1st Edition
Elevated Carbon Dioxide Impacts on Soil and Plant Water Relations
Elevated Atmospheric Carbon Dioxide: Drought. Elevated Carbon Dioxide in the Soil: Composition of the Soil Atmosphere. Elevated Carbon Dioxide in the Soil: Interaction with the Soil Physical Factors that Affect Root Growth. Elevated Carbon Dioxide in the Soil: Variable Oxygen Concentration and Root Growth. Elevated Carbon Dioxide in the Atmosphere: Interaction with the Soil Physical Factors that Affect Root Growth. Elevated Atmospheric Carbon Dioxide: Root Growth. Elevated Atmospheric Carbon Dioxide: Plant Water Potential, Osmotic Potential, and Turgor Potential. Elevated Atmospheric Carbon Dioxide: Stomatal Conductance. Elevated Atmospheric Carbon Dioxide: Stomatal Density. Elevated Atmospheric Carbon Dioxide: Transpiration and Evapotranspiration. Elevated Atmospheric Carbon Dioxide: Water Use Efficiency. Elevated Atmospheric Carbon Dioxide: C3 and C4 Plants. Elevated Atmospheric Carbon Dioxide: Plant Anatomy. Elevated Atmospheric Carbon Dioxide: Phenology. Elevated Atmospheric Carbon Dioxide: Growth and Yield. Epilogue. References. Index.
Biography
M.B. Kirkham is a professor in the Department of Agronomy at Kansas State University. Dr. Kirkham is an editorial board member of several journals, including Crop Science and Soil Science. Dr. Kirkham has authored or co-authored over 200 articles in scientific journals and has been a recipient of the Carl Sprengel Agronomic Research Award of the American Society of Agronomy and the Crop Science Research Award of the Crop Science Society of America. Kirkham is a graduate of Wellesley College, Massachusetts, USA.
