01185nas 2200373-a 450 991014679250332120240111213018.01553-8737(OCoLC)57205544(CKB)1000000000024971(CONSER)--2004216529(EXLCZ)99100000000002497120041210a20059999 s-- aengurcnu||||||||txtrdacontentcrdamediacrrdacarrierCalifornia economic policy CEPSan Francisco, Calif. Public Policy Institute of CaliforniaTitle from journal home page (viewed July 25,2006).1552-2105 CEPEconomic policyfast(OCoLC)fst00902025CaliforniaEconomic policyPeriodicalsCaliforniafasthttps://id.oclc.org/worldcat/entity/E39PBJt8p3GDkhpJkC9y6FY3wCPeriodicals.fastEconomic policy.338.9794Public Policy Institute of California.JOURNAL9910146792503321California economic policy2577010UNINA05562nam 22005775 450 991074697380332120230930211245.0981-9946-69-710.1007/978-981-99-4669-3(MiAaPQ)EBC30765535(Au-PeEL)EBL30765535(DE-He213)978-981-99-4669-3(PPN)272740942(CKB)28443967700041(EXLCZ)992844396770004120230930d2023 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierSalinity and Drought Tolerance in Plants Physiological Perspectives /edited by Ashwani Kumar, Pooja Dhansu, Anita Mann1st ed. 2023.Singapore :Springer Nature Singapore :Imprint: Springer,2023.1 online resource (606 pages)Print version: Kumar, Ashwani Salinity and Drought Tolerance in Plants Singapore : Springer,c2023 9789819946686 Chapter 1. Occurrence of salinity and drought stresses: status, impact and management -- Chapter 2. Multiple stresses is a big challenge for development of tolerant varieties: Shared and unique physiological responses -- Chapter 3. Physio-biochemical approaches for raising drought tolerance in plants: Recent progress and future perspectives -- Chapter 4. Physiological, biochemical and molecular responses to salt stress and seed priming approach to enhance salt tolerance in bread wheat -- Chapter 5. Drought and salinity stress: an overlapping osmotic resistance -- Chapter 6. Physiological and Post-Harvest Quality Changes of Horticultural Crops under salt stress -- Chapter 7. Conventional Breeding and Advance Approaches to Mitigate Drought and Salt Stress in Crop Plants -- Chapter 8. Strategies for improving tolerance to combined effect of drought and salinity stress in crops -- Chapter 9. Stress protectants in amelioration of abiotic stress: mechanism of action and potential role in sustaining oilseed and pulses productivity -- Chapter 10. Insights into drought and salinity stress tolerance in crop plant through various genomic approaches under changing climate -- Chapter 11. Strategies to improve drought and salinity tolerance in some cash crops through proteomics perspective -- Chapter 12. Insights in metabolomics responses to drought and salinity stress in crop plants -- Chapter 13. Transcriptional Regulatory Network Involved in Drought and Salt Stress Response in Rice -- Chapter 14. Advancement of omics approaches in understanding the mechanism of salinity tolerance in legumes -- Chapter 15. Speed Breeding: A budding technique to improve crop plants for drought and salinity tolerance.This edited book is a comprehensive collection of scientific research on different plants under drought and salt stress conditions. The main focus of this book is to elaborate on the mechanisms being operative in plants under stress and how various biological factors mitigate the adverse effects for better plant productivity. This book covers all physiological, biochemical, and molecular mechanisms operating under drought and saline stresses. The current status and impact of drought and salinity on various crop plants have been elaborated on in different chapters. Agricultural lands are either turning barren or becoming more saline and drought-prone with increasing temperatures, decreasing water tables, untimely rainfall, and other environmental factors. In India, salt-affected soils occupy an area of about 6.73 million ha of which saline and sodic soils constitute roughly 40 and 60%, respectively. All these factors individually or cumulatively, affect the plant growth and development and hence, the crop productivity with the monetary loss. The inbuilt plant's ability with modified/acclimatized mechanisms has been described in various chapters with step-wise descriptions. The role of various plant growth-promoting agents including nano-particles, micro-organisms, metabolites or phytohormones, etc in mitigating adverse effects of drought and salinity has been explained precisely. Updated information on the use of speed breeding, proteomics, epigenetics, and transcriptomics in different crops along with high throughput technologies is included for the cross-talk of various network mechanisms. This book is helpful for the readers in knowing salinity and drought through the physiological, biochemical and genetic, and molecular levels to understand plant behaviour under stress conditions. Also, the book serves as additional reading material for undergraduate and graduate students of agriculture, plant physiology, biochemistry, forestry, and environmental sciences. National and international agricultural scientists and policymakers will also find this to be a useful read.AgricultureBotanyPlant physiologyAgriculturePlant SciencePlant PhysiologyAgriculture.Botany.Plant physiology.Agriculture.Plant Science.Plant Physiology.581.7880723Kumar Ashwani318129Dhansu Pooja1431237Mann Anita1431238MiAaPQMiAaPQMiAaPQBOOK9910746973803321Salinity and Drought Tolerance in Plants3573346UNINA