Nguyen, H.T.T.
[Department of Biology, Hanoi Universty of Agriculture,Hanoi]
Van Pham, C.
[Department of FoodCrop Science, Hanoi University of Agriculture, Hanoi]
Bertin, Pierre
[UCL]
Nitrogen use efficiency (NUE) in cultivated rice has become of utmost importance due to ecological and economical consequences of nitrogen (N) losses. However, detailed information on the components of NUE-physiological, absorption and agronomical NUEs-is lacking. The present study aimed to determine the components of NUE for three cultivars of Asian and African rices [IR64 (Oryza sativa indica), Azucena (O. sativa japonica) and TOG7105 (O. glaberrima)] exposed to a wide range of N supply, from excess to deficiency-from 4× to 1/8× of the standard Yoshida solution (1×). Increasing the N supply to 2× or 4× did not induce much change for most parameters, including tissue N concentrations and pNUE. However, aNUE and agNUE decreased gradually as the N supply increased from 1/2× to 4×. In contrast, lowering the N supply, particularly to 1/4× or 1/8×, induced a significant decrease in most measured parameters, except NUEs. The pNUE increased gradually when lowering the N supply from 1× to 1/8×, while aNUE and agNUE were maximal at 1/2 and/or 1/4× according to the cultivar. In contrast, the Fv/Fm and PSII values remained unchanged. Differences between cultivars were low. However, the O. glaberrima cultivar showed a significantly lower aNUE and agNUE than both O. sativa cultivars under low N supply (1/4 and 1/8×). These results demonstrate that all NUE components were sharply and differentially affected by low N supply, while the PSII remained unaffected. These results are important for determining the cultivar and N supply with the best balance between intensive and sustainable rice cultivation. © 2014 Springer Science+Business Media Dordrecht.
- AMANO Takahisa, ZHU Qingsen, WANG Yulong, INOUE Naoto, TANAKA Hidehiko, Case Studies on High Yields of Paddy Rice in Jiangsu Province, China. I. Characteristics of grain production., 10.1626/jcs.62.267
- Bolhar-Nordenkampf H. R., Long S. P., Baker N. R., Oquist G., Schreiber U., Lechner E. G., Chlorophyll Fluorescence as a Probe of the Photosynthetic Competence of Leaves in the Field: A Review of Current Instrumentation, 10.2307/2389624
- Bouwman AF, Boumans LJM, Batjes NH (2002a) Estimation of global NH3 volatilization loss from synthetic fertilizers and animal manure applied to arable lands and grasslands. Global Biogeochem Cycles 16:8-1–8-16
- Bouwman AF, Boumans LJM, Batjes NH (2002b) Emissions of N2O and NO from fertilised fields: summary of available measurement data. Global Biogeochem Cycles 16:61–613
- Chandra R., Takeuchi H., Hasegawa T., Hydrothermal pretreatment of rice straw biomass: A potential and promising method for enhanced methane production, 10.1016/j.apenergy.2012.01.027
- Chaturvedi I (2005) Effect of nitrogen fertilizers on growth, yield and quality of hybrid rice (Oryza sativa). J Cent Eur Agric 6:611–618
- Cruz J.L., Mosquim P.R., Pelacani C.R., Araújo W.L., DaMatta F.M., Photosynthesis impairment in cassava leaves in response to nitrogen deficiency, 10.1023/a:1027353305250
- DaMatta Fábio M., Loos Rodolfo A., Silva Emerson A., Loureiro Marcelo E., Limitations to photosynthesis inCoffea canephoraas a result of nitrogen and water availability, 10.1078/0176-1617-00807
