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000761251 1001_ $$aUprety, Dinesh Chandra.
000761251 24510 $$aCrop responses to global warming /$$cDinesh Chandra Uprety, V.R. Reddy.
000761251 260__ $$aSingapore :$$bSpringer Singapore,$$c2016.
000761251 300__ $$a1 online resource (143 pages)
000761251 336__ $$atext$$btxt$$2rdacontent
000761251 337__ $$acomputer$$bc$$2rdamedia
000761251 338__ $$aonline resource$$bcr$$2rdacarrier
000761251 504__ $$aIncludes bibliographical references.
000761251 5050_ $$aForeword; Preface; Acknowledgments; Contents; Acronyms; Glossary of Terms; 1 Introduction; References; 2 Problems and Prospects of Crops with Changing Temperature; 2.1 Soil; 2.2 Growth and Development of Crop Plants; 2.3 Photosynthesis and High-Temperature Stress; 2.4 Respiration; 2.5 Biochemical Processes; 2.6 Heat Shock Proteins (HSPs); 2.6.1 Grain Quality; 2.7 Crop Growth Simulation Model; 2.8 Adaptation and Mitigation; 2.9 Thermal Tolerance; 2.10 Future Thrust; 2.11 Crop/Weed Interactions; 2.12 Biotic Stresses and Pest Management; 2.13 Adaptation to High-Temperature Stress; References.
000761251 5058_ $$a3 Temperature Enrichment Technologies for Crop Response Studies3.1 Temperature Gradient Chambers; 3.2 Temperature Gradient Greenhouses (TGG); 3.3 SPAR System (Soil Plant Atmosphere Research System); 3.4 Infrared (IR) Warming Technology; 3.5 Free Air Temperature Enrichment Technology (FATE); 3.6 Soil Warming System; References; 4 Case Histories: Crops; 4.1 Wheat; 4.1.1 Growth and Development; 4.1.2 Physiological Responses; 4.1.3 Floral Initiation and Development; 4.1.4 Grain Quality; 4.1.5 Mitigation; 4.2 Rice; 4.2.1 Phenophase Stages; 4.2.2 Physiological Processes.
000761251 5058_ $$a4.2.3 Elevated CO2 and Temperature Interaction4.2.4 Physiological Processes; 4.2.5 Rice Models; 4.2.6 Pests and Their Management; 4.2.7 Grain Quality; 4.2.8 Mitigation; 4.3 Soybean; 4.3.1 Pest and Pest Management; 4.3.2 Grain Quality; 4.4 Maize; 4.4.1 Phenology; 4.4.2 Effect of Cold Stress; 4.4.3 Grain Quality; 4.4.4 Model; 4.4.5 Plant Diseases; 4.4.6 Pest Management; 4.4.7 Weeds; 4.4.8 Mