Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. SD Wullschleger. Biochemical limitations of carbon assimilation in C 3 plants—a retrospective analysis of the
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  2. B Ehdaie, AE Hall, GD Farquhar, HT Nguyen, JG Waines. Water-use efficiency and carbon isotope discrimi-
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  3. JE Pallas Jr, YB Samish. Photosynthetic response of peanut. Crop Sci 14:478–482, 1974.

  4. JE Pallas Jr. Photosynthetis traits of selected peanut genotypes. Peanut Sci 9:14–17, 1982.

  5. WD Branch, JE Pallas Jr. Heterosis of apparent photosynthesis rate in Arachis hypogaeaL. Peanut Sci
    11:56–57, 1984.

  6. F Mojayad, C Planchon. Stomatal and photosynthetic adjustment to water deficit as the expression of hetero-
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  7. B Martin, H Kebede, C Rilling. Photosynthetic differences among Lycopersiconspecies and Triticum aestivum
    cultivars. Crop Sci 34:113–118, 1994.

  8. GC Wright, RC Nageswara Rao, GD Farquhar. Water-use efficiency and carbon isotope discrimination in
    peanut under water deficit conditions. Crop Sci 34:92–97, 1994.

  9. PQ Craufurd, TR Wheeler, RH Ellis, RJ Summerfield, JH Williams. Effect of temperature and water deficit on
    water-use efficiency, carbon isotope discrimination, and specific leaf area in peanut. Crop Sci 39:136–142, 1999.

  10. AG Condon, RA Richards, GD Farquhar. Carbon isotope discrimination is positively correlated with grain
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  11. D Shimshi, J Ephrat. Stomatal behavior of wheat cultivars in relation to their transpiration and photosynthesis
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  12. RC Johnson, H Kebede, DW Mornhinweg, BF Carver, A Lanerayburn, HT Nguyen. Photosynthetic differences
    amongTriticumaccessions at tillering. Crop Sci 27:1046–1050, 1987.

  13. RL Dunstone, RM Gifford, LT Evans. Photosynthetic characteristics of modern and primitive wheat species in
    relation to ontogeny and adaptation to light. Aust J Biol Sci 26:295–307, 1973.

  14. J Masle, GD Farquhar. Effects of soil strength on the relation of water use efficiency and growth to carbon iso-
    tope discrimination in wheat seedlings. Plant Physiol 86:32–38, 1988.

  15. JW White, JA Castillo, J Ehleringer. Associations between productivity, root growth, and carbon isotope dis-
    crimination in Phaseolus vulgarisunder water deficit. Aust J Plant Physiol 17:189–198, 1990.

  16. AG Condon, RA Richards. Broad sense heritability and GXE interaction for carbon isotope discrimination in
    field grown wheat. Aust J Agric Res 43:921–934, 1992.

  17. IM Ray, MS Townsend, CM Muncy, JA Henning. Heritabilities of water-use efficiency traits and correlations
    with agronomic traits in water-stressed alfalfa. Crop Sci 39:494–498, 1999.

  18. RC Johnson, LM Bassett. Carbon isotope discrimination and water use efficiency in four cool season grasses.
    Crop Sci 31:157–162, 1991.

  19. PC Pheloung, KHM Siddique. Contribution of stem dry matter to grain yield in wheat cultivars. Aust J Plant
    Physiol 18:53–64, 1991.

  20. DS Falconer. Introduction to Quantitative Genetics. New York: Longman Group, 1981.

  21. MH O’Leary. Carbon isotope fractionation in plants. Phytochemistry 20:553–567, 1981.

  22. WJS Downton, WJR Grant, SP Robinson. Photosynthetic and stomatal responses of spinach leaves to salt
    stress. Plant Physiol 78:85–88, 1985.

  23. RD Guy, DM Reid. Photosynthesis and the influences of CO 2 enrichment on ^13 C values in a C 3 halophyte.
    Plant Cell Environ 9:65–72, 1986.

  24. K Winter, JAM Holtum, GE Edwards, MH O’Leary. Effect of low relative humidity on ^13 C values in two C 3
    grasses and in Panicum melioides, a C 3 and C 4 intermediate species. J Exp Bot 33:88–91, 1982.

  25. BN Sponchiado, JW White, JA Castillo, PG James. Root growth of common bean cultivars in relation to
    drought tolerance in environments with contrasting soil types. Exp Agric 25:249–257, 1989.

  26. E Acevedo. Improvement of winter cereal crops in Mediterranean environments. Use of yield, morphological
    and physiological traits. In: E Acevedo, AP Conesa, P Monneveux, JP Srivastava, eds. Physiology-Breeding
    of Winter Cereals for Stressed Mediterranean Environments. Paris: INRA, 1991.

  27. NH Nam, GV Subbarao, YS Chauhan, C Johansen. Importance of canopy attributes in determining dry matter
    accumulation of pigeonpea under contrasting moisture regimes. Crop Sci 38:955–961, 1998.

  28. TC Hsiao, E Acevedo. Plant responses to water deficits, water-use efficiency, and drought resistance. Agric
    Meteorol 14:59–84, 1974.

  29. GH Heichel. Crop manipulation for efficient use of water: inadvertent and intended manipulations of crop wa-
    ter use. In: HM Taylor, WR Jordan, TR Sinclair, eds. Limitations to Efficient Water Use in Crop Production.
    Madison, WI: American Society of Agronomy, 1983, pp 375–380.

  30. TA Coffelt, RO Hammons, WD Branch, PM Mozingo, PM Phipps, JC Smith, RE Lynch, CS Kvien, DL
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  31. PQ Craufurd, AB Austin. Carbon isotope discrimination as an indicator of drought tolerance. Annual Report
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    John Catt Ltd, England, 1987, pp 12–14.

  32. GC Wright, RC Nageswara Rao, HB So. Variation in root characteristics and their association with water up-
    take and drought tolerance in four peanut cultivars. Paper presented at the Australian Agronomy Conference,
    The University of Adelaide, Adelaide, South Australia, September 19–24, 1993.


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