Abstract
The importance of reduced leaf conductance (stomatal and boundary layer) in limiting photosynthetic rates during water stress was studied in Encelia frutescens, a drought-deciduous leaved subshrub of the Mohave and Sonoran Deserts. Light-saturated CO2 assimilation rates of greenhouse grown plants decreased from 42.6±1.6μmol CO2 m-2 s-1 (x±s.e.) to 1.7±1.7 μmol CO2 m-2s-1 as leaf water potential decreased from-1.5 MPa to-4.0 MPa. The dependence of light saturated, CO2 assimilation rate on leaf intercellular CO2 concentrations between 60 and 335 μl l-1 was also determined as leaf water potential decline. This enabled us to compare the effects of leaf water potentials on limitations to carbon assimilation imposed by leaf conductance and by intrinsic photosynthetic capacity. Both leaf conductance and intrinsic photosynthetic capacity decreased with decreasing leaf water potential, but the decrease in leaf conductance was proportionately greater. The relative stomatal limitation, defined as the percent limitation in photosynthetic rate due to the presence of gas-phase diffusional barriers, increased from (x±s.e.) to 41±3% as water potentials became more negative. Since both leaf conductance and intrinsic photosynthetic capacity were severely reduced in an absolute sense, however, high photosynthetic rates could not have been restored at low leaf water potentials without simultaneous increases in both components.
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References
Beatley JC (1974) Phenological events and their environmental triggers in Mohave desert ecosystems. Ecology 55:856–863
Björkman O, Badger M, Armond PA (1978) Thermal acclimation of photosynthesis: effect of growth temperature on photosynthetic characteristics and components of the photosynthetic apparatus in Nerium oleander Carnegie Inst Wash Yb 77:262–276
Björkman O, Downton WJS, Mooney HA (1979) Response and adaptation to water stress in Nerium oleander. Carnegie Inst Wash Yb 79:150–157
Björkman O, Powler SB, Fork DC, Gunnar O (1980) Interaction between high irradiance and water stress on photosynthetic reactions in Nerium oleander Carnegie Inst Wash Yb 80:57–59
Boyer JS (1970) Phenological events and their environmental triggers in Mohave desert ecosystems. Ecology 55:856–863
Caemmerer S von, Farquhar GD (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 143:376–387
Collatz GJ (1977) Influence of certain environmental factors on photosynthesis and photorespiration in Simmondsia chinensis. Planta 134:127–132
Downton WJS, Seemann JR, and Berry JA (1980) Thermal stability of photosynthesis in desert plants. Carnegie Inst Wash Yb 79:143–145
Ehleringer JR (1982) The influence of water stress and temperature on leaf pubescence development in Encelia farinosa Amer J Bot 69:670–675
Ehleringer JR (1983) Ecophysiology of Amaranthus palmeri, a Sonoran Desert summer annual. Oecologia (Berlin) 57:107–112
Ehleringer Jr, Björkman O (1978) A comparison of photosynthetic characteristics of Encelia species possessing glabrous and pubescent leaves. Plant Physiol 62:185–190
Ehleringer J, Cook CS (1983) Photosynthesis in Encelia farinosa Gray in response to decreasing leaf water potential. (in prep)
Farquhar GD, Sharkey, TD (1982) Stomatal conductance and photosynthesis. Ann Rev Plant Physiol 33:317–334
Farquhar GD, Caemmerer S von, Berry JA (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149:78–90
Forseth IN, Ehleringer JR (1982a) Ecophysiology of two solartracking desert winter annuals. I. Photosynthetic acclimation to growth temperature. Aust J Plant Physiol 9:321–332
Forseth IN, Ehleringer JR (1982b) Ecophysiology of two solartracking desert winter annuals. II. Leaf movements, water relations and microclimate. Oecologia (Berlin) 54:41–49
