: M. Ashraf, M. Ozturk, H. R. Athar
: M. Ashraf, M. Ozturk, Habib-ur-Rehman Athar
: Salinity and Water Stress Improving Crop Efficiency
: Springer-Verlag
: 9781402090653
: 1
: CHF 132.50
:
: Botanik
: English
: 244
: Wasserzeichen
: PC/MAC/eReader/Tablet
: PDF

Salinity and water stress limit crop productivity worldwide and generate substantial economic losses each year, yet innovative research on crop and natural resource management can reveal cost-effective ways in which farmers can increase both their productivity and their income.

Presenting recent research findings on salt stress, water stress and stress-adapted plants, this book offers insights into new strategies for increasing the efficiency of crops under stressful environments. The strategies are based on conventional breeding and advanced molecular techniques used by plant physiologists, and are discussed using specific case studies to illustrate their potential. The book emphasizes the effects of environmental factors on specific stages of plant development, and discusses the role of plant growth regulators, nutrients, osmoprotectants and antioxidants in counteracting their adverse affects.

Synthesising updated information on mechansisms of stress tolerance at cell, tissue and whole-plant level, this book provides a useful reference text for post graduate students and researchers involved in the fields of stress physiology and plant physiology in general, with additional readership amongst researchers in horticulture, agronomy, crop science, conservation, environmental management and ecological restoration.
Preface6
Acknowledgements7
Contents8
About the Editors11
Strategies for Crop Improvement Against Salinity and Drought Stress: An Overview12
Salt and Water Stress28
Prediction of Salinity Tolerance Based on Biological and Chemical Properties of Acacia Seeds29
Antioxidant-Enzyme System as Selection Criteria for Salt Tolerance in Forage Sorghum Genotypes ( Sorghum bicolor L. Moench)34
Genetic Variation in Wheat (Triticum aestivum L.) Seedlings for Nutrient Uptake at Different Salinity and Temperature Regimes46
The Role of Plant Hormones in Plants Under Salinity Stress53
Effects of Temperature and Salinity on Germination and Seedling Growth of Daucus carota cv. nantes and Capsicum annuum cv. sivri and Flooding on Capsicum annuum cv. sivri59
Triticeae: The Ultimate Source of Abiotic Stress Tolerance Improvement in Wheat73
Chapter 8 Water Loss and Gene Expression of Rice (Oryza sativa L.) Plants Under Dehydration80
Effect of Different Water Table Treatments on Cabbage in Saline Saemangeum Soil91
How Does Ammonium Nutrition Influence Salt Tolerance in Spartina alterniflora Loisel?97
Improving Crop Efficiency103
Strategies for Crop Improvement in Saline Soils104
Role of Vetiver Grass and Arbuscular Mycorrhizal Fungi in Improving Crops Against Abiotic Stresses116
Cell Membrane Stability (CMS): A Simple Technique to Check Salt Stress Alleviation Through Seed Priming with GA3 in Canola122
Using Resources from the Model Plant Arabidopsis thaliana to Understand Effects of Abiotic Stress133
Improvement of Salt Tolerance Mechanisms of Barley Cultivated Under Salt Stress Using Azospirillum brasilense137
Genetic Resources for Some Wheat Abiotic Stress Tolerances152
General Topics167
Survival at Extreme Locations: Life Strategies of Halophytes168
Adaptive Mechanisms of Halophytes in Desert Regions179
Is Sustainable Agriculture with Seawater Irrigation Realistic?186
Enhanced Tolerance of Transgenic Crops Expressing Both Superoxide Dismutase and Ascorbate Peroxidase in Chloroplasts to Multiple Environmental Stress196
Adaptation to Iron-Deficiency Requires Remodelling of Plant Metabolism: An Insight in Chloroplast Biochemistry and Functionality203
Boron Deficiency in Rice in Pakistan: A Serious Constraint to Productivity and Grain Quality211
Potential Role of Sabkhas in Egypt: An Overview218
Author Index226
Subject Index234