Improving Intrinsic Water-Use Efficiency and Crop Yield

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CROP PHYSIOLOGY & METABOLISM

Improving Intrinsic Water-Use Efficiency and Crop Yield

A. G. Condon^*^,a, R. A. Richards^a, G. J. Rebetzke^a and G. D. Farquhar^b

^a CSIRO Plant Industry, GPO Box 1600, Canberra, ACT, 2601, Australia
^b Environmental Biology, Australian National Univ., Canberra, ACT, 2601, Australia

* Corresponding author (tony.condon{at}pi.csiro.au)

Greater yield per unit rainfall is one of the most importantchallenges in dryland agriculture. Improving intrinsic water-useefficiency (W_T), the ratio of CO₂ assimilation rate to transpirationrate at the stomata, may be one means of achieving this goal.Carbon isotope discrimination ( ${Delta}$ ¹³C) is recognized as a reliablesurrogate for W_T and there have now been numerous studies whichhave examined the relationship between crop yield and W_T (measuredas ${Delta}$ ¹³C). These studies have shown the relationship between yieldand W_T to be highly variable. The impact on crop yield of genotypicvariation in W_T will depend on three factors: (i) the impactof variation in W_T on crop growth rate, (ii) the impact of variationin W_T on the rate of crop water use, and (iii) how growth andwater use interact over the crop's duration to produce grainyield. The relative importance of these three factors will differdepending on the crop species being grown and the nature ofthe cropping environment. Here we consider these interactionsusing (i) the results of field trials with bread wheat (Triticumaestivum L.), durum wheat (T. turgidum L.), and barley (Hordeumvulgare L.) that have examined the association between yieldand ${Delta}$ ¹³C and (ii) computer simulations with the SIMTAG wheatcrop growth model. We present details of progress in breedingto improve W_T and yield of wheat for Australian environmentswhere crop growth is strongly dependent on subsoil moisturestored from out-of-season rains and assess other opportunitiesto improve crop yield using W_T.

Abbreviations: A, instantaneous rate of CO₂ assimilation • c_a, CO₂ concentration of the air • c_i, CO₂ concentration inside the leaf • ${Delta}$ ¹³C, carbon isotope discrimination • ET, evapotranspiration • g, stomatal conductance • T, transpiration (instantaneous rate or cumulative) • w_a, water vapor concentration of the air • w_i, water vapor concentration inside the leaf • W_T, intrinsic water-use efficiency

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				C. Royo, V. Martos, A. Ramdani, D. Villegas, Y. Rharrabti, and L. F. Garcia del Moral Changes in Yield and Carbon Isotope Discrimination of Italian and Spanish Durum Wheat during the 20th Century Agron. J., February 26, 2008; 100(2): 352 - 360. [Abstract] [Full Text] [PDF]

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				A. J. Thompson, J. Andrews, B. J. Mulholland, J. M.T. McKee, H. W. Hilton, J. S. Horridge, G. D. Farquhar, R. C. Smeeton, I. R.A. Smillie, C. R. Black, et al. Overproduction of Abscisic Acid in Tomato Increases Transpiration Efficiency and Root Hydraulic Conductivity and Influences Leaf Expansion Plant Physiology, April 1, 2007; 143(4): 1905 - 1917. [Abstract] [Full Text] [PDF]

				M. Reynolds, F. Dreccer, and R. Trethowan Drought-adaptive traits derived from wheat wild relatives and landraces J. Exp. Bot., January 1, 2007; 58(2): 177 - 186. [Abstract] [Full Text] [PDF]

				G. D. Farquhar, L. A. Cernusak, and B. Barnes Heavy Water Fractionation during Transpiration Plant Physiology, January 1, 2007; 143(1): 11 - 18. [Full Text] [PDF]

				M. S. Sheshshayee, H. Bindumadhava, R. Ramesh, T. G. Prasad, M. R. Lakshminarayana, and M. Udayakumar Oxygen isotope enrichment ({Delta}18O) as a measure of time-averaged transpiration rate J. Exp. Bot., December 1, 2005; 56(422): 3033 - 3039. [Abstract] [Full Text] [PDF]

				S. M. Impa, S. Nadaradjan, P. Boominathan, G. Shashidhar, H. Bindumadhava, and M. S. Sheshshayee Carbon Isotope Discrimination Accurately Reflects Variability in WUE Measured at a Whole Plant Level in Rice Crop Sci., October 27, 2005; 45(6): 2517 - 2522. [Abstract] [Full Text] [PDF]

				European Plant Science Organization (EPSO) European plant science: a field of opportunities J. Exp. Bot., July 1, 2005; 56(417): 1699 - 1709. [Abstract] [Full Text] [PDF]

				T. L. BOTWRIGHT, G. J. REBETZKE, A. G. CONDON, and R. A. RICHARDS Influence of the Gibberellin-sensitive Rht8 Dwarfing Gene on Leaf Epidermal Cell Dimensions and Early Vigour in Wheat (Triticum aestivum L.) Ann. Bot., March 1, 2005; 95(4): 631 - 639. [Abstract] [Full Text] [PDF]

				M. Reymond, B. Muller, and F. Tardieu Dealing with the genotypexenvironment interaction via a modelling approach: a comparison of QTLs of maize leaf length or width with QTLs of model parameters J. Exp. Bot., November 1, 2004; 55(407): 2461 - 2472. [Abstract] [Full Text] [PDF]

				A. G. Condon, R. A. Richards, G. J. Rebetzke, and G. D. Farquhar Breeding for high water-use efficiency J. Exp. Bot., November 1, 2004; 55(407): 2447 - 2460. [Abstract] [Full Text] [PDF]

				C. J. Lambrides, S. C. Chapman, and R. Shorter Genetic Variation for Carbon Isotope Discrimination in Sunflower: Association with Transpiration Efficiency and Evidence for Cytoplasmic Inheritance Crop Sci., September 1, 2004; 44(5): 1642 - 1653. [Abstract] [Full Text] [PDF]

				Y. L. Qian, R. F. Follett, S. Wilhelm, A. J. Koski, and M. A. Shahba Carbon Isotope Discrimination of Three Kentucky Bluegrass Cultivars with Contrasting Salinity Tolerance Agron. J., March 1, 2004; 96(2): 571 - 575. [Abstract] [Full Text] [PDF]

				J. L. Araus, D. Villegas, N. Aparicio, L. F. G. del Moral, S. El Hani, Y. Rharrabti, J. P. Ferrio, and C. Royo Environmental Factors Determining Carbon Isotope Discrimination and Yield in Durum Wheat under Mediterranean Conditions Crop Sci., January 1, 2003; 43(1): 170 - 180. [Abstract] [Full Text] [PDF]