- Davies D B, Sylvester-Bradley R, The contribution of fertiliser nitrogen to leachable nitrogen in the UK: A review, 10.1002/jsfa.2740680402
- Demmig Barbara, Bj�rkman Olle, Comparison of the effect of excessive light on chlorophyll fluorescence (77K) and photon yield of O2 evolution in leaves of higher plants, 10.1007/bf00391092
- Evans John R., Photosynthesis and nitrogen relationships in leaves of C3 plants, 10.1007/bf00377192
- Ferguson R. B., Hergert G. W., Schepers J. S., Gotway C. A., Cahoon J. E., Peterson T. A., Site-Specific Nitrogen Management of Irrigated Maize, 10.2136/sssaj2002.0544
- Gallais A., Hirel B., An approach to the genetics of nitrogen use efficiency in maize, 10.1093/jxb/erh006
- Giles Jim, Nitrogen study fertilizes fears of pollution, 10.1038/433791a
- Good Allen G., Shrawat Ashok K., Muench Douglas G., Can less yield more? Is reducing nutrient input into the environment compatible with maintaining crop production?, 10.1016/j.tplants.2004.10.008
- Guidi L, Di Cagno R, Soldatini G.F, Screening of bean cultivars for their response to ozone as evaluated by visible symptoms and leaf chlorophyll fluorescence, 10.1016/s0269-7491(99)00170-0
- Hamaoka Norimitsu, Uchida Yuri, Tomita Masayoshi, Kumagai Etsushi, Araki Takuya, Ueno Osamu, Genetic Variations in Dry Matter Production, Nitrogen Uptake, and Nitrogen Use Efficiency in the AA Genome Oryza Species Grown under Different Nitrogen Conditions, 10.1626/pps.16.107
- Hasegawa H (2003) High-yielding rice cultivars perform best even at reduced nitrogen fertilizer rate. CropSci 43:921–926
- Hashimoto Maho, Herai Yoshinori, Nagaoka Toshinori, Kouno Kenji, Nitrate leaching in granitic regosol as affected by N uptake and transpiration by corn, 10.1111/j.1747-0765.2007.00134.x
- Hawkesford MJ (2011) An overview of nutrient use efficiency and strategies for crop improvement. Wiley, Sussex, pp 5–19
- Hirel B., Le Gouis J., Ney B., Gallais A., The challenge of improving nitrogen use efficiency in crop plants: towards a more central role for genetic variability and quantitative genetics within integrated approaches, 10.1093/jxb/erm097
- Inthapanya P, Sipaseuth, Sihavong P, Sihathep V, Chanphengsay M, Fukai S, Basnayake J, Genotype differences in nutrient uptake and utilisation for grain yield production of rainfed lowland rice under fertilised and non-fertilised conditions, 10.1016/s0378-4290(99)00070-2
- Jiang Ligeng, Dong Dengfeng, Gan Xiuqin, Wei Shanqing, Photosynthetic efficiency and nitrogen distribution under different nitrogen management and relationship with physiological N-use efficiency in three rice genotypes, 10.1007/s11104-004-3116-9
- Jiao Demao, Ji Benhua, Li Xia, 10.1023/a:1025848110029
- Ju Jing, Yamamoto Yoshinori, Wang Yulong, Shan Yuhua, Dong Guichun, Yoshida Tetsushi, Miyazaki Akira, Genotypic differences in grain yield, and nitrogen absorption and utilization in recombinant inbred lines of rice under hydroponic culture, 10.1111/j.1747-0765.2006.00041.x
- Ju Jing, Yamamoto Yoshinori, Wang Yulong, Shan Yuhua, Dong Guichun, Miyazaki Akira, Yoshida Tetsushi, Genotypic Differences in Dry Matter Accumulation, Nitrogen Use Efficiency and Harvest Index in Recombinant Inbred Lines of Rice under Hydroponic Culture, 10.1626/pps.12.208
- Khamis S., Lamaze T., Lemoine Y., Foyer C., Adaptation of the Photosynthetic Apparatus in Maize Leaves as a Result of Nitrogen Limitation : Relationships between Electron Transport and Carbon Assimilation, 10.1104/pp.94.3.1436
