Handbook of Plant and Crop Physiology

Handbook of Plant and Crop Physiology

植物与作物生理手册第4版
植物保护学

原价：

￥ 3147.5

售价：

优惠

平台大促低至8折优惠

发货周期：预计5-7周发货

作者

Edited by Mohammad Pessarakli

出版社

CRC Press

出版时间

2021年07月13日

装帧

精装

ＩＳＢＮ

9780367554545

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页码

1196

开本

280 x 210 mm (8.25 x 11)

语种

英文

版次

4th ed.

综合评分

暂无评分

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Continuous discoveries in plant and crop physiology have resulted in an abundance of new information since the publication of the third edition of the Handbook of Plant and Crop Physiology. Following its predecessors, the fourth edition of this well-regarded handbook offers a unique, comprehensive, and complete collection of topics in the field of plant and crop physiology. Divided into eleven sections, for easy access of information, this edition contains more than 90 percent new material, substantial revisions, and two new sections. The handbook covers the physiology of plant and crop growth and development, cellular and molecular aspects, plant genetics and production processes. The book presents findings on plant and crop growth in response to climatic changes, and considers the potential for plants and crops adaptation, exploring the biotechnological aspects of plant and crop improvement. This content is used to plan, implement, and evaluate strategies for increasing plant growth and crop yield. Readers benefit from numerous tables, figures, case studies and illustrations, as well as thousands of index words, all of which increase the accessibility of the information contained in this important handbook. New to the Edition: Contains 37 new chapters and 13 extensively revised and expanded chapters from the third edition of this book. Includes new or modified sections on soil-plant-water-nutrients-microorganisms physiological relations; and on plant growth regulators, both promoters and inhibitors. Additional new and modified chapters cover the physiological responses of lower plants and vascular plants and crops to metal-based nanoparticles and agrichemicals; and the growth responses of plants and crops to climate change and environmental stresses. With contributions from 95 scientists from 20 countries, this book provides a comprehensive resource for research

