Effects of water and nitrogen rate on grain-filling characteristics under high-low seedbed cultivation in winter wheatOACSTPCD
Effects of water and nitrogen rate on grain-filling characteristics under high-low seedbed cultivation in winter wheat
A high-efficiency mode of high-low seedbed cultivation(HLSC)has been listed as the main agricultural technology to increase land utilization ratio and grain yield in Shandong Province,China.However,limited information is available on the optimized water and nitrogen management for yield formation,especially the grain-filling process,under HLSC mode.A three-year field experiment with four nitrogen rates and three irrigation rates of HLSC was conducted to reveal the response of grain-filling parameters,grain weight percentage of spike weight(GPS),spike moisture content(SMC),and winter wheat yield to water and nitrogen rates.The four nitrogen rates were N1(360 kg ha-1 pure N),N2(300 kg ha-1 pure N),N3(240 kg ha-1 pure N),and N4(180 kg ha-1 pure N),respectively,and the three irrigation quotas were W1(120 mm),W2(90 mm),and W3(60 mm),respectively.Results showed that the determinate growth function generally performed well in simulating the temporal dynamics of grain weight(0.989<R2<0.999,where R2 is the determination coefficient).The occurrence time of maximum filling rate(Tmax)and active grain-filling period(AGP)increased with the increase in the water or nitrogen rate,whereas the average grain-filling rate(Gmean)had a decreasing trend.The final 1,000-grain weight(FTGW)increased and then decreased with the increase in the nitrogen rates and increased with the increase in the irrigation rates.The GPS and SMC had a highly significant quadratic polynomial relationship with grain weight and days after anthesis.Nitrogen,irrigation,and year significantly affected the Tmax,AGP,Gmean,and FTGW.Particularly,the AGP and FTGW were insignificantly different between high seedbed(HLSC-H)and low seedbed(HLSC-L)across the water and nitrogen levels.Moreover,the moderate water and nitrogen supply was more beneficial for grain yield,as well as for spike number and grain number per hectare.The principal component analysis indicated that combining 240-300 kg N ha-1 and 90-120 mm irrigation quota could improve grain-filling efficiency and yield for the HLSC-cultivated winter wheat.
Junming Liu;Zhuanyun Si;Shuang Li;Lifeng Wu;Yingying Zhang;Xiaolei Wu;Hui Cao;Yang Gao;Aiwang Duan
Institute of Farmland Irrigation,Chinese Academy of Agricultural Sciences/Key Laboratory of Crop Water Use and Regulation,Ministry of Agriculture and Rural Affairs,Xinxiang 453002,China||Graduate School of Chinese Academy of Agricultural Sciences,Beijing 100081,ChinaInstitute of Farmland Irrigation,Chinese Academy of Agricultural Sciences/Key Laboratory of Crop Water Use and Regulation,Ministry of Agriculture and Rural Affairs,Xinxiang 453002,ChinaShandong Academy of Agricultural Machinery Sciences,Jinan 250000,ChinaBinzhou Academy of Agricultural Sciences,Binzhou 256600,China
high-low seedbed cultivationwater and nitrogengrain fillingdeterminate growth equationwheat yield
《农业科学学报(英文)》 2024 (012)
4018-4031 / 14
This work was supported by the National Key Research and Development Program of China(2023YFD1900802),the China Agriculture Research System of MOF and MARA(CARS-03-19),the National Natural Science Foundation of China(51879267),the Central Public-interest Scientific Institution Basal Research Fund,China(IFI2023-13),and the Agricultural Science and Technology Innovation Program(ASTIP),Chinese Academy of Agricultural Sciences.
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