- Kumagai E., Araki T., Kubota F., Effects of nitrogen supply restriction on gas exchange and photosystem 2 function in flag leaves of a traditional low-yield cultivar and a recently improved high-yield cultivar of rice (Oryza sativa L.), 10.1007/s11099-007-0084-3
- Lawlor D. W., Carbon and nitrogen assimilation in relation to yield: mechanisms are the key to understanding production systems, 10.1093/jexbot/53.370.773
- Lawlor David W., Lemaire Gilles, Gastal François, Nitrogen, Plant Growth and Crop Yield, Plant Nitrogen (2001) ISBN:9783642087318 p.343-367, 10.1007/978-3-662-04064-5_13
- Lea P.J., Azevedo R.A., Nitrogen use efficiency. 1. Uptake of nitrogen from the soil, 10.1111/j.1744-7348.2006.00101.x
- Lea P.J., Azevedo R.A., Nitrogen use efficiency. 2. Amino acid metabolism, 10.1111/j.1744-7348.2007.00200.x
- Lee HJ, Lee SH, Chung JH (2004) Variation of nitrogen use efficiency and its relationships with growth characteristics in Korean rice cultivars. In: Proceedings of the 4th international crop science congress Brisbane, Australia, 26 Sep–1 Oct 2004
- Li Yong, Yang Xiuxia, Ren Binbin, Shen Qirong, Guo Shiwei, Why Nitrogen Use Efficiency Decreases Under High Nitrogen Supply in Rice (Oryza sativa L.) Seedlings, 10.1007/s00344-011-9218-8
- Lu Congming, Zhang Jianhua, Photosynthetic CO2 assimilation, chlorophyll fluorescence and photoinhibition as affected by nitrogen deficiency in maize plants, 10.1016/s0168-9452(99)00207-1
- Mae Tadahiko, Inaba Ayako, Kaneta Yoshihiro, Masaki Satoshi, Sasaki Mizuo, Aizawa Mayu, Okawa Shigenori, Hasegawa Shuichi, Makino Amane, A large-grain rice cultivar, Akita 63, exhibits high yields with high physiological N-use efficiency, 10.1016/j.fcr.2005.10.003
- Misselbrook T.H., Van Der Weerden T.J., Pain B.F., Jarvis S.C., Chambers B.J., Smith K.A., Phillips V.R., Demmers T.G.M., Ammonia emission factors for UK agriculture, 10.1016/s1352-2310(99)00350-7
- Moll R. H., Kamprath E. J., Jackson W. A., Analysis and Interpretation of Factors Which Contribute to Efficiency of Nitrogen Utilization1, 10.2134/agronj1982.00021962007400030037x
- Mosier A, Syers JK, Freney JR (2004) Agriculture and the nitrogen cycle. Assessing the impacts of fertilizer use on food production and the environment. SCOPE 65. Island Press, Washington, DC
- Namai Sachiko, Toriyama Kazunobu, Fukuta Yoshimichi, Genetic variations in dry matter production and physiological nitrogen use efficiency in rice (Oryza sativa L.) varieties, 10.1270/jsbbs.59.269
- Nosengo Nicola, Fertilized to death, 10.1038/425894a
- Ortiz-Monasterio R. J. I., Sayre K. D., Rajaram S., McMahon M., Genetic Progress in Wheat Yield and Nitrogen Use Efficiency under Four Nitrogen Rates, 10.2135/cropsci1997.0011183x003700030033x
- Pathak RR, Ahmed A, Lachab S, Raghuram N (2008) Molecular physiology of plant nitrogen use efficiency and biotechnological options for its enhancement. Curr Sci 94:1394–1401
- Peng S., Cassman K.G., Virmani S.S., Sheehy J., Khush G.S., Yield Potential Trends of Tropical Rice since the Release of IR8 and the Challenge of Increasing Rice Yield Potential, 10.2135/cropsci1999.3961552x
- Place G. A., Sims J. L., Hall V. L., Effects of Nitrogen and Phosphorus Fertilization on Growth, Yield, and Cooking Characteristics of Rice1, 10.2134/agronj1970.00021962006200020018x