Part 1: Soil-Plant-Water-Nutrients-Microorganisms Physiological Relations 1. Evaluating the Recruitment of Soilborne Microbes to Seeds and Their Effects on Seed Germination of Crop Plants in Agricultural and Non-agricultural Soils Betsy Arnold et al. 2. Regulation of phosphate starvation in higher plants and role of mycorrhizae Muhammad Baqir Hussain et al. 3. Potassium Effect on Growth and Physiology of Alfalfa Anowarul Islam et al. 4. Evaluating and Managing Crops Water Requirement with Theoretical Methods and Remote Sensing Technology Zohrab Samani Part 2: Physiology of Plant/Crop Growth and Development Stages 5. Seed Dormancy and Germination in Medicinal Plants, Inhibitors and Promoters Amir Hossein Saeidnejad 6. Plant Aging, Developmental Stages, Reproductive and the Beginning of Flowering Stage Behnam Asgari Lajayer et al. 7. Longan Fruit Tree Physiology and Its Flowering Induction Hong Li 8. The Final Phase of Plant Life Behnam Asgari Lajayer Part 3: Cellular and Molecular Aspects of Plant/Crop Physiology 9. Carbon Assimilation and Partitioning in Crop Plants: A Biochemical and Physiological View Alberto A. Iglesias et al. 10. Epitranscriptomics in Plant Physiology: m6 A modifications Fatemeh Aflaki et al. 11. Characteristics of Grain Quality in Rice: Physiological and Molecular Aspects Mojtaba Kordrostami et al. 12. Role of Melatonin in Improving the Tolerance of Plants to Salinity Stress Magdi T. Abdelhamid et al. 13. Phytohormones and Abiotic Stresses - Roles of Phytohormones in Plants under Abiotic Stresses Behnam Asgari Lajayer et al. 14. Physiological Roles of Plant Nutrients, Ions, and Phytometabolites Homeostasis in Activating Antioxidative Defense Systems and Conferring Tolerance to Osmotic Stress Askari-Khorasgani et al. Part 4: Plant/Crop Physiology and Physiological Aspects of Plant/Crop Production Processes 15. Physiology of Grain Development in Cereals Muhammad Farooq et al. 16. Plant Nutrition: Rates of Transport and Metabolism Thomas Crawford 17. Plant Nutrition: Interactions of Mineral and Organic Substances Thomas Crawford 18. Roles and Implications of Arbuscular Mycorrhizas in Plant Nutrition Catello Di Martino et al. 19. Turfgrass Nitrogen Management: A Review Haibo Liu et al. Part 5: Plant Growth Regulators: The Natural Hormones (Growth Promoters and Inhibiters) 20. Plant Growth Regulators and Secondary Metabolites, Downregulation and Upregulation Amir Hossein Saeidnejad Part 6: Physiological Responses of Plants/Crops Under Stressful (Salt, Drought, Heat, Nutrient Deficiency, and Other Environmental Stresses) Conditions 21. Physiological Basis of Abiotic Stress Tolerance in Plants Tanveer Ul Haq et al. 22. Physiological adaptations in temperate crops to environmental constraints during the growing season Klara Kosova et al. 23. Osmotic Stress: An Outcome of Drought and Salinity Askari-Khorasgani et al. 24. Drought Stress Sensing-Signaling in Plants Askari-Khorasgani et al. 25. Plant Morphological and Physiological Responses to Drought Stress Askari-Khorasgani et al. 26. Morphological, Physiological and Biochemical Responses of Plants to Drought and Oxidative Stresses Behnam Asgari Lajayer et al. 27. Effects of Salinity Stress on Morpho-physiology, Biochemistry, and Proteomic Responses of Plants Behnam Asgari Lajayer et al. 28. Metabolic Regulation of Cytokinins for Conferring Heat and Drought Tolerance in Perennial Grass Species Yan Xu et al. 29. Drought Physiology of Forage Crops Anowarul Islam et al. 30. Physiological Mechanisms of Nitrogen Absorption and Assimilation in Plants under Stressful Conditions Rama Shanker Dubey et al. 31. Reactive Oxygen Species Generation, Hazards, and Defense Mechanisms in Plants under Environmental (Abiotic and Biotic) Stress Conditions Rama Shanker Dubey et al. 32. Oxidative Stress: Repercussions for Crop Productivity Muhammad Farooq et al. 33. Physiological and Biophysical Responses of Plants under Low and Ultralow Temperatures Jiri Zamecnik et al. 34. Physiological Responses of Cotton (Gossypium hirsutum L.) to Salt Stress Mohammad Pessarakli 35. Growth and Physiological Responses of Turfgrasses Under Stressful Conditions Haibo Liu et al. 36. Urban Landscape, Trees Physiological and Environmental Stresses, Challenges and Solutions Ali Nikbakht et al. 37. Consequences of Water Stress and Salinity on Plants/Crops; Physiobiochemical and Molecular Mitigation Approaches Mojtaba Kordrostami et al. Part 7: Physiological Responses of Plants/Crops to Heavy Metal Concentrations and Agrichemicals 38. Heavy Metals and Phytoremediation in Plants Mojtaba Kordrostami et al. 39. Arsenic Toxicity and Tolerance Mechanisms in Crop Plants Rama Shanker Dubey et al. 40. Interactions of Nanomaterials and Plants in Remediation of the Heavy Metal Contaminated Soils Behnam Asgari Lajayer et al. Part 8: Physiological Responses of Lower Plants (Algae) and Vascular Plants/Crops to Metal-based Nanoparticles 41. Impact of Metal Nanoparticles on Marine and Freshwater Algae Katarina Kralova et al. 42. Risks and Benefits of Metal-based Nanoparticles for Vascular Plants Katarina Kralova et al. Part 9: Physiology of Plant/Crop Genetics and Development 43. Genotyping, Phenotyping, Genetic Engineering, and Screening Techniques required for Developing Drought-Tolerant Plants Askari-Khorasgani et al. 44. Genetic Diversity in Leaf Photosynthesis Among Soybeans under Field Environment Wataru Yamori et al. Part 10: Plants/Crops Growth Responses to Climate Change and Environmental Factors 45. Climate Change and Secondary Metabolites Production, an Ecophysiological Perspective Amir Hossein Saeidnejad et al. 46. Regulation of Growth Factors in Plants by Artificial and Supplementary LED Light: An Integrated View on Morphology and Physiology Behnam Asgari Lajayer et al. Part 11: Future Promises: Plants and Crops Adaptation, and Biotechnological Aspects of Plants/Crops Improvement under Normal and Stressful Conditions 47. Management of Plant Stress Physiology to Improve Crop Production and Quality Ramon G. Guevara-Gonzalez et al. 48. CAM Plants as Crops: Metabolically Flexible, Hardy Plants for a Changing World Alberto A. Iglesias et al. 49. Digging deeper to define the physiological responses to environmental stress: The case of common bean and brachiaria grasses Idupulapati Madhusudana Rao 50. New Approaches for Improving Turfgrass Nutrition: Usage of Humic Substances and Mycorrhizal Inoculation Ali Nikbakht et al.

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