Rice (Oryza sativa. L) genetic diversity for early vigor and drought ...

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IntroductionREFERENCESAsch, F., Sow, A. and Dingkuhn, M. (1999). "Reserve mobilization, dry matter partitioning andspecific leaf area in seedlings of African rice cultivars differing in early vigor." Field Crops Research62(2-3): 191-202.Baker, J. T., Allen, L. H. and Boote, K. J. (1990). "Growth and Yield Responses of Rice to Carbon-Dioxide Concentration." Journal of Agricultural Science 115: 313-320.Berger, B., Parent, B. and Tester, M. (2010). "High-throughput shoot imaging to study droughtresponses." Journal of Experimental Botany 61(13): 3519-3528.Blum, A. (2009). "Effective use of water (EUW) and not water-use efficiency (WUE) is the target ofcrop yield improvement under drought stress." Field Crops Research 112(2-3): 119-123.Botwright, T. L., Condon, A. G., Rebetzke, G. J. and Richards, R. A. (2002). "Field evaluation of earlyvigour for genetic improvement of grain yield in wheat." Australian Journal of Agricultural Research53(10): 1137-1145.Bouman, B. A. M., Humphreys, E., Tuong, T. P. and Barker, R. (2007). Rice and water. Advances inAgronomy, Vol 92. San Diego, Elsevier Academic Press Inc. 92: 187-237.Brouwer, R. (1983). "Functional equilibrium: sense or nonsense?" Netherlands Journal of AgriculturalScience 31: 335-368.Chen, H. D., He, H., Zou, Y. J., Chen, W., Yu, R. B., Liu, X., Yang, Y., Gao, Y. M Cabuslay, G. S., Ito, O.and Alejar, A. A. (2002). "Physiological evaluation of responses of rice (Oryza sativa L.) to waterdeficit." Plant Science 163(4): 815-827.Cairns, J. E., Impa, S. M., O'Toole, J. C., Jagadish, S. V. K. and Price, A. H. (2011). "Influence of thesoil physical environment on rice (Oryza sativa L.) response to drought stress and its implications fordrought research." Field Crops Research 121(3): 303-310.Cairns, J. E., Namuco, O. S., Torres, R., Simborio, F. A., Courtois, B., Aquino, G. A. and Johnson, D. E.(2009). "Investigating early vigour in upland rice (Oryza sativa L.): Part II. Identification of QTLscontrolling early vigour under greenhouse and field conditions." Field Crops Research 113(3): 207-217.Cabuslay, G. S., Ito, O. and Alejar, A. A. (2002). "Physiological evaluation of responses of rice (Oryzasativa L.) to water deficit." Plant Science 163(4): 815-827Chapman, S., Cooper, M., Podlich, D. and Hammer, G. (2003). "Evaluating plant breeding strategiesby simulating gene action and dryland environment effects." Agronomy Journal 95(1): 99-113.Xu, J. L., Fan, L. M., Li, Y., Li, Z. K. and Deng, X. W. (2011). "Development and application of a set ofbreeder-friendly SNP markers for genetic analyses and molecular breeding of rice (Oryza sativa L.)."Theoretical and Applied Genetics 123(6): 869-879.Condon, A. G., Richards, R. A., Rebetzke, G. J. and Farquhar, G. D. (2004). "Breeding for high wateruseefficiency." Journal of Experimental Botany 55(407): 2447-2460.22
IntroductionCourtois, B. and Lafitte, R. (1999). Improving rice for drought-prone upland environments. Geneticimprovement of rice for water-limited environments. J. O'Toole , O. Ito and B. Hardy. los Banos,Philippines.Courtois, B., McLaren, G., Sinha, P. K., Prasad, K., Yadav, R. and Shen, L. (2000). "Mapping QTLsassociated with drought avoidance in upland rice." Molecular Breeding 6(1): 55-66.Dingkuhn, M., Johnson, D. E., Sow, A. and Audebert, A. Y. (1999). "Relationships between uplandrice canopy characteristics and weed competitiveness." Field Crop Research 61(1): 79-95.Dingkuhn, M., Jones, M. P., Johnson, D. E. and Sow, A. (1998). "Growth and yield potential of Orizasativa and O. glaberrima upland rice cultivars and their interspecific progenies." Field Crop Research57: 57-69.Dingkuhn, M., Luquet, D., Clément-Vidal, A., Tambour, L., Kim, H. K. and Song, Y. H. (2007). Is plantgrowth driven by sink regulation? Implications for crop models, phenotyping approaches andideotypes. Scale and Complexity in Plant Systems Research: Gene-Plant-Crop Relations. P. C. S. H.J.Spiertz, H.H. van Laar. Wageningen. 