- Purnomo E, Honma S, Risanthi E, Hasegawa T, Hashidoko Y, Osaki M (2006) Contrast response of Siam Unus or IR64 variety growth to nitrogen application in acid sulphate soil: a glass house study. J Tanah Trop 12:105–110. http://www.intechopen.com/books/hydroponics–a–standard–methodology–for–plant–biological–researches/the–use–of–hydroponics–in–abiotic–stress–tolerance–research . Accessed 1 Aug 2012
- Salim M (2002) Nitrogen induced changes in rice plants: effects on host–insect interactions. Pak J Agric Res 17:210–220
- Samonte Stanley Omar PB., Wilson Lloyd T., Medley James C., Pinson Shannon R. M., McClung Anna M., Lales Joveno S., Nitrogen Utilization Efficiency, 10.2134/agronj2005.0180
- Shavrukov Y, Genc Y, Hayes J (2012) The use of hydroponics in abiotic stress tolerance. http://www.intechopen.com/books/hydroponics–a–standard–methodology–for–plant–biological–researches/the–use–of–hydroponics–in–abiotic–stress–tolerance–research . Accessed 10 April 2013
- Singh U, Ladha J.K, Castillo E.G, Punzalan G, Tirol-Padre A, Duqueza M, Genotypic variation in nitrogen use efficiency in medium- and long-duration rice, 10.1016/s0378-4290(98)00084-7
- Terashima I, Evans JR (1988) Effects of light and nitrogen nutrition on the organization of the photosynthetic apparatus in spinach. Plant Cell Physiol 29:143–155
- Tirol-Padre A., Ladha J.K., Singh U., Laureles E., Punzalan G., Akita S., Grain yield performance of rice genotypes at suboptimal levels of soil N as affected by N uptake and utilization efficiency, 10.1016/0378-4290(95)00095-x
- Tong Hanghang, Faloutsos Christos, Center-piece subgraphs : problem definition and fast solutions, 10.1145/1150402.1150448
- World Rice Statistics. http://www.irri.org ; FAOSTAT. http://apps.fao.org
- Yang Jianchang, Peng Shaobing, Zhang Zujian, Wang Zhiqin, Visperas Romeo M., Zhu Qingsen, Grain and Dry Matter Yields and Partitioning of Assimilates in Japonica/Indica Hybrid Rice, 10.2135/cropsci2002.0766
- Yoshida S, Forno DA, Cock JH, Gomez KA (1976) Laboratory manual for physiological studied of rice, 3rd edn. Int Rice Res Inst, Manila
- Zhu ZL (2003) Rational use of inorganic and organic fertilizers and development of environment friendly fertilization system. J Chin Acad Sci 18:89–91
- Zhu Z.L., Chen D.L., 10.1023/a:1021107026067
- Hirel B., Towards a Better Understanding of the Genetic and Physiological Basis for Nitrogen Use Efficiency in Maize, 10.1104/pp.125.3.1258
- Koutroubas S.D, Ntanos D.A, Genotypic differences for grain yield and nitrogen utilization in Indica and Japonica rice under Mediterranean conditions, 10.1016/s0378-4290(03)00067-4
- Wu P., Luo A., Zhu J., Yang J., Huang N., Senadhira D., 10.1023/a:1004288427140
- Wu P., Hu B., Liao C.Y., Zhu J.M., Wu Y.R., Senadhira D., Paterson A.H., 10.1023/a:1004321218387
- Samborski Stanisław, Kozak Marcin, Azevedo Ricardo A., Does nitrogen uptake affect nitrogen uptake efficiency, or vice versa?, 10.1007/s11738-008-0164-4
Bibliographic reference |
Nguyen, H.T.T. ; Van Pham, C. ; Bertin, Pierre. The effect of nitrogen concentration on nitrogen use efficiency and related parameters in cultivated rices (Oryza sativa L. subsp. indica and japonica and O. glaberrima Steud.) in hydroponics. In: Euphytica : international journal on plant breeding, Vol. 198, no.1, p. 137-151 (2014) |
Permanent URL |
http://hdl.handle.net/2078.1/156428 |