Plant Modification For More Efficient Water Use

Foreword Preface Part 1 - Genetic engineering Breeding for more efficient water use - is it real or a mirage? Genetic engineering as a key to water-use efficiency Use of variety isogenes in plant water-use efficiency studies Genetic modification of cotton plants for more efficient water use Phenotype and drought tolerance in wheat Part II - Physiological and environmental factors Plant responses to water deficits, water-use efficiency and drought resistance Plant water balance - its relationship to atmospheric and edaphic conditions Impact of the CO2 requirement on plant water use Plant physiological responses to water stress Soil physical and chemical barriers to more efficient water use by crops Reducing turbulent transfer to increase water-use efficiency Soil- and air-temperatures as limitations to more efficient water use Atmospheric and soil water influence on the plant water balance Calculations of evapotranspiration from crop surface temperature Radiant energy and light environment of crops Part III - Modelling A parametric analysis of the anatomy and physiology of the stomata Modelling of plant growth for yield prediction A critical review of light models for estimating the shortwave radiation regime of plant canopies The soil-plant-atmosphere model and some of its predictions Part IV - Epilogue Plant modification for more efficient water use: the challenge