农科机构知识库联盟

Improving nitrogen fertilization in rice by site-specific N management. A review

文献类型：外文期刊

第一作者： Peng, Shaobing

作者： Peng, Shaobing;Buresh, Roland J.;Dobermann, Achim;Huang, Jianliang;Cui, Kehui;Zhong, Xuhua;Zou, Yingbin;Tang, Qiyuan;Yang, Jianchang;Wang, Guanghuo;Liu, Yuanying;Hu, Ruifa;Zhang, Fusuo

作者机构：

关键词： site-specific nitrogen management;nitrogen use efficiency;grain yield;nitrogen response;rice;China

期刊名称：AGRONOMY FOR SUSTAINABLE DEVELOPMENT （影响因子：5.832；五年影响因子：9.354 ）

ISSN： 1774-0746

年卷期： 2010 年 30 卷 3 期

页码：

收录情况： SCI

摘要： Excessive nitrogen (N) application to rice (Oryza sativa L.) crop in China causes environmental pollution, increases the cost of rice farming, reduces grain yield and contributes to global warming. Scientists from the International Rice Research Institute have collaborated with partners in China to improve rice N fertilization through site-specific N management (SSNM) in China since 1997. Field experiments and demonstration trials were conducted initially in Zhejiang province and gradually expanded to Guangdong, Hunan, Jiangsu, Hubei and Heilongjiang provinces. On average, SSNM reduced N fertilizer by 32% and increased grain yield by 5% compared with farmers' N practices. The yield increase was associated with the reduction in insect and disease damage and improved lodging resistance of rice crop under the optimal N inputs. The main reason for poor fertilizer N use efficiency of rice crop in China is that most rice farmers apply too much N fertilizer, especially at the early vegetative stage. We observed about 50% higher indigenous N supply capacity in irrigated rice fields in China than in other major rice-growing countries. Furthermore, yield response of rice crop to N fertilizer application is low in China, around 1.5 t ha(-1) on average. However, these factors were not considered by rice researchers and extension technicians in determining the N fertilizer rate for recommendation to rice farmers in China. After a decade of research on SSNM in China and other Asian rice-growing countries, we believe SSNM is a matured technology for improving both fertilizer N use efficiency and grain yield of rice crop. Our challenges are to further simplify the procedure of SSNM and to convince policy-makers of the effectiveness of this technology in order to facilitate a wider adoption of SSNM among rice farmers in China.

分类号：

相关文献

[1]Review grain yield and nitrogen use efficiency in rice production regions in China. Che Sheng-guo,Zhao Bing-qiang,Li Yan-ting,Yuan Liang,Li Wei,Lin Zhi-an,Hu Shu-Wen,Shen Bing. 2015

[2]Identification and characterization of quantitative trait loci for grain yield and its components under different nitrogen fertilization levels in rice (Oryza sativa L.). Tong, Han-hua,Xing, Yong-zhong,Luo, Li-jun,Tong, Han-hua,Chen, Liang,Li, Wei-ping,Mei, Han-wei,Yu, Xing-qiao,Xu, Xiao-yan,Luo, Li-jun,Tong, Han-hua,Zhang, Shan-qing. 2011

[3]Influence of the system of rice intensification on rice yield and nitrogen and water use efficiency with different N application rates. Zhao, Limei,Wu, Lianghuan,Lu, Xinghua,Zhao, Limei,Li, Yongshan,Zhu, Defeng,Uphoff, Norman.

[4]Farmer participatory testing of standard and modified site-specific nitrogen management for irrigated rice in China. Hu, Ruifa,Cao, Jianmin,Huang, Jikun,Peng, Shaobing,Huang, Jianliang,Zhong, Xuhua,Zou, Yingbin,Yang, Jianchang,Buresh, Roland J.. 2007

[5]Maintaining yields and reducing nitrogen loss in rice-wheat rotation system in Taihu Lake region with proper fertilizer management. Xue, Lihong,Yu, Yingliang,Yang, Linzhang. 2014

[6]Agronomic performance of high-yielding rice variety grown under alternate wetting and drying irrigation. Yao, Fengxian,Huang, Jianliang,Cui, Kehui,Nie, Lixiao,Liu, Xiaojin,Wu, Wei,Peng, Shaobing,Xiang, Jing,Chen, Mingxia. 2012

[7]Nitrogen use by winter wheat and changes in soil nitrate nitrogen levels with supplemental irrigation based on measurement of moisture content in various soil layers. Guo, Zengjiang,Zhang, Yongli,Shi, Yu,Yu, Zhenwen,Zhao, Junye.

