Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2011, Vol. 37 ›› Issue (10): 1837-1851.doi: 10.3724/SP.J.1006.2011.01837

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Precise Postponing Nitrogen Application and Its Mechanism in Rice

ZHANG Hong-Cheng1,2,WU Gui-Cheng3,DAI Qi-Gen1,2,HUO Zhong-Yang1,2,XU Ke1,2,GAO Hui1,2,WEI Hai-Yan1,2,LÜ Xiu-Tao2,WAN Liang-Jun2,HUANG Yin-Zhong2   

  1. 1 Key Laboratory of Crop Genetics and Physiology of Jiansu Province, Yangzhou University, Yangzhou 225009, China; 2 Innovation Center of Rice Cultivation Technology in Yangtze Rive Valley, Ministry of Agriculture, Yangzhou 225009, China; 3 Bureau of Agriculture of Kunshan County, Kunshan 225300, China
  • Received:2011-02-09 Revised:2011-06-25 Online:2011-10-12 Published:2011-07-28

PDF

1378

Cited

16

Abstract: Leaf ages of nitrogen application for high yield and apparent nitrogen recovery efficiency were specified through applying nitrogen fertilizer once in middle stage of growth and development using early-maturing and late japonica rice—Wuyunjing 7, Wuxiangjing 14, Changyou 1 as materials. Based on this, we studied precise postponing nitrogen application and its mechanism. Results showed that leaf ages of nitrogen application to high yield and apparent nitrogen recovery efficiency were 3rd leaf and fourth leaf from the top in early-maturing and late japonica rice. Using nitrogen in 3rd and 4th leaf from the top, made more panicles and spikelets per panicle, larger total spikelets and stable filled-grain percentage and 1000-grain weight, and lower max number of stems and tillers, higher ratio of productive tillers to total tillers, higher nitrogen accumulation, max LAI, LAD and dry matter weight in population growth and development. Yield with “PPM” (precise promoting in the middle phase) of nitrogen was significantly more than that of CK. Compared to CK, there were more significant apparent nitrogen recovery efficiency, physiological nitrogen use efficiency, agronomic nitrogen use efficiency and yield of ear nitrogen, but lower nitrogen requirement for 100 kg grain in “PPM” of nitrogen. Mechanism of high yield and apparent nitrogen recovery efficiency in “PPM” of nitrogne was that high ratio of productive tillers to total tillers and enough population panicles were formed through consolidating population panicles and controlling non productive tillering and low effective tillering; high grain-leaf ratio (filled grains per cm2 leaf area, grain weight per cm2 leaf area), enough quantity and good quality of dry matter in heading were obtained through forming large population spikeletes, high and appropriate LAI and fine canopy structure; intense source and smooth translocation, effective sink-filling alility were enlarged through enriching dry matter accumulation after heading and coordinating producton and translocation of dry matter from population stems and sheaths.

Key words: Rice, Precise postponing nitrogen application, Mechanism of high yield and apparent nitrogen recovery efficiency

