Effects of transport distance and flow discharge of overland flow on destruction of Ultisol aggregates--颗粒学报PARTICUOLOGY

Wang, J., Li, Z., Cai, C., & Yang, W. (2012). Effects of transport distance and flow discharge of overland flow on destruction of Ultisol aggregates. Particuology, 10(5), 607–613. https://doi.org/10.1016/j.partic.2011.06.013

Effects of transport distance and flow discharge of overland flow on destruction of Ultisol aggregates

Junguang Wang, Zhaoxia Li, Chongfa Cai^*, Wei Yang

Key Laboratory of Arable Land Conservation (Middle and Lower Reaches of Yangtse River), Ministry of Agriculture, Huazhong Agricultural University, Wuhan 430070, China

10.1016/j.partic.2011.06.013

Volume 10, Issue 5, October 2012, Pages 607-613

Received 24 February 2011, Revised 7 June 2011, Accepted 16 June 2011, Available online 30 April 2012.

E-mail: cfcaihzau@163.com; cfcai@mail.hzau.edu.cn

Highlights

► Experiments were carried out on the destruction of aggregates of Ultisols from subtropical China on a 3.8 m long flume.

► Aggregates with higher clay content or smaller size suffered less extent of destruction.

► Two stages of aggregate breakdown could be identified during transport.

► The extent of aggregate destruction decreased with increasing flow discharge, due to the change of aggregate movement mode.

Abstract

The destruction of soil aggregates upon transport by overland flow may produce a significant effect on sediment transport capacity and general intensity of erosion. The particle size distribution of destructed soil aggregates has a close relation to the surface runoff and permeability of soils. The objective of this study is to quantify the effects of transport distance and flow discharge of overland flow on the destruction of aggregates of Ultisols in a 3.8 m long flume with a fixed bed. A series of experiments were carried out at a slope of 17.6%, including six transport distances (9–108 m) and eight discharges (0.4–1.2 L/s). The results indicate that (1) the extent of the destruction of aggregates became weaker with the decrease in size over the same transport distances or at the same discharges; (2) the aggregates derived from Shale were rapidly abraded and had more serious destruction as compared to the aggregates from Quaternary red clay during the transport process, which was relevant to the stability difference of the two parent materials; (3) two stages of aggregate breakdown could be identified in terms of the coefficient α during transport, that is, the aggregates were rapidly abraded and became round and were predominantly broken down into smaller fragments at the first stage, while the smaller fragments and the round aggregates were weakly abraded with reduction in weight and their shape became regular; and (4) the extent of the destruction decreased with increasing discharge, which was due to the changes in the hydraulic properties (flow depth and friction factor) and in movement modes during the transport process. The analysis of the characteristics on aggregate destruction by overland flow can contribute to the development of soil erosion models.

Graphical abstract

Keywords

Aggregate stability; Destruction; Transport distance; Discharge

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