Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. CJ Nelson. Genetic associations between photosynthetic characteristics and yield: review of the evidence. Plant
    Physiol Biochem 26:543–554, 1988.

  2. CD Elmore. The paradox of no correlation between leaf photosynthetic rates and crop yields. In: JD Hesketh,
    JW Jones, eds. Predicting Photosynthesis for Ecosystem Models. Vol II. Boca Raton, FL: CRC Press, 1980, pp
    155–167.

  3. RL Cooper, WA Brun. Response of soybeans to a carbon dioxide–enriched atmosphere. Crop Sci 7:455–457,
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  4. PJ Kramer. Carbon dioxide concentration, photosynthesis, and dry matter production. Bioscience 31:29–33,
    1981.

  5. BA Kimball. Carbon dioxide and agricultural yield: an assemblage and analysis of 430 prior observations.
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  6. S Tan, Y-G Shen. The effects of sodium bisulfite on photosynthetic apparatus and its operation. Acta Phyto-
    physiol Sin 13:42–50, 1987.

  7. D-Q Xu, Y-G Shen, S-J Wang, X-W Zhang. Studies on the relationship between photosynthesis and nitrogen
    fixation in the symbiotic system of soybean and nodule bacteria (Rhizobium). Acta Bot Sin 31:103–109, 1989.

  8. AL Christy, CA Porter. Canopy photosynthesis and yield in soybean. In: Govindjee, ed. Photosynthesis: De-
    velopment, Carbon Metabolism, and Plant Productivity. Vol II. New York: Academic Press, 1982, pp 499–511.

  9. MM Peet, A Bravo, DH Wallace, JL Ozbun. Photosynthesis, stomatal resistance, and enzyme activities in re-
    lation to yield of field-grown dry bean varieties. Crop Sci 17:287–293, 1977.

  10. RA Fischer, F Bidinger, JR Syme, PC Wall. Leaf photosynthesis, leaf permeability, crop growth, and yield of
    short spring wheat genotypes under irrigation. Crop Sci 21:367–373, 1981.

  11. RA Fischer, D Rees, KD Sayre, Z-M Lu, AG Condon, A Larque Saavedra. Wheat yield progress associated
    with higher stomatal conductance and photosynthetic rate, and cooler canopies. Crop Sci 38:1476–1475, 1998.

  12. BR Buttery, RI Buzzell, WI Findlay. Relationships among photosynthetic rate, bean yield and other characters
    in field-grown cultivars of soybean. Can J Plant Sci 61:191–198, 1981.

  13. R Chandra Babu, PS Srinivasan, N Natarajaratnam, SR Sree Rangasamy. Relationship between leaf photo-
    synthetic rate and yield in blackgram (Vigna mungoL. Hepper) genotypes. Photosynthetica 19:159–163, 1985.

  14. PS Srinivasan, R Chandrababu, N Natarajaratnam, SR Sree Rangaswamy. Leaf photosynthesis and yield po-
    tential in green gram [Vigna radiata(L.) Wilczek] cultivars. Trop Agric 62:222–224, 1985.

  15. SLA Hobbs. Relationships between carbon dioxide exchange rate, photosynthetic area and biomass in pea. Can
    J Plant Sci 66:465–472, 1986.

  16. MA El-Sharkawy, JH Cock, JK Lynam, AdP Hernandez, LLF Cadavid. Relationships between biomass, root-
    yield and single-leaf photosynthesis in field-grown cassava. Field Crop Res 25:183–201, 1990.

  17. S Peng, DR Krieg, FS Girma. Leaf photosynthetic rate is correlated with biomass and grain production in grain
    sorghum lines. Photosynth Res 28:1–7, 1991.

  18. WT Pettigrew, WR Meredith. Leaf gas exchange parameters vary among cotton genotypes. Crop Sci
    34:700–705, 1994.

  19. MJ Faville, WB Silvester, TG Allan Green, WA Jermyn. Photosynthetic characteristics of three asparagus cul-
    tivars differing in yield. Crop Sci 39:1070–1077, 1999.

  20. LT Evans. From leaf photosynthesis to crop productivity. In: N Murata, ed. Research in Photosynthesis. Vol
    IV. Dordrecht, The Netherlands: Kluwer Academic Publishers, 1992, pp 587–594.

  21. GM Dornhoff, RM Shibles. Variety differences in net photosynthesis of soybean leaves. Crop Sci 10:42–45,
    1970.

  22. AK Sharma, BB Singh, SP Singh. Relationship among net assimilation rate, leaf area index and yield in soy-
    bean [Glycine max(L.) Merrill] genotypes. Photosynthetica 16:115–118, 1982.

  23. MA Brinkman, KJ Frey. Flag leaf physiological analysis of oat isolines that differ in grain yield from their re-
    current parents. Crop Sci 18:69–73, 1978.

  24. S Chakrabarti, S Saha. Photosynthetic behavior of some high- and low-yielding cultivars of rice. Plant Physiol
    Biochem 9:119–129, 1982.

  25. LT Evans, RL Dunstone. Some physiological aspects of evolution in wheat. Aust J Biol Sci 23:725–741, 1970.

  26. LT Evans. The physiological basis of crop yield. In: LT Evans, ed. Crop Physiology. Cambridge: Cambridge
    University Press, 1975, pp 327–355.

  27. JW Poskuta, CJ Nelson. Role of photosynthesis and photorespiration and of leaf area in determining yield of
    tall fescue genotypes. Photosynthetica 20:94–101, 1986.

  28. JD Hesketh, WL Ogren, RE Hageman, DB Peters. Correlations among leaf CO 2 -exchange rates, areas and en-
    zyme activities among soybean cultivars. Photosynth Res 2:21–30, 1981.

  29. PE Curtis, WL Ogren, RH Hageman. Varietal effect of soybean photosynthesis and photorespiration. Crop Sci
    9:323–327, 1969.

  30. MJ Robson. The growth and carbon economy of selection lines of Lolium perennecv. S23 with differing rates
    of dark respiration. 2. Grown as young plants from seed. Ann Bot 49:331–339, 1982.

  31. D Wilson. Response to selection for dark respiration rate of mature leaves in Lolium perenneand its effects on
    growth of young plants and simulated swards. Ann Bot 49:303–312, 1982.

  32. P Palit, A Kundu, RK Mandal, SM Sircan. Productivity of rice plant in relation to photosynthesis, photorespi-
    ration and translocation. Indian J Plant Physiol 22:66–74, 1979.


PHOTOSYNTHETIC EFFICIENCY AND CROP YIELD 831

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