ADAPTABILITY TEST OF DRY FARMING TILLAGE TECHNIQUE IN NORTHERN CHINA AND STUDY OF KEY TECHNIQUES
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Published:2020-08-31
Issue:2
Volume:61
Page:273-280
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ISSN:2068-2239
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Container-title:INMATEH Vol.61
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language:en
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Short-container-title:INMATEH
Author:
Guo Yubing1, Zhang Xiaogang2, Zhang Chong1
Affiliation:
1. School of Economics and Management, Taiyuan University of Science and Technology, Taiyuan 030024, China 2. Shanxi Agricultural Machinery Research Institute Taiyuan 030006, China
Abstract
Based on the problem of insufficient coordination of integrated machinery and technique configuration in the exploration of dry farming regions, a method of two-period comparative test was carried out in Shanxi Province, China. Zones of the effects of different treatments on straw coverage, soil moisture, emergence rate, seedling condition, yield, and benefit were monitored and analysed. The result was that the coverage before sowing decreased to below 55% after surface harrowing or rotary tillage in autumn by using dry farming technology in Northern China. The average number of emerging seedlings through surface tillage was larger than that without surface tillage by 1.7 plants/5 m; emergency rate was increased by 8.37%, and the increase in amplitude of grain yield reached 28% compared with that of traditional farming. Moreover, the input–output ratio reached 1:4.41. The experiments showed that the net income could reach RMB 1,251–1,401/hm2, and compared with traditional farming, operating cost was lowered by 23.1%–28.8%, and benefit was elevated by 48.8% with prominent cost saving and benefit increase. The study results will facilitate the improvement of water-saving and production-increasing technologies in Northern China and play a critical role in the development of agricultural cultivation and steady growth of agricultural output in this region.
Publisher
R and D National Institute for Agricultural and Food Industry Machinery - INMA Bucharest
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering,Food Science
Reference13 articles.
1. Andrew F., Roger L., Cameron W., (2016), Crop area increases drive earlier and dry sowing in Western Australia: implications for farming systems, Crop & Pasture Science, vol.67, issue 12, Csiro, pp.1268-1280; 2. Changmin S., Zicheng Q., Min D., Xiying W., Guoqiang L., (2013), Study on the agricultural conservation tillage demonstration pattern of wheat/corn double-crop annually rotated in Rencheng District, Jining City (济宁市任城区小麦/玉米两熟区万亩保护性耕作研究示范模式研究), Journal of Anhui Agricultural Sciences, vol.41, issue 19, Anhui Academy of Agricultural Sciences, pp.8121-8125,8123; 3. Ling S., Lixue W., (2013), The influence of straw stubble mulch on soil effect of water and temperature and wind erosion(秸秆残茬覆盖对土壤水热效应及风蚀的影响), Agricultural Science &Technology and Equipment, issue 12, Liaoning Research Institute for Agricultural Mechanization, pp.24-27; 4. Yi L., Shiqing L., Fang C., Shejiao Y., & Xinping C., (2010), Soil water dynamics and water use efficiency in spring maize (Zea mays L.) fields subjected to different water management practices on the Loess Plateau, China, Agricultural Water Management, vol.97, issue 5, Elsevier, pp.769-775; 5. Neal R.H., Katarina H., Louise E.J., (2017), How does tillage intensity affect soil organic carbon? A systematic review, Environmental Evidence, vol.6, issue 1, pp.1-48;
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