estimated erodibility parameters are evaluated. The proposed procedure reproduced the quick-flow runoff during rainfall and the cumulative sediment discharge from the catchment. Simultaneously, the proposed procedure overestimates water runoff during extreme weather events, such as typhoons. The estimated erodibility parameters for the hillslope soil were comparable to those of the surface soil in Japan using both the proposed procedure and the conventional one. Conversely, the channel erodibility obtained from the proposed procedure matched the observed sediment characteristics in the granitic forested catchment. The proposed procedure is a promising method to predict sediment discharge from forested catchments based on the geological features of the catchment.

使用基于过程的模型GeoWEPP模拟花岗岩森林源头流域土壤侵蚀的基本流分离
分布式侵蚀模型模拟了森林流域水流和土壤侵蚀的物理过程,是预测森林流域土壤侵蚀的有效方法。虽然通过多种途径的地下水流在森林水源集水区的径流生成中占主导地位,但基于过程的侵蚀模型,即水土流失预测项目的地理空间界面(GeoWEPP),并没有足够的地下成分来模拟山坡水流。在目前的研究中,GeoWEPP使用基流分离技术将降雨事件中与土壤侵蚀相关的快速流从总水文线中分离出来,利用直接径流来预测日本花岗岩森林流域的沉积物排放。采用常规方法模拟了径流和输沙量,并对计算和估计的可蚀性参数的准确性进行了评价。所建议的程序再现了降雨期间的快速径流和集水区的累积沉积物排放。同时,提议的程序高估了极端天气事件(如台风)期间的水径流。用所提出的方法和传统方法估算的坡地土壤的可蚀性参数与日本表层土壤的可蚀性参数相当。相反,从所提出的程序中获得的河道可蚀性与花岗岩森林流域的观测沉积物特征相匹配。该方法是一种基于森林流域地质特征预测流域输沙量的有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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