Abiotic stresses: plant resistance through breeding and molecular approaches
Gain a better understanding of the genetic and physiological bases of stress response and stress tolerance as part of crop improvement programsAbiotic Stresses: Plant Resistance Through Breeding and Molecular Approaches explores innovative methods for breeding new varieties of major crops with resistance to environmental stresses that limit crop production worldwide. Experts provide you with basic principles and techniques of plant breeding as well as work done in relation to improving resistance in specific important world food crops. This book supplies extensive bibliographies at the end of each chapter, as well as tables and figures that illustrate the research findings. Abiotic Stresses is divided into two sections. In the first section, you will find: the general principles of breeding crops for stress resistance genetic engineering and molecular biology procedures for crop improvement for stress environments data on genome mapping and its implications for improving stress resistance in plants information about breeding for resistance/tolerance to salinity, drought, flooding, metals, low nutrient availability, high/low temperaturesThe second section of this timely resource focuses on the efforts of acknowledged specialists who concentrated their efforts on important individual crops, such as: wheat barley rice maize oilseed crops cotton tomatoThis book fills a niche and interface in the available literature as it deals with all of the major stresses from a perspective of crop breeding, covering the latest advances in molecular breeding technology. Abiotic Stresses will help scientists and academics in botany, plant breeding, plant environmental stress studies, agriculture, and horticulture modify and improve breeding programs globally.
52 pages matching QTLs in this book
Results 1-3 of 52
What people are saying - Write a review
We haven't found any reviews in the usual places.
Use of Genetic Engineering and Molecular
41 other sections not shown
abiotic stress abscisic acid accumulation acid adaptation Agricultural Agronomy Arabidopsis thaliana barley betaine Brassica cell chickpea chilling chloroplast chromosome cold acclimation cold stress cold tolerance colleagues correlated Crop Science cultivars drought drought stress drought tolerance effects efficiency elongation environmental environments Euphytica evaluated Experimental Botany expression Foolad freezing tolerance genes genome genotypes germination germplasm grain yield growth halophytes heat stress heat tolerance high temperature HSPs hybrids identified improved increased IRRI Journal of Plant leaf levels low temperatures maize mapping markers membrane metal molecular mutants nutrient osmotic adjustment overexpression percent phenotypic photosynthesis plant breeding Plant Physiology pollen populations potential production proline protein QTLs Rengel Research resistance response rice root salinity salt stress salt tolerance screening seed germination seedling selection sensitive species stage stomatal stress tolerance submergence tolerance tion tolerance during seed tomato toxicity traits transgenic plants Triticum aestivum uptake variation varieties winter wheat zinc