Effect of mulching with maize straw on water infiltration and soil loss at different initial soil moistures in a rainfall simulation

• Main Author: Yifu ZHANG,Hongwen LI,Jin HE,Qingjie WANG,Ying CHEN,Wanzhi CHEN,Shaochun MA
• Format: Article
• Language: English
• Published: Higher Education Press 2016-06-01
• Series: Frontiers of Agricultural Science and Engineering
• Subjects: infiltration|initial soil water content|rainfall simulation|soil loss|straw mulching
• Online Access: http://academic.hep.com.cn/fase/fileup/2095-7505/PDF/1466671173392-1987655621.pdf

Mulching and soil water content (SWC) have a significant impact on soil erosion, and this study investigated the effect of straw mulching on water infiltration and soil loss under different initial SWC treatments in a rainfall simulation experiment conducted in northern China. Increasing initial SWC can decrease soil infiltration and increase soil loss. During an 80 mm rainfall event (80 mm·h^-1 for 60 min), 8%, 12% and 16% initial SWC treatments decreased cumulative infiltration by 8.7%, 42.5% and 58.1%, and increased total sediment yield by 44, 146 and 315 g, respectively, compared to 4% initial SWC. However, in all the straw mulching treatments, there was no significant difference in stable infiltration rate between the different initial SWC treatments. For all initial SWC treatments, straw mulching of 30% or more significantly enhanced water infiltration by over 31% and reduced soil loss by over 49%, compared to the unmulched treatment. Taking into consideration the performance of no-till planters, a maize straw mulching rate of 30% to 60% (1400—3100 kg·hm^-2) is recommended for the conservation of water and soil in northern China.