Forseth IN, Ehleringer JR (1983) Ecophysiology of two solar tracking desert winter annuals. III. Gas exhange responses to light, CO2 and vpd in relation to long term drought. Oecologia (Berlin) 57:344–351
Hsiao TC, Acevedo E (1974) Plant responses to water deficits, water use efficiency, and, drought resistance. Agr Met 14:59–84
Jensen RG, Bahr JT (1977) Ribulose 1,5-biphosphate carboxylaseoxygenase. Ann Rev Plant Physiol 28:379–400
Jones HG (1973) Limiting factors in photosynthesis. New Phytol 72:1089–1094
Ku SB, Edwards GE (1977) Oxygen inhibition of photosynthesis. II. Kinetic characteristics as affected by temperature. Plant Physiol 59:991–999
Lawlor DW (1976) Water stress induced changes in photosynthesis, photorespiration, respiration and CO2 compensation concentration of wheat. Photosynthetica 10:378–387
Ludlow MM (1980) Adaptative significance of stomatal response to water stress, In: Turner NC and Kramer PJ (eds), Adaptations of Plants to Water and High Temperature Stress. John Wiley and Sons, NY, p 123–138
Ludlow MM, Ng TT (1976) Effect of water deficit on carbon dioxide exchange and leaf elongation rate of Panicum maximum var. trichoglume. Aust J Plant Physiol 3:401–413
Mooney HA (1980) Seasonality and gradients in the study of stress adaptation, In: Turner NC and Kramer PJ (eds), Adaptations of Plants to Water and High Temperature Stress. John Wiley and Sons. NY, p 279–294
Mooney HA, Björkman O, Collatz GJ (1976) Photosynthetic acclimation to temperature and water stress in the desert shrub Larrea divaricata. Carnegie Inst Wash Yb 76:328–335
Mooney HA, Björkman O, Collatz GJ (1978) Photosynthetic acclimation to temperature in the desert shrub Larrea divaricata. I. Carbon dioxide exchange characteristics of intact leaves. Plant Physiol 61:406–410
Nobel PS (1974) Introduction to Biophysical Plant Ecology. WH Freeman and Company, San Francisco
Odening WR, Strain BR, Ochel WC (1974) The effect of decreasing water potential on net CO2 exchange of intact desert shrubs. Ecology 55:1086–1095
Osonubi O, Davies WJ (1980) The influence of plant water stress on stomatal control of gas exchange at different levels of atmospheric humidity. Oecologia (Berlin) 46:1–6
O'Toole JC, Ozbun JL, Wallace DH (1977) Photosynthetic response to water stress in Phaseolus vulgaris. Physiol Plant 40:111–114
Raschke K (1979) Movements of stomata, In: Harpt W, Feinleib ME (eds), Physiology of Movements. Encycl Plant Physiol (NS). Springer, Berlin pp 383–441
Redshaw AJ, Meidner H (1972) Effects of water stress on the resistance to uptake of carbon dioxide in tobacco. J Exp Bot 23:229–240
Seemann JR, Downton WJS, Berry JA (1979) Field studies of acclimation to high temperatures: winter, ephemerals in Death Valley. Carnegie Inst Wash Yb 78:157–162
Seemann JR, Berry JA, Downton WJS (1980a) Seasonal temperature acclimation in high temperature acclimation of desert winter annuals. Carnegie Inst Wash Yb 79:141–143
Seemann JR, Tepperman JM, Berry JA (1980b) The relationship between photosynthetic performance and the levels and kinetic properties of RuBP carboxylase-oxygenase from, desert winter annuals. Carnegie Inst Wash Yb 80:67–72
Strain BR, Chase VC (1966) Effect of past and prevailing, temperatures on the carbon dioxide exchange capacities of some woody desert perennials. Ecology 47:1043–1045
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Comstock, J., Ehleringer, J. Photosynthetic responses to slowly decreasing leaf water potentials in Encelia frutescens . Oecologia 61, 241–248 (1984). https://doi.org/10.1007/BF00396767
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DOI: https://doi.org/10.1007/BF00396767