Leaf Photosynthesis and Conductance of Selected Triticum Species at Different Water Potentials
Open Access
- 1 April 1987
- journal article
- research article
- Published by Oxford University Press (OUP) in Plant Physiology
- Vol. 83 (4), 1014-1017
- https://doi.org/10.1104/pp.83.4.1014
Abstract
Leaf gas exchange characteristics of a desert annual (Triticum kotschyi [Boiss.] Bowden) and the wheat cultivar TAM W-101 (Triticum aestivum L. em Thell) were compared over a range of leaf water potentials from −0.50 to −2.9 megapascals. At an ambient [CO2] of 330 microliters per liter, T. kotschyi had higher conductance and CO2 assimilation (A) at a given water potential than T. aestivum. Under well watered conditions, A versus internal CO2 concentration (Ci) response curves for both species were similar in shape and magnitude, and the higher A of T. kotschyi at an ambient [CO2] of 330 microliters per liter was mostly related to the higher stomatal conductance of T. kotschyi. The higher conductance of T. kotschyi than T. aestivum under well watered conditions was associated with higher Ci and lower water use efficiency. Under water deficits, however, Ci at 330 microliters per liter ambient [CO2] did not differ significantly between species. T. kotschyi had higher A under water deficits than T. aestivum primarily because its A versus Ci response curves had higher A at Ci values above about 150 microliters per liter. The results show that conductance played an important role in the high A of T. kotschyi under well watered conditions, but under water deficits the high A of T. kotschyi was related more to the maintenance of a higher capacity for mesophyll photosynthesis.This publication has 9 references indexed in Scilit:
- Sampling Error for Leaf Water Potential Measurements in Wheat 1Crop Science, 1986
- Photosynthetic Rate Control in CottonPlant Physiology, 1983
- The inhibition of photosynthesis and photorespiration in isolated mesophyll cells of Phaseolus and Lycopersicon by reduced osmotic potentialsPhysiologia Plantarum, 1983
- Leaf Water Relations and Gas Exchange in Relation to Forage Production in Four Asiatic Bluestems1Crop Science, 1982
- Flag Leaf Photosynthesis of Triticum aestivum and Related Diploid and Tetraploid SpeciesAnnals of Botany, 1982
- Responses to Water Stress in Wheat and Related Wild Species 1Crop Science, 1982
- Effect of Water Stress on Enzyme Activities in Wheat and Related Wild Species: Carboxylase Activity, Electron Transport and Photophosphorylation in Isolated ChloroplastsFunctional Plant Biology, 1981
- A biochemical model of photosynthetic CO2 assimilation in leaves of C3 speciesPlanta, 1980
- Effect of Abscisic Acid on the Gain of the Feedback Loop Involving Carbon Dioxide and StomataPlant Physiology, 1978