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Spatio-Temporal Variations of Fertilizer Contribution Rate for Rice in China and Its Influencing Factors

LI YaZhen1, HAN TianFu2, QU XiaoLin3, MA ChangBao3, DU JiangXue2, LIU KaiLou1, HUANG Jing2,4, LIU ShuJun2,4, LIU LiSheng2,4, SHEN Zhe2, ZHANG HuiMin2,4* #br#   

  1. 1Jiangxi Institute of Red Soil, National Engineering and Technology Research Center for Red Soil Improvement, Jinxian 331717, Jiangxi; 2Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing 100081; 3Center of Arable Land Quality Monitoring and Protection, Ministry of Agriculture and Rural Affairs, Beijing 100125; 4 National Observation Station of Qiyang Agri-Ecology System, Qiyang,426182, Hunan
  • Published:2022-03-23

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Abstract: 【Objective Spatio-temporal variations and driving factors of fertilizer contribution rate were conducted for the paddy soil in China. It can provide a theoretical basis for the sustainable development of rice and scientific recommended application of fertilizers in rice cultivation areas. Method Data was cited from a total of 338 long-term paddy soil monitoring sites located in rice-producing provinces of China for this study. The effects of fertilizer contribution rate for cropping system, climate, regions, soil texture and its driving factors were evaluated. Result In the past 30 years (1988-2017), the fertilizer contribution rate for rice increased first and then levelled off in China in the condition of same rice variety and cultivation techniques both in fertilization and none-fertilization plots. The variable range of fertilizer contribution rate for rice was from 41.20% to 51.89%. The fertilizer contribution rate for rice was 38.58%-55.49%, 41.96%-51.05% and 41.96%-51.05% in single, double rice and rice and other cropping systems, respectively. After 30 years, fertilizer contribution rate for rice from high to low was as follows: Southwest China (55.82%), Middle of Yangtze River (46.73%), North China (46.27%), North east China (45.90%), South China (45.83%) and Lower of Yangtze River (44.25%). According to the fitting equation, it was found that the stable fertilization years of fertilizer contribution rate for rice was 15.2 a, 18.5 a, 19.0 a, 15.3 a, 15.3 a and 14.5 a in the Northeast China, North China, Southwest China, Middle of Yangtze River, Lower of Yangtze River and South China, respectively. The fertilizer contribution rate for rice in Subtropical monsoon (49.23%) was much higher than Temperate monsoon (45.90%) and Tropical monsoon (34.57%). The fertilizer contribution rate for rice with different soil texture was 43.25%-64.80% for clay soil, 40.65%-48.46% for loam soil, and 26.20%-45.98% for sand soil. Among the fertilization factors, nitrogen and phosphate fertilizer were the main factors affecting fertilizer contribution rate. Among the climatic factors, frost-free period, mean annual rainfall and mean annual temperature were the main factors and soil organic matter was the most important one among the soil factors. Conclusion The fertilizer contribution rate for rice was increased first and then levelled off in 1988-2017, there was different for fertilizer contribution rate for rice under different rice cropping systems, regions, climate and texture. Nitrogen and phosphate fertilizers were main factors of fertilizer contribution rate for rice in China. Moreover, soil organic matter in paddy soil was the most important to fertilizer contribution rate for rice in soil fertility indexes. 


Key words: paddy soil, fertilization, fertilizer contribution rate for rice, spatio-temporal variations, soil organic matter

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