[1]Peng S-B(彭少兵), Huang J-L(黄见良), Zhong X-H(钟旭华), Yang J-C(杨建昌), Wang G-H(王光火), Zou Y-B(邹应斌), Zhang F-S(张福锁), Zhu Q-S(朱庆森), Buresh R, Witt C. Research strategy in improving fertilizer-nitrogen use efficiency of irrigated rice in China. Sci Agric Sin (中国农业科学), 2002, 35 (9): 1095?1103 (in Chinese with English abstract)
[2]Cassman K G, Harwood R R. The nature of agricultural systems: food security and environmental balance. Food Policy, 1995, 20: 439?454
[3]Ramasamy S, Ten Berge H F M, Purushothaman S. Yield formation in rice in response to drainage and nitrogen application. Field Crops Res, 1997, 51: 65?82
[4]Jing Q, Bouman B A M, Hengsdijk H, Van Keulen H, Gao W. Exploring options to combine high yield with high nitrogen use efficiencies in irrigated rice in China. Eur J Agron, 2007, 26: 166?177
[5]Yang W-Y(杨文钰), Tu N-M(屠乃美). Special Crop Cultivation (作物栽培学各论). Beijing: China Agriculture Press, 2003. pp 46?49 (in Chinese)
[6]Matsushima S(松島省三) ed. Qin Y-T(秦玉田), Miao S-C(缪世才), trans. Practical Science of Rice Cultivation (实用水稻栽培学). Beijing: Agriculture Press, 1984. pp 101?134 (in Chinese)
[7]Zou M-W(鄹木五). Research on the normalization of fertilizer application for high and stable yield in double-cropping rice. Sci Agric Sin (中国农业科学), 1983, (5): 33?38 (in Chinese with English abstract)
[8]Yao C-X(姚长溪), Jiang P-Y(蒋彭炎), Feng L-D(冯来定). Research on technologie of fertilizer-using in early of double- cropping rice. Zhejiang Agric Sci (浙江农业科学), 1983, (2): 55?60 (in Chinese with English abstract)
[9]Chen J-J(陈家驹), Li Y-Z(李义诊), Liu Z-Z(刘中柱). Research on “W” of fertilizer-using in order to increase yield of rice. Chin J Soil Sci (土壤通报), 1981, (4): 33?34 (in Chinese with English abstract) 
[10]はしかゎ しぉ(桥川潮) ed. Zhao L(赵理), trans. Basic Technologies of Rice Cultivation (稻作基本技术). Beijing: China Agricultural Science and Technology Press, 2009. pp 1?159 (in Chinese)
[11]Ling Q-H(凌启鸿), Zhang H-C(张洪程), Su Z-F(苏祖芳), Ling L(凌励). New Theory of Rice Cultivation—the Leaf-age-model of Rice (稻作新理论——水稻叶龄模式). Beijing: Science Press, 1994. pp 295?305 (in Chinese)
[12]Ling Q-H(凌启鸿). The Quality of Crop Population (作物群体质量). Shanghai: Shanghai Scientific and Technical Publishers, 2000. pp 154?197 (in Chinese)
[13]Ling Q-H(凌启鸿). Theory and Technology of Precise and Quantitative Cultivation in Rice (水稻精确定量栽培理论与技术). Beijinig: China Agriculture Press, 2007. pp 99?125 (in Chi-nese)
[14]Ling Q-H(凌启鸿), Zhang H-C(张洪程), Dai Q-G(戴其根), Ding Y-F(丁艳锋), Ling L(凌励), Su Z-F(苏祖芳), Xu M(徐茂), Que J-H(阙金华), Wang S-H(王绍华). Study on precise and quantitative N application in rice. Sci Agric Sin (中国农业科学), 2005, 38 (12): 2457?2467 (in Chinese with English abstract)
[15]Zhang H-C(张洪程), Wang X-Q(王秀芹), Dai Q-G(戴其根), Huo Z-Y(霍中洋), Xu K(许轲). Effects of N-application rate on yield, quality and characters of nitrogen uptake of hybrid rice variety Liangyoupeijiu. Sci Agric Sin (中国农业科学), 2003, 36(7): 800?806 (in Chinese with English abstract)
