Assessing the effect of soil parameterization in land use change impact modeling

Q3 Earth and Planetary Sciences

Proceedings of the International Association of Hydrological Sciences Pub Date : 2021-11-16 DOI:10.5194/piahs-384-275-2021

Yacouba Yira, A. Bossa, E. Amoussou, D. F. Badou, Jean Hounkpè, K. O. Hounkpatin

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引用次数: 1

Abstract

Abstract. This study addresses the importance of integrating the effect of land use on soil infiltration rate into land use change impact modeling. Based on a validated version 9.05.04 of the Water balance Simulation Model-WaSiM (statistical quality measures > 0.7), and field measurement of the infiltration rate under cropland and fallow, sixteen model simulations were performed. The impact of land use change is computed comparing LULC status of years 1990 and 2013. The effect of soil parameterization is computed using a refined soil map integrating land use change impact of soil infiltration rate and a classic soil map not considering this interaction. The results show differences in model results as an effect of soil parameterization approaches, indicating that the model is sensitive to the integration of LULC related effects on soil hydraulic conductivity. These differences are more pronounced with increasing modeling time steps (24 and 28 h). The signal-to-noise-ratio indicates that, results achieved in LULC impact assessment with a classic and a refined soil parameterization are very comparable except for interflow.

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评估土壤参数化在土地利用变化影响模型中的作用

摘要本研究强调了将土地利用对土壤入渗速率的影响纳入土地利用变化影响模型的重要性。基于9.05.04版水平衡模拟模型- wasim(统计质量指标> 0.7)，在农田和休耕地的入渗速率实测基础上，进行了16次模型模拟。比较1990年和2013年的土地利用变化对土地利用变化的影响。利用综合土地利用变化对土壤入渗速率影响的精细土壤图和不考虑这种相互作用的经典土壤图计算土壤参数化的效果。结果表明，由于土壤参数化方法的影响，模型结果存在差异，表明该模型对LULC相关的土壤水导率影响的整合较为敏感。随着建模时间步长(24和28小时)的增加，这些差异更加明显。信噪比表明，经典土壤参数化与精细土壤参数化的LULC影响评价结果除了相互影响外，具有很大的可比性。

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Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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12 weeks