Estimating index of sediment connectivity using a smart data-driven model

归一化差异植被指数 水文学(农业) 环境科学 地表径流 沉积物 比例(比率) 流域 水流 流域水文 仰角(弹道) 频道(广播) 土壤科学 地质学 计算机科学 地貌学 地图学 数学 气候变化 地理 生态学 几何学 岩土工程 海洋学 生物 计算机网络
作者
Haniyeh Asadi,Mohammad Taghi Dastorani,Roy C. Sidle
出处
期刊:Journal of Hydrology [Elsevier BV]
卷期号:620: 129467-129467 被引量:16
标识
DOI:10.1016/j.jhydrol.2023.129467
摘要

• Novel approach is developed to estimate index of sediment connectivity. • Various variables are used as predictors for index of sediment connectivity within an artificial neural network (ANN) algorithm. • The efficiency of the ANN model is evaluated to estimate index of sediment connectivity within homogenous sections (based on IC values) of catchments and at the catchment scale. Connectivity is a key topic in investigations of hydrogeomorphic processes in catchments. Mapping and determining quantitative values of hydrologic and sediment connectivity are prerequisites for understanding the linkages amongst various parts of catchment systems with different land use and topographic changes to properly manage sediment and water-related issues. Given the need to develop appropriate methods for determining connectivity indices, we developed a novel approach to estimate index of sediment connectivity (IC) using an artificial neural network (ANN) algorithm. Physical characteristics of the catchments, including elevation, slope, area, length of stream channel, length of overland flow, normalized difference vegetation index (NDVI), and surface soil moisture (SSM) were used as inputs and the IC was assessed as the output of the ANN model. Our findings revealed that the accuracy of the modelling within homogenous sub-sections (based on IC values) of catchments was higher than that at the catchment scale, even with fewer input parameters. Also, the use of dynamic parameters (e.g., SSM/NDVI) along with physiographic data improved performance of the ANN model in estimating IC. The results obtained from this study indicate that the proposed method can be applied as a promising, reliable, and cost-effective tool for estimating IC at the catchment scale and also within homogenous sections of catchment.
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