[8]Regional distribution of nitrogen fertilizer use and N-saving potential for improvement of food production and nitrogen use efficiency in China. Wang, Xiaobin,Cai, Dianxiong,Cai, Dianxiong,Hoogmoed, Willem B.,Oenema, Oene. 2011

[9]QTL Mapping by Whole Genome Re-sequencing and Analysis of Candidate Genes for Nitrogen Use Efficiency in Rice. Xia, Xiuzhong,Zhang, Zongqiong,Nong, Baoxuan,Zeng, Yu,Deng, Guofu,Li, Danting,Xiong, Faqian,Wu, Yanyan,Gao, Ju. 2017

[10]Identification of QTL Associated with Nitrogen Uptake and Nitrogen Use Efficiency Using High Throughput Genotyped CSSLs in Rice (Oryza sativa L.). Zhou, Yong,Tao, Yajun,Tang, Dongnan,Zhong, Jun,Wang, Yi,Yuan, Qiumei,Yu, Xiaofeng,Zhang, Yan,Wang, Yulong,Liang, Guohua,Dong, Guichun,Wang, Jun. 2017

[11]Factors controlling regional grain yield in China over the last 20 years. Wang, Xiaobin,Cai, Dianxiong,Grant, Cynthia,Hoogmoed, Willem B.,Oenema, Oene.

[12]Yield and yield component analysis of early-season rice in southern China. Mo, Hailing,Qin, Gang,Luo, Zhiyong,Zhang, Zongqiong,Chen, Caihong. 2013

[13]Dissection of combining ability for yield and related traits using introgression lines in the background of a key restorer line in rice (Oryza sativa L.). Xiang, Chao,Zhang, Hongjun,Wang, Jie,Wang, Wensheng,Gao, Yongming,Wang, Hui,Xia, Jiafa,Ye, Guoyou.

[14]Overexpression of a glyoxalase gene, OsGly I, improves abiotic stress tolerance and grain yield in rice (Oryza sativa L.). Xiong, Fangjie,Yu, Xiaohong,Gong, Xiaoping,Liu, Yongsheng,Luo, Juntao,Jiang, Yudong,Kuang, Haochi,Gao, Bijun,Niu, Xiangli,Liu, Yongsheng,Liu, Yongsheng.

[15]Mapping QTLs for improving grain yield using the USDA rice mini-core collection. Li, Xiaobai,Jia, Limeng,Wu, Dianxing,Li, Xiaobai,Agrama, Hesham,Jia, Limeng,Moldenhauer, Karen,Li, Xiaobai,Yan, Wengui,Jia, Limeng,Jackson, Aaron,McClung, Anna,Shen, Xihong,Yeater, Kathleen.

[16]Recombination between DEP1 and NRT1.1B under japonica and indica genetic backgrounds to improve grain yield in rice. Zhao, Mingzhu,Zheng, Wenjing,Zhao, Mingzhu,Geng, Xin,Bi, Wenjing,Xu, Quan,Sun, Jian,Huang, Yuwei,Wang, Qingying,Xu, Zhengjin.

[17]Nitrogen accumulation, remobilization and partitioning in rice (Oryza sativa L.) under an improved irrigation practice. Lin, XQ,Zhou, WJ,Zhu, DF,Chen, HZ,Zhang, YP. 2006

[18]Days to heading 7, a major quantitative locus determining photoperiod sensitivity and regional adaptation in rice. Gao, He,Jin, Mingna,Zheng, Xiao-Ming,Chen, Jun,Zhang, Zhe,Sheng, Peike,Ma, Jin,Ma, Weiwei,Wang, Haiyang,Wu, Chuanyin,Wan, Jianmin,Gao, He,Zhou, Kunneng,Jiang, Ling,Liu, Shijia,Wan, Jianmin,Yuan, Dingyang,Xin, Yeyun,Deng, Huafeng,Yuan, Longping,Wang, Maoqing,Huang, Dongyi.

[19]Control of Rice Embryo Development, Shoot Apical Meristem Maintenance, and Grain Yield by a Novel Cytochrome P450. Yang, Weibing,Gao, Mingjun,Yin, Xin,Zeng, Longjun,Li, Qun,He, Zuhua,Yang, Weibing,Gao, Mingjun,Yin, Xin,Zeng, Longjun,Li, Qun,He, Zuhua,Liu, Jiyun,Wang, Junmin,Zhang, Xiaoming,Xu, Yonghan,Zhang, Shubiao.

[20]Prediction of hybrid grain yield performances in Indica Rice (Oryza sativa L.) with effect-increasing loci. Ling Yinghua,Yang Zhenglin,Zhao Fangming,Zhong Bingqiang,Sang Xianchun,He Guanghua,Zha Renming,Xie Rong.

