Modeling elevated carbon dioxide effects on water relations, water use, and growth of irrigated sorghum

Grant, R.F. and Kimball, B.A. and Wall, G.W. and Triggs, J.M. and Brooks, T.J. and Pinter, P.J. and Conley, M.M. and Ottman, M.J. and Lamorte, R.L. and Leavitt, S.W. and Thompson, T.L. and Matthias, A.D. (2004) Modeling elevated carbon dioxide effects on water relations, water use, and growth of irrigated sorghum. Agronomy Journal, 96 (6). pp. 1693-1705.

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Abstract

Elevated concentrations of atmospheric CO2 (C a) are believed to raise sorghum [Sorghum bicolor (L.) Moench] productivity by improving water relations. In ecosys, water relations are simulated by solving for the canopy water potential (ψC) at which water uptake from a model of soil–root–canopy water transfer equilibrates with transpiration from the canopy energy balance. Simulated water relations were tested with ψC, water uptake, and energy exchange measured under ambient (363 μmol mol−1) and elevated (566 μmol mol−1) C a and high vs. low irrigation in a free air CO2 enrichment experiment during 1998 and 1999. Model results, corroborated by field measurements, showed that elevated C a raised ψC and lowered latent heat fluxes under high irrigation and delayed water stress under low irrigation. Changes in ψC modeled under ambient vs. elevated C a varied diurnally, with lower ψC causing earlier midafternoon stomatal closure under ambient C a Modeled changes in sorghum water status caused elevated C a to raise seasonal water efficiency under high and low irrigation by 20 and 26% (vs. 20 and 13% measured) in 1998 and by 9 and 27% (vs. 6 and 26% measured) in 1999. Ecosys was used to generate an irrigation response function for sorghum yield, which indicated that yields would rise by ≈13% for a range of irrigation rates if air temperatures were to rise by 3°C and C a by 50%. Current high sorghum yields could be achieved with ≈120 mm or ≈20% less irrigation water if these rises in temperature and C a were to occur

Item Type:	Article
Author Affiliation:	Dep. of Renewable Resour., Univ. of Alberta, Edmonton, AB, Canada T6G 2H1
Subjects:	Crop Improvement
Divisions:	Sorghum
Depositing User:	Syamala
Date Deposited:	13 May 2011 08:35
Last Modified:	13 May 2011 09:14
Official URL:	http://dx.doi.org/10.2134/agronj2004.1693
URI:	http://eprints.icrisat.ac.in/id/eprint/2029

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