首页 | 本学科首页   官方微博 | 高级检索  
     

Effects of Plastic Film Mulching of Millet on Soil Moisture and Temperature in Semi-Arid Areas in South Ningxia of China
引用本文:LIAO Yun-cheng ZHANG De-qi JIA Zhi-kuan ZHANG Li LU Yang-ming. Effects of Plastic Film Mulching of Millet on Soil Moisture and Temperature in Semi-Arid Areas in South Ningxia of China[J]. 中国农业科学(英文版), 2005, 4(11): 865-871
作者姓名:LIAO Yun-cheng ZHANG De-qi JIA Zhi-kuan ZHANG Li LU Yang-ming
作者单位:College of Agronomy, Northwest A&F University, Yangling 712100, P.R. China
基金项目:This study was supported by a key grant from China National 863 High Technology Program (2002AA2Z40212), the National Natural Science Foundation of China (30070439, 30300213), and the Young Key Scholar Program of Northwest A & F University.
摘    要:The effects of film mulching of millet on soil water content were studied in semi-arid areas in the Loess Plateau of South Ningxia, China. Different mulching methods including water micro-collecting farming (WF), water micro-collecting farming in winter fallow (WW), hole seeding on film (HF), hole seeding on film in winter fallow (HW) were compared to determine the effects of mulching methods on soil water collecting and conservation during millet growth periods of 2003-2004, as well as the variation tendency of water content after rainfall, output of millet and water use efficiency (WUE). The experimental results in the two successive years indicated that water micro-collecting farming had a better function of collecting water after rainfall, and side infiltrated water was stored under the ridges and the top layer 0-40 cm soil water changes were great. WF had obvious role in water collection and preservation of soil moisture. It effectively improved the water supply capacity by about 19.05% in the end of growth seasons. The storage of HW and WW increased by 24.9 and 7.1 mm compared with CK, and output of yield were obviously increased. Film mulching increased the yield of millet and enhanced water use efficiency (WUE). During different growth periods, WF exhibited better water storage function with lower water consumption, and demonstrated optimal social and ecological benefits.

关 键 词:塑料薄膜 黍 土壤湿度 宁夏 耕作农业

Effects of Plastic Film Mulching of Millet on Soil Moisture and Temperature in Semi-Arid Areas in South Ningxia of China
LIAO Yun-cheng,ZHANG De-qi,JIA Zhi-kuan,ZHANG Li,LU Yang-ming. Effects of Plastic Film Mulching of Millet on Soil Moisture and Temperature in Semi-Arid Areas in South Ningxia of China[J]. 《Agricultural Sciences in China》, 2005, 4(11): 865-871
Authors:LIAO Yun-cheng  ZHANG De-qi  JIA Zhi-kuan  ZHANG Li  LU Yang-ming
Abstract:The effects of film mulching of millet on soil water content were studied in semi-arid areas in the Loess Plateau of South Ningxia, China. Different mulching methods including water micro-collecting farming (WF), water micro-collecting farming in winter fallow (WW), hole seeding on film (HF), hole seeding on film in winter fallow (HW) were compared to determine the effects of mulching methods on soil water collecting and conservation during millet growth periods of 2003-2004, as well as the variation tendency of water content after rainfall, output of millet and water use efficiency (WUE). The experimental results in the two successive years indicated that water micro-collecting farming had a better function of collecting water after rainfall, and side infiltrated water was stored under the ridges and the top layer 0-40 cm soil water changes were great. WF had obvious role in water collection and preservation of soil moisture. It effectively improved the water supply capacity by about 19.05% in the end of growth seasons. The storage of HW and WW increased by 24.9 and 7.1 mm compared with CK, and output of yield were obviously increased. Film mulching increased the yield of millet and enhanced water use efficiency (WUE). During different growth periods, WF exhibited better water storage function with lower water consumption, and demonstrated optimal social and ecological benefits.
Keywords:Millet   Dynamic change of soil moisture   Film mulching   Water micro-collecting farming
本文献已被 维普 万方数据 等数据库收录!
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号