作者其他论文更多>>

Improving ratoon rice grain yield and soil carbon pools in subtropical regions through integrated crop and soil management practices

作者：Song, Lingqiong;Liu, Zhihui;Tang, Qiyuan;Huang, Min;Chen, Jiana;Wang, Weiqing;Zheng, Huabin;Chen, Yuanwei

关键词：Carbon pool management index; Grain yield; Labile organic carbon; Ratoon rice
Optimising Peanut Growth: Exogenous Calcium Enhances Photosynthesis in Phosphorus-Limited Environments

作者：Shi, Qingwen;Ma, Mingzhu;Liu, Yifei;Sun, Zhiyu;Salam, Shaikh Amjad;Zhang, Siwei;Liu, Huan;Shi, Qingwen;Zhang, Fusuo;Lambers, Hans;Bai, Chunming;Bai, Chunming;Liu, Yifei;Pang, Jiayin;Siddique, Kadambot H. M.;Lambers, Hans;Liu, Yifei;Siddique, Kadambot H. M.;Liu, Yifei;Pang, Jiayin;Lambers, Hans

关键词：calcium; feedback inhibition; peanut; phosphorus; photosynthesis
The agricultural plastic paradox: Feeding more, harming more?

作者：Wang, Kai;Liu, Xuejun;Zhang, Fusuo;Wang, Kai;Liu, Xuejun;Zhang, Fusuo;Wang, Kai;Liu, Xuejun;Zhang, Fusuo;Chadwick, David R.;Jones, Davey L.;Yan, Changrong;Reay, Michaela;Lloyd, Charlotte;Evershed, Richard P.;Ge, Tida;Ding, Fan;Wang, Jingkuan;Qi, Ruimin;Xiao, Mouliang;Jiang, Rui;Chen, Yanling;Ma, Ji;Luo, Yongming;Zhu, Yongguan

关键词：Agroecosystem resilience; Plastic pollution; Sustainable development goals; Nanoplastic
Quantifying potassium requirement and removal across crop species

作者：Carciochi, Walter D.;La Menza, Nicolas Cafaro;Donough, Christopher R.;Grassini, Patricio;Dobermann, Achim;Brouder, Sylvie M.;Volenec, Jeffrey J.;Heuschele, Deborah Jo;Oberthuer, Thomas;Sandana, Patricio;Shehu, Bello Muhammad;Pereira, Jessica Thainara S.;Soratto, Rogerio P.;Pereira, Jessica Thainara S.;Soratto, Rogerio P.;Wandri, Ruli;Wang, Yajing;He, Ping;Win, Su Su

关键词：harvest index; internal efficiency; nutrient uptake; potassium concentration; yield
Low ammonium and high nitrate input improves nitrogen use efficiency and growth in sugarcane through coordinated reprogramming of nitrogen and carbon metabolism

作者：Zhan, Jian;Zhou, Yifan;Yang, Linsheng;Deng, Ke;Zhang, Di;Meng, Bo;Wang, Huayang;Deng, Yan;Chen, Xinping;Zhang, Fusuo;Zhan, Jian;Zhou, Yifan;Yang, Linsheng;Deng, Ke;Zhang, Di;Meng, Bo;Wang, Huayang;Deng, Yan;Chen, Xinping;Zhan, Jian;Wang, Huayang;Deng, Yan;Chen, Xinping;Lakshmanan, Prakash;Lakshmanan, Prakash;Zhang, Fusuo

关键词：Ammonium-to-nitrate-ratio; Ammonium toxicity; Multi-omics; Nitrogen assimilation; Sugarcane
Water-saving management sustains yield of both ordinary paddy rice and drought-resistance rice varieties with reduced irrigation water in ratoon rice production of Central China

作者：Yang, Chen;Wang, Huiping;Wang, Yucheng;Yang, Guodong;Zhang, Meng;Wu, Xiangning;Cui, Kehui;Huang, Jianliang;Peng, Shaobing;Yuan, Shen;Wang, Bin;Xu, Le;Tu, Junming;Chen, Jie;Qi, Zheng

关键词：Ratoon rice; Variety; Water management; Water-saving and drought-resistance rice; Yield
Asparagine Synthetase Gene OsASN2 Is Crucial for Rice Seed Development and Germination

作者：Hu, Rui;Liang, Kaiming;Hu, Xiangyu;Li, Meijuan;Ye, Qunhuan;Yin, Yuanhong;Tang, Cai;Wang, Xinyu;Fu, Youqiang;Pan, Junfeng;Zhong, Xuhua;Zhang, Mingyong

关键词：asparagine; amino acid metabolism; endosperm development; rice

Improving nitrogen fertilization in rice by site-specific N management. A review

作者其他论文 更多>>

Improving ratoon rice grain yield and soil carbon pools in subtropical regions through integrated crop and soil management practices

Optimising Peanut Growth: Exogenous Calcium Enhances Photosynthesis in Phosphorus-Limited Environments

The agricultural plastic paradox: Feeding more, harming more?

Quantifying potassium requirement and removal across crop species

Low ammonium and high nitrate input improves nitrogen use efficiency and growth in sugarcane through coordinated reprogramming of nitrogen and carbon metabolism

Water-saving management sustains yield of both ordinary paddy rice and drought-resistance rice varieties with reduced irrigation water in ratoon rice production of Central China

Asparagine Synthetase Gene OsASN2 Is Crucial for Rice Seed Development and Germination

作者其他论文更多>>