21: 157-170.Dingkuhn, M., Luquet, D., Quilot, B. and Reffye, P. D. (2005). "Environmental and genetic control ofmorphogenesis in crops: Towards models simulating phenotypic plasticity." Australian Journal ofAgricultural Research 56: 1-14.Dingkuhn, M., Penning de Vries, F. W. T., De Datta, S. K. and van Laar, H. H. (1991). "Concepts for anew plant type for direct seeded flooded tropical rice." Direct Seeded Flooded Rice in the Tropics.International Rice Research Institute: 17-38.FAOSTAT. (2011). "http://faostat.fao.org/." Retrieved 01.2012.Farooq, M., Siddique, K. H. M., Rehman, H., Aziz, T., Lee, D. J. and Wahid, A. (2011). "Rice directseeding: Experiences, challenges and opportunities." Soil & Tillage Research 111(2): 87-98.Farooq, M., Wahid, A., Kobayashi, N., Fujita, D. and Basra, S. M. A. (2009). "Plant drought stress:effects, mechanisms and management." Agronomy for Sustainable Development 29(1): 185-212.Fernie, A. R. and Schauer, N. (2009). "Metabolomics-assisted breeding: a viable option for cropimprovement?" Trends in Genetics 25(1): 39-48Fukai, S. and Cooper, M. (1995). "Development of drought-resistant cultivars usingPhysio_morphological traits in rice." Field Crops Research 40(2): 67-86.Furbank, R. T. and Tester, M. (2011). "Phenomics - technologies to relieve the phenotypingbottleneck." Trends in Plant Science 16(12): 635-644.Garris, A. J., Tai, T. H., Coburn, J., Kresovich, S. and McCouch, S. (2005). "Genetic structure anddiversity in Oryza sativa L." Genetics 169(3): 1631-1638.GCP. (2005). "Generation Challenge Programme - cultivating plant diversity for the resource poor."2005.23
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Page 6 and 7: IntroductionTable of contentsAknowl
Page 8 and 9: IntroductionIntroductionCONTEXTHost
Page 10 and 11: IntroductionRice crop performance u
Page 12 and 13: IntroductionEarly vigor was also re
Page 14 and 15: Introductionconsidering traits in a
Page 16 and 17: IntroductionPhotosynthesis is one o
Page 18 and 19: IntroductionThis PhD work focuses t
Page 20 and 21: IntroductionFigure 3. Dry-down expe
Page 24 and 25: IntroductionGlaszmann, J. C., Benoi
Page 26 and 27: IntroductionMcNally, K. L., Childs,
Page 28 and 29: Introductionbiotechnologically and
Page 30 and 31: Introduction30
Page 32 and 33: IntroductionINTRODUCTIONEarly vigor
Page 34 and 35: IntroductionThe underlying hypothes
Page 36 and 37: IntroductionMeasurement of environm
Page 38 and 39: IntroductionRESULTSRange of environ
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Page 42 and 43: IntroductionTable 2: Matrix of corr
Page 44 and 45: Introductionwhether DR affected RGR
Page 46 and 47: Introductiontwo different rice dive
Page 48 and 49: IntroductionCONCLUSIONSThis study t
Page 50 and 51: IntroductionMcNally K, Childs KL. (
Page 52 and 53: IntroductionChapter II : Phenomics
Page 54 and 55: Introductiongrowth (leaf appearance
Page 56 and 57: IntroductionTable 1 Description of
Page 58 and 59: IntroductionFTSW ' AW WPFC WP(Eq.1)
Page 60 and 61: IntroductionIn Eq.5 d and c are the
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Page 64 and 65: IntroductionEffect of water deficit
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IntroductionADP-glucose pyrophospho
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IntroductionKato, Y., Hirotsu, S.,
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IntroductionZhao, D. L., Atlin, G.
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IntroductionSynthesis, discussion a
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Introduction(Phenomics of Rice for
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IntroductionConsequently, as descri
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Introductionunder well watered cond
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IntroductionAppendix I Article Luqu
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IntroductionSome model parameters w
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Introductionshow restrained tiller
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IntroductionPlasto:CR (0.730) > SDW
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Introductioneffects on early plant
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Introductionassimilate invested, th
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Introductionsignal state variable.
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IntroductionItoh JI, Hasegawa A, Ki
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IntroductionTABLESTable 3 : list of
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IntroductionIctMGRPlastoKrespTbKdfE
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IntroductionTDW (g)108642DR = 0.025
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