Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. Q-F Yang, H Jiang, D-Q Xu. Changes in the photosynthetic efficency of the flag leaves of wheat during de-
    velopment. Acta Phytophysiol Sin 25:408–412, 1999.

  2. O Bjorkman, B Demmig. Photon yield of O 2 evolution and chlorophyll fluorescence characteristics at 77 K
    among vascular plants of diverse origins. Planta 170:489–504, 1987.

  3. JK Hoober. Chloroplasts. New York: Plenum, 1984, pp 111–145.

  4. D-Q Xu. Photosynthetic efficiency. Plant Physiol Commun Sin 24:1–6, 1988.

  5. KK Niyogi. Photoprotection revisited: genetic and molecular approaches. Annu Rev Plant Physiol Plant Mol
    Biol 50:333–359, 1999.

  6. L-W Guo, D-Q Xu. Photoinhibition of photosynthesis in sweet viburnum leaves under natural conditions. Acta
    Phytophysiol Sin 20:46–54, 1994.

  7. L-W Guo, D-Q Xu, Shen Y-K. Photoinhibition of photosynthesis without net loss of D1 protein in wheat leaves
    under field conditions. Acta Bot Sin 38:196–202, 1996.

  8. SS Hong, D-Q Xu. Light-induced increase in initial chlorophyll fluorescence Fo level and its possible mecha-
    nism in soybean leaves. In: G Garab, ed. Photosynthesis: Mechanisms and Effects. Vol III. Dordrecht, The
    Netherlands: Kluwer Academic Publishers, 1998, pp 2179–2182.

  9. D-Q Xu, Y-K Shen. Light stress: photoinhibition of photosynthesis in plants under natural conditions. In: M
    Pessarakli, ed. Handbook of Plant and Crop Stress. New York: Marcel Dekker, 1999, pp 483–497.

  10. SS Hong, D-Q Xu. Difference in response of chlorophyll fluorescence parameters to strong light between
    wheat and soybean leaves. Chin Sci Bulletin 42:684–688, 1997.

  11. SS Hong, D-Q Xu. Light-induced increase in initial chlorophyll fluorescence Fo level and reversible inactiva-
    tion of PS II reaction centers in soybean leaves. Photosynth Res 61:269–280, 1999.

  12. SS Hong, D-Q Xu. Reversible inactivation of PS II reaction centers and the dissociation of LHC II from PS II
    complex in soybean leaves. Plant Sci 147:111–118, 1999.

  13. L-W Guo, D-Q Xu, Y-K Shen. The causes of midday decline of photosynthetic efficiency in cotton leaves un-
    der field conditions. Acta Phytophysiol Sin 20:360–366, 1994.

  14. RKM Hay, AJ Walker. An Introduction to the Physiology of Crop Yield. New York: Longman Scientific &
    Technical copublished in the United States with John Wiley & Sons, 1989, pp 31–86.

  15. H Medrano, AJ Keys, DW Lawlor, MAJ Parry, J Azcon-Bieto, E Delgado. Improving plant production by se-
    lection for survival at low CO 2 concentrations. J Exp Bot 46:1389–1396, 1995.

  16. L-W Guo, D-Q Xu, Y-K Shen. Relation between photorespiration and photoinhibition in cotton leaves. Chin
    Sci Bull 41:415–420, 1996.

  17. H-C Yin, T-D Wang, Y-K Shen, G-X Qiu, Y-Z Li, G-M Shen, S-Y Yang. Community structure and light uti-
    lization of wheat fields. Acta Agric Sin 10:381–397, 1959.

  18. CC Mann. Crop scientists seek a new revolution. Science 283:310–314, 1999.

  19. LT Evans. Crop Evolution, Adaptation and Yield. Cambridge: Cambridge University Press, 1993, pp 32–
    61.

  20. SK Mukherjee. Green revolution—outlook of a horticulturist. In: NR Dhar, Convened. Symposium on Green
    Revolution. Allahabad, India: National Academy of Sciences, 1974, pp 141–145.

  21. NR Dhar. Green revolution and vital factors in steady increase in crop production and atmospheric nitrogen
    fixation in the slow oxidation of organic matter by air and the protein problem. In: NR Dhar, Convened. Sym-
    posium on Green Revolution. Allahabad, India: National Academy of Sciences, 1974, pp 1–124.

  22. S Peng, GS Khush, KG Cassman. Evolution of the new plant ideotype for increased yield potential. In: KG
    Cassman, ed. Breaking the Yield Barrier. Los Banos, Philippines: International Rice Research Institute, 1994,
    pp 5–20.

  23. JY Lin, M Shen. Rice production constraints in China. In: RE Evenson, RW Herdt, M Hossain, eds. Rice Re-
    search in Asia. Progress and Priorities. Cambridge: CAB International, 1996, pp 161–178.

  24. L-P Yuan, Z-Y Yang, J-B Yang. Hybrid rice in China. Paper presented to the Second International Symposium
    on Hybrid Rice. Los Banos: IRRI. 1992, pp 21–25.

  25. SK Mukherjee. Pros and cons of green revolution. In: NR Dhar, Convened. Symposium on Green Revolution.
    Allahabad, India: National Academy of Sciences, 1974, pp 137–140.

  26. SK Majumdar. Green revolution under limited nitrogenous fertilizer availability. In: NR Dhar, Convened.
    Symposium on Green Revolution. Allahabad, India: National Academy of Sciences, 1974, pp 193–197.

  27. SP Raychaudhri. Role of plant diseases in green revolution. In: NR Dhar, Convened. Symposium on Green
    Revolution. Allahabad, India: National Academy of Sciences, 1974, pp 198–201.

  28. R Ishii. Leaf/canopy photosynthesis and crop productivity. In: AS Raghavendra, ed. Photosynthesis: A Com-
    prehensive Treatise. Cambridge: Cambridge University Press, 1998, pp 215–225.

  29. C Ramasamy, TR Shanmugam, D Suresh. Constraints to higher rice yields in different rice production envi-
    ronments and prioritization of rice research in southern India. In: RE Evenson, RW Herdt, M Hossain, eds, Rice
    Research in Asia. Progress and Priorities. Cambridge: CAB International, 1996, pp 145–160.

  30. RW Herdt. Summary, conclusions and implications. In: RE Evenson, RW Herdt, M Hossain, eds. Rice Re-
    search in Asia: Progress and Priorities. Cambridge: CAB International, 1996, pp 393–405.

  31. CC Mann. Genetic engineers aim to soup up crop photosynthesis. Science 283:314–316, 1999.


PHOTOSYNTHETIC EFFICIENCY AND CROP YIELD 833

Free download pdf