[16]Wang X-Q(王秀芹), Zhang H-C(张洪程), Huang Y-Z(黄银忠), Dai Q-G(戴其根), Huo Z-Y(霍中洋), Xu K(许轲), Shao S-Z(邵世志), Xu X-J(徐巡军). Effects of N-application rate on the characters of uptake nitrogen and nitrogen recovery of different rice varieties. J Shanghai Jiaotong Univ (Agric Sci)(上海交通大学学报?农业科学版), 2003, 21(4): 325?330 (in Chinese with English abstract)
[17]Wan L-J(万靓军), Zhang H-C(张洪程), Huo Z-Y(霍中洋), Lin Z-C(林忠成), Dai Q-G(戴其根), Xu K(许轲), Zhang J(张军). Effects of nitrogen application regimes on yield, quality, and nitrogen use efficiency of super japonica hybrid rice. Acta Agron Sin (作物学报), 2007, 33(2): 175?182 (in Chinese with English abstract)
[18]Wan L-J(万靓军), Huo Z-Y(霍中洋), Gong Z-K(龚振恺), Zhang H-C(张洪程), Lin Z-C(林忠成), Dai Q-G(戴其根), Xu K(许轲). Effect of nitrogen application on main quality and RVA profile characters of hybrid rice. Acta Agron Sin (作物学报), 2006, 32(10): 1491?1497 (in Chinese with English abstract)
[19]Liu Y-Y(刘艳阳), Zhang H-C(张洪程), Dai Q-G(戴其根), Huo Z-Y(霍中洋), Xu K(许轲). Effects of nitrogen application on RVA profile chatacters under different soil fertility levels. Chin J Rice Sci (中国水稻科学), 2006, 20(5): 529?534 (in Chinese with English abstract)
[20]Wu W-G(吴文革), Zhang H-C(张洪程), Chen Y(陈烨), Li J(李杰), Qian Y-F(钱银飞), Wu G-C(吴桂成), Zhai C-Q(翟超群). Dry-matter accumulation and nitrogen absorption and utilization in middle-season indica super hybrid rice. Acta Agron Sin (作物学报), 2008, 34(6): 1060?1068 (in Chinese with English abstract)
[21]Lin Z-C(林忠成). Effects of Nitrogen Application on Yield, Quality and Nitrogen Absorption and Utilization in Double-Cropping Rice. MS Dissertation of Yangzhou University, 2007. pp 1?2 (in Chinese with English abstract)
[22]Luo M(罗明). Study on N-application of the Three Kinds of Cultivating System of Rice for Small, Middle and Big Shoot. MS Dissertation of Yangzhou University, 2003. pp 1?2 (in Chinese with English abstract)
[1] TIAN Tian, CHEN Li-Juan, HE Hua-Qin. Identification of rice blast resistance candidate genes based on integrating Meta-QTL and RNA-seq analysis [J]. Acta Agronomica Sinica, 2022, 48(6): 1372-1388.
[2] ZHENG Chong-Ke, ZHOU Guan-Hua, NIU Shu-Lin, HE Ya-Nan, SUN wei, XIE Xian-Zhi. Phenotypic characterization and gene mapping of an early senescence leaf H5(esl-H5) mutant in rice (Oryza sativa L.) [J]. Acta Agronomica Sinica, 2022, 48(6): 1389-1400.
[3] ZHOU Wen-Qi, QIANG Xiao-Xia, WANG Sen, JIANG Jing-Wen, WEI Wan-Rong. Mechanism of drought and salt tolerance of OsLPL2/PIR gene in rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1401-1415.
[4] ZHENG Xiao-Long, ZHOU Jing-Qing, BAI Yang, SHAO Ya-Fang, ZHANG Lin-Ping, HU Pei-Song, WEI Xiang-Jin. Difference and molecular mechanism of soluble sugar metabolism and quality of different rice panicle in japonica rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1425-1436.
[5] YAN Jia-Qian, GU Yi-Biao, XUE Zhang-Yi, ZHOU Tian-Yang, GE Qian-Qian, ZHANG Hao, LIU Li-Jun, WANG Zhi-Qin, GU Jun-Fei, YANG Jian-Chang, ZHOU Zhen-Ling, XU Da-Yong. Different responses of rice cultivars to salt stress and the underlying mechanisms [J]. Acta Agronomica Sinica, 2022, 48(6): 1463-1475.
[6] YANG Jian-Chang, LI Chao-Qing, JIANG Yi. Contents and compositions of amino acids in rice grains and their regulation: a review [J]. Acta Agronomica Sinica, 2022, 48(5): 1037-1050.
[7] DENG Zhao, JIANG Nan, FU Chen-Jian, YAN Tian-Zhe, FU Xing-Xue, HU Xiao-Chun, QIN Peng, LIU Shan-Shan, WANG Kai, YANG Yuan-Zhu. Analysis of blast resistance genes in Longliangyou and Jingliangyou hybrid rice varieties [J]. Acta Agronomica Sinica, 2022, 48(5): 1071-1080.
[8] YANG De-Wei, WANG Xun, ZHENG Xing-Xing, XIANG Xin-Quan, CUI Hai-Tao, LI Sheng-Ping, TANG Ding-Zhong. Functional studies of rice blast resistance related gene OsSAMS1 [J]. Acta Agronomica Sinica, 2022, 48(5): 1119-1128.
[9] ZHU Zheng, WANG Tian-Xing-Zi, CHEN Yue, LIU Yu-Qing, YAN Gao-Wei, XU Shan, MA Jin-Jiao, DOU Shi-Juan, LI Li-Yun, LIU Guo-Zhen. Rice transcription factor WRKY68 plays a positive role in Xa21-mediated resistance to Xanthomonas oryzae pv. oryzae [J]. Acta Agronomica Sinica, 2022, 48(5): 1129-1140.
[10] WANG Xiao-Lei, LI Wei-Xing, OU-YANG Lin-Juan, XU Jie, CHEN Xiao-Rong, BIAN Jian-Min, HU Li-Fang, PENG Xiao-Song, HE Xiao-Peng, FU Jun-Ru, ZHOU Da-Hu, HE Hao-Hua, SUN Xiao-Tang, ZHU Chang-Lan. QTL mapping for plant architecture in rice based on chromosome segment substitution lines [J]. Acta Agronomica Sinica, 2022, 48(5): 1141-1151.
[11] WANG Ze, ZHOU Qin-Yang, LIU Cong, MU Yue, GUO Wei, DING Yan-Feng, NINOMIYA Seishi. Estimation and evaluation of paddy rice canopy characteristics based on images from UAV and ground camera [J]. Acta Agronomica Sinica, 2022, 48(5): 1248-1261.
[12] KE Jian, CHEN Ting-Ting, WU Zhou, ZHU Tie-Zhong, SUN Jie, HE Hai-Bing, YOU Cui-Cui, ZHU De-Quan, WU Li-Quan. Suitable varieties and high-yielding population characteristics of late season rice in the northern margin area of double-cropping rice along the Yangtze River [J]. Acta Agronomica Sinica, 2022, 48(4): 1005-1016.
[13] CHEN Yue, SUN Ming-Zhe, JIA Bo-Wei, LENG Yue, SUN Xiao-Li. Research progress regarding the function and mechanism of rice AP2/ERF transcription factor in stress response [J]. Acta Agronomica Sinica, 2022, 48(4): 781-790.
[14] WANG Lyu, CUI Yue-Zhen, WU Yu-Hong, HAO Xing-Shun, ZHANG Chun-Hui, WANG Jun-Yi, LIU Yi-Xin, LI Xiao-Gang, QIN Yu-Hang. Effects of rice stalks mulching combined with green manure (Astragalus smicus L.) incorporated into soil and reducing nitrogen fertilizer rate on rice yield and soil fertility [J]. Acta Agronomica Sinica, 2022, 48(4): 952-961.
[15] QIN Qin, TAO You-Feng, HUANG Bang-Chao, LI Hui, GAO Yun-Tian, ZHONG Xiao-Yuan, ZHOU Zhong-Lin, ZHU Li, LEI Xiao-Long, FENG Sheng-Qiang, WANG Xu, REN Wan-Jun. Characteristics of panicle stem growth and flowering period of the parents of hybrid rice in machine-transplanted seed production [J]. Acta Agronomica Sinica, 2022, 48(4): 988-1004.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Add: No.12 Zhongguancun South Street, Beijing 100081,China Email:xbzw@chinajournal.net.cn
Supported by Beijing Magtech Co.Ltd