1. Salinity stress management in field crops: An Overview of the Agronomic approaches.- 2. Improving cotton crop tolerance to drought stress through molecular approaches.- 3. Mechanisms of Plant Adaptation and Tolerance to Heat Stress.- 4. Molecular Mechanism of Plant Adaptation and Tolerance to Cold Stress.- 5. Mechanism of waterlogging stress tolerance in pigeonpea plants: Biochemical and anatomical adaptation under waterlogging.- 6. Mechanisms of Plant Adaptation and Tolerance to Metal/ Metalloid Toxicity.- 7. Arsenic Tolerance Mecahnisms in Plants and Potential Role of Arsenic Hyper- Accumulating Plants for Phytoremediation of Arsenic Contaminated Soil.- 8. Adaptive Strategies of Plants under Adverse Environment: Mitigating Effects of Antioxidant System.- 9. Biochemical and Molecular Mechanisms of Abiotic Stress Tolerance.- 10. Use of Biostimulants in Conferring Tolerance to Environmental Stress.- 11. Use of Phytohormones in Conferring Tolerance to Environmental Stress.- 12. Proline and Abiotic Stresses: Responses and Adaptation.- 13. Physiological Role of Gamma Aminobutyric Acid (GABA) in Salt Stress Tolerance.- 14. Sulfur Mediated Physiological and Biochemical Alterations to Improve Abiotic Stress Tolerance in Food Crops.- 15. Magnetic fields, temperature and exogenous selenium effect on reactive oxygen species metabolism of plants under flooding and metal toxicity.- 16. Grafting plants to improve abiotic stress tolerance.- 17. Role of Molecular Tools and Biotechnology in Climate Resilient Agriculture.- 18. Transcriptomics in deciphering stress tolerance in plants.- 19. Regulatory role of transcription factors in abiotic stress responses in plants.- 20. Molecular Marker Tools for Breeding Program in Crops/Plants.- 21. Plant-microbe interactions in developing environmental stress resistance in plants.- 22. Role of Plant Endophytes in Conferring Abiotic Stress Tolerance.- 23. Dark septate endophytic fungi (DSE) response to global change and soil contamination.- 24. Can mycorrhizal symbiosis mitigate the adverse effects of climate change on crop production?.- 25. Plant-microbe interactions in wastewater-irrigated soils.- 26. Phytoremediation of Heavy Metals: An Overview and New Insight on Green Approaches.- 27. Phytoremediation of metal contaminated sites.- 28. Current trends of phytoremediation in wetlands: Mechanisms and applications.- 29. Mechanisms of arsenic hyperaccumulation by plants.- 30. Biochar- a sustainable product for remediation of contaminated soils.- 31. Phytoremediation potential of Oil seed crops for Lead and Nickel contaminated soil.- 32. Adaptation of halophytes to the gradient conditions on the northern seas coast.

This book presents the state-of-the-art in plant ecophysiology. With a particular focus on adaptation to a changing environment, it discusses ecophysiology and adaptive mechanisms of plants under climate change. Over the centuries, the incidence of various abiotic stresses such as salinity, drought, extreme temperatures, atmospheric pollution, metal toxicity due to climate change have regularly affected plants and, and some estimates suggest that environmental stresses may reduce the crop yield by up to 70%. This in turn adversely affects the food security. As sessile organisms, plants are frequently exposed to various environmental adversities. As such, both plant physiology and plant ecophysiology begin with the study of responses to the environment. Provides essential insights, this book can be used for courses such as Plant Physiology, Environmental Science, Crop Production and Agricultural Botany.Volume 2 provides up-to-date information on the impact of climate change on plants, the general consequences and plant responses to various environmental stresses.