A rational method for estimating erodibility and critical shear stress of an eroding rill

文献类型: 外文期刊

第一作者: Lei, T. W.

作者: Lei, T. W.;Yan, L. J.;Lei, T. W.;Zhang, Q. W.;Zhao, J.;Pan, Y. H.;Zhang, Q. W.

作者机构:

关键词: soil erodibility;critical shear stress;soil erosion prediction model;rational method;loess soil

期刊名称:GEODERMA ( 影响因子:6.114; 五年影响因子:6.183 )

ISSN: 0016-7061

年卷期: 2008 年 144 卷 3-4 期

页码:

收录情况: SCI

摘要: Soil crodibility and critical shear stress are two of the most important parameters for physically-based soil erosion modeling. To aid in future soil erosion modeling, a rational method for determining the soil erodibility and critical shear stress of rill erosion under concentrated flow is advanced in this paper. The method suggests that a well-defined rill be used for shear stress estimation while infinite short rill lengths be used for determination of detachment capacity. The derivative of the functional relationship between sediment yield and rill length at the inlet of rill flow, as opposed to average detachment rate of a long rill, was used for the determination of detachment capacity. Soil erodibility and critical shear stress were then regressively estimated with detachment capacity data under different flow regimes. Laboratory data of rill erosion under well defined rill channels from a loess soil was used to estimate the soil erodibility and critical shear stress. The results showed that no significant change in soil erodibility (K-r) was observed for different slope gradients ranging from 5 to 25 while critical shear stress increased slightly with the slope gradient. Soil erodibility of the loess soil was 0.3211 +/- 0.001 s m(-1). The soil erodibility and critical shear stress calculations were then compared with data from other resources to verify the feasibility of the method. Data comparison showed that the method advanced is a physically logical and feasible method to calculate the soil erodibility and critical shear stress for physically-based soil erosion models. (C) 2008 Published by Elsevier B.V.

分类号:

  • 相关文献

[1]Combined effects of runoff and soil erodibility on available nitrogen losses from sloping farmland affected by agricultural practices. Cheng, Shanghong,Huang, Xinjun,Liu, Dinghui,Cheng, Shanghong.

[2]Effects of erosion degree and rainfall intensity on erosion processes for Ultisols derived from quaternary red clay. Wu, Xinliang,Wei, Yujie,Wang, Junguang,Xia, Jinwen,Cai, Chongfa,Wei, Zhiyuan,Wu, Lanlan,Fu, Zhiyong,Wei, Zhiyuan.

[3]Application of a physically based soil erosion model, GUEST, in the absence of data on runoff rates - II. Four case studies from China, Malaysia, and Thailand. Yu, B,Sajjapongse, A,Yin, D,Eusof, Z,Anecksamphant, C,Rose, CW,Cakurs, U. 1999

[4]Soil Insect Diversity and Abundance Following Different Fertilizer Treatments on the Loess Plateau of China. Lin Ying-hua,Lu Ping,Lin Ying-hua,Lu Ping,Yang Xue-yun,Zhang Fu-dao. 2013

[5]Quantifying detachment rate of eroding rill or ephemeral gully for WEPP with flume experiments. Zhang, Qingwen,Zhang, Aiping,Dong, Yuequn,Li, Fang,Lei, Tingwu,Lei, Tingwu,Lei, Tingwu.

[6]Influence of simulated rainfall on physical properties of a conventionally tilled loess soil. Schiettecatte, W,Jin, K,Yao, YQ,Cornelis, WM,Lu, JJ,Wu, HJ,Verbist, K,Cai, DX,Gabriels, D,Hartmann, R. 2005

作者其他论文 更多>>

微信小程序