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施氮量和密度对机直播双季稻产量与氮素利用率的影响研究 被引量:18

Effects of Nitrogen Application Rate and Density on Yield and Nitrogen Use Efficiency of Double Cropping Rice Under Mechanized Direct-Seeding
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摘要 为探究施氮量和播种密度相互作用对机直播双季稻(Oryza sativa L.)产量与氮素利用率的影响,2018—2019以优质稻柒两优2012与美香占2号为材料进行试验,设4个施氮量(早稻分别为0、120、150、180 kg·hm^(-2),晚稻分别为0、120、165、210 kg·hm^(-2),早、晚稻均以N_(0)、N_(1)、N_(2)、N_(3)表示)与3个机直播密度(早稻分别为86、143、200粒·m^(-2),晚稻分别为57、114、172粒·m^(-2),早、晚稻均以S_(1)、S_(2)、S_(3)表示)分析双季稻群体生长发育、产量、产量构成及氮素吸收利用的特征。结果表明,施氮与增密促进双季稻增产,早、晚稻分别在N_(3)和N_(2)时产量最高,较N_(1)增产11.41%~12.32%和8.58%~9.21%;早稻S_(2)与S_(3)分别较S_(1)增产8.71%~10.38%和8.33%~10.89%,晚稻增产6.33%~8.11%和6.78%~8.56%;早稻N_(2)S_(2)与N_(3)S_(2)间产量无显著差异。施氮与增密的增产因素是机直播双季稻较高的抽穗后干物质量、叶面积指数及氮素积累量,在分蘖期具备碳、氮物质积累优势。机直播双季稻中,N_(2)S_(2)的抽穗后叶面积指数、干物质量及氮素积累量较高,同时具备较高的氮素农学利用率、氮素生理利用率及氮素吸收利用率。因此,机直播早、晚稻的施氮量与直播密度组合分别为150 kg·hm^(-2)与143粒·m^(-2)处理、165 kg·hm^(-2)与114粒·m^(-2)处理时,可以达到增产与氮高效协同。本研究为机直播双季稻密植与优化氮素管理提供了理论依据。 In order to investigate the effects of nitrogen application rate and planting density on grain yield and nitrogen use efficiency of double cropping rice production system(Oryza sativa L.)under mechanized direct-seeding,two high quality rice varieties such as Qiliangyou 2012 and Meixiangzhan 2 were used in field trials in 2018 and 2019.Four nitrogen application rates such as 0(N_(0)),120(N_(1)),150(N_(2))and 180(N_(3))kg·hm^(-2)were for early season rice and 0(N_(0)),120(N_(1)),165(N_(2))and 210(N_(3))kg·hm^(-2)were for late season rice.In addition,three mechanized direct-seeding densities i.e.86(S_(1)),143(S_(2)),200(S_(3))seeds·m^(-2)were for early season rice,and 57(S_(1)),114(S_(2)),172(S_(3))seeds·m^(-2)were for late season rice.The growth and development,grain yield,yield components,characteristics of nitrogen uptake and utilization of double cropping rice population were investigated.The results showed that the increase of nitrogen application and sowing density were beneficial to the increase of double cropping rice yield.The highest yields of early and late rice were obtained under N_(3)and N_(2)treatments,and increased by 11.41%~12.32%and 8.58%~9.21%compared with N_(1)treatment,respectively.Compared with S_(1)treatment,S_(2)and S_(3)treatments increased yield by 8.71%~10.38%and 8.33%~10.89%for early rice,respectively;and yield increased by 6.33%~8.11%and 6.78%~8.56%for late rice,respectively.There was no significant difference in yield between N_(2)S_(2)and N_(3)S_(2)treatments for early rice.The possible reasons for the increased yield of mechanized direct-seed double cropping rice may attribute to the higher dry matter accumulation and leaf area index,the higher amount of nitrogen uptake after heading and the advantage of carbon and nitrogen accumulation at tillering stage.The N_(2)S_(2)treatment showed a higher leaf area index,dry matter mass and nitrogen accumulation,and which also had higher nitrogen agronomic utilization,nitrogen physiological utilization and nitrogen absorption utilization for mechanized direct-seed double cropping rice.Therefore,yield improvement and higher efficiency of mechanized direct-seed double cropping rice be integrated in the combination of 150 kg·hm^(-2)with 143 seeds·m^(-2)for early rice and 165 kg·hm^(-2)with 114 seeds·m^(-2)for late rice.The study provides a theoretical basis for rational dense planting and optimal nitrogen management for mechanized direct-seeding double cropping rice production.
作者 罗亢 曾勇军 石庆华 吕伟生 谢小兵 郭琳 成臣 周乾聪 LUO Kang;ZENG Yongjun;SHI Qinghua;LYU Weisheng;XIE Xiaobing;GUO Lin;CHENG Chen;ZHOU Qiancong(Key Laboratory of Crop Physiology,Ecology and Genetic Breeding,Ministry of Education/Key Laboratory of Crop Physiology,Ecology and Genetic Breeding of Jiangxi Province,Jiangxi Agricultural University,Nanchang,Jiangxi 330045)
出处 《核农学报》 CAS CSCD 北大核心 2021年第12期2850-2859,共10页 Journal of Nuclear Agricultural Sciences
基金 国家重点研发计划项目(2017YFD0301605) 江西省水稻产业技术体系专项(JXARS-02-03) 国家“万人计划”人选人才特殊支持项目(国科发资[2019]252号) 中青年科技创新领军人才专项(赣科计字[2018]175号)
关键词 双季稻 氮素利用率 产量 施氮量 机直播密度 double cropping rice nitrogen use efficiency yield nitrogen application mechanized direct-seeding density
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