Photosynthetica 1997, 33(11):125-131 | DOI: 10.1023/A:1006824120129

Net photosynthetic and transpiration rates in a chlorophyll-deficient isoline of soybean under well-watered and drought conditions

V.M. Luquez1, J.J. Guiamet2, E.R. Montaldi1
1 Instituto de Fisiología Vegetal, Universidad Nacional de La Plata, La Plata, Argentina
2 Department of Biology, University of Michigan, Ann Arbor, U.S.A

The gas exchange traits of wild type soybeans (cv. Clark) and a near-isogenic, chlorophyll-deficient line homozygous for the recessive allele y9 (y9y9) were compared under either well-watered or water-stress conditions. Mature leaves of y9 had a 65% lower chlorophyll content than wild type. However, the net photosynthetic rate (PN) of y9 leaves was only 20% lower than in the wild type, irrespective of water availability. Transpiration rates (E) were significantly higher in leaves of y9, compared to the wild type, either under well-watered or stress conditions. The higher E of y9 correlated with increased stomatal conductance, particularly in the abaxial epidermis, where more than 70% of the stomata were located. The combination of lower PN and increased E resulted in a significant decrease of water use efficiency in y9, at both water availability levels. The relative water content decreased in stressed leaves, much more in y9 than in wild type leaves, probably because of the higher E of the mutant line.

Additional key words: leaf sides; stomata density; stomatal conductance; water content; water use efficiency

Prepublished online: January 1, 1998; Published: January 1, 1997  Show citation

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Luquez, V.M., Guiamet, J.J., & Montaldi, E.R. (1997). Net photosynthetic and transpiration rates in a chlorophyll-deficient isoline of soybean under well-watered and drought conditions. Photosynthetica34(1), 125-131. doi: 10.1023/A:1006824120129
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    References

    1. Aase, J.K.: Growth, water use, and energy balance comparisons between isogenic lines of barley.-Agron. J. 63:425-428. 1971. Go to original source...
    2. Campbell, G.S.: Fundamentals of radiation and temperature relations.-In: Lange, O.L., Nobel, P.S., Osmond, C.B., Ziegler, H. (ed.): Physiological Plant Ecology I. Pp. 11-40. Springer-Verlag, Berlin-Heidelberg-New York 1981. Go to original source...
    3. Di Marco, G., D'Ambrosio, N., Giardi, M.T., Massacci, A., Tricoli, D.: Photosynthetic properties of leaves of a yellow green mutant of wheat compared to its wild type.-Photosynth. Res. 21: 117-122, 1989. Go to original source...
    4. Droppa, M., Ghirardi, M.L., Horvath, G., Melis, A.: Chlorophyll b deficiency in soybean mutants. II. Thylakoid membrane development and differentiation.-Biochim. biophys. Acta 932: 138-145, 1988. Go to original source...
    5. Eskins, K., Delmastro, D., Harris, L.: A comparison of pigment-protein complexes among normal, chlorophyll-deficient and senescent soybean genotypes.-Plant Physiol. 73: 51-55, 1983. Go to original source...
    6. Eskins, K., Jiang, C.Z., Shibles, R.: Light-quality and irradiance effects on pigments, light-harvesting proteins and Rubisco activity in a chlorophyll-and light-harvesting-deficient soybean mutant.-Physiol. Plant. 83: 47-53, 1991. Go to original source...
    7. Estill, K., Delaney, R.H., Smith, W.K., Ditterline, R.L.: Water relations and productivity of alfalfa leaf chlorophyll variants.-Crop Sci. 31: 1229-1233, 1991. Go to original source...
    8. Ferguson, H., Eslick, R.F., Aase, J.K.: Canopy temperatures of barley as influenced by morphological characteristics.-Agron. J. 65: 425-428: 1973. Go to original source...
    9. Ferguson, H.: Use of variety isogenes in plant water-use efficiency studies.-Agr. Meteorol. 14: 25-29, 1974. Go to original source...
    10. Hesketh, J.D., Ogren, W.L., Hageman, M.E., Peters, D.B.: Correlations among leaf CO2-exchange rates, areas and enzyme activities among soybean cultivars.-Photosynth. Res. 2: 21-30, 1981. Go to original source...
    11. Inskeep, W.P., Bloom, P.R.: Extinction coefficients of chlorophyll a and b in N,N-dimethylformamide and 80% acetone.-Plant Physiol. 77: 483-485, 1985. Go to original source...
    12. King, J.: The Genetic Basis of Plant Physiological Processes.-Oxford University Press, Oxford 1990.
    13. Leopold, A.C.: Senescence in plant development.-Science 134: 1727-1732, 1961. Go to original source...
    14. Pettigrew, W.T., Hesketh, J.D., Peters, D.B., Woolley, J.T.: Characterization of canopy photosynthesis of chlorophyll-deficient soybean isolines.-Crop Sci. 29: 1025-1029, 1989. Go to original source...
    15. Rumi, C.P., Carpinetti, R.M.: Effect of sunlight on the development of Tropaeolum majus L. II. Leaf development.-Fyton 41: 129-137, 1981.
    16. Xu, D.Q., Chen, X.M., Zhang, L.X., Wang, R.F., Hesketh, J.D.: Leaf photosynthesis and chlorophyll fluorescence in a chlorophyll-deficient soybean mutant.-Photosynthetica 29: 103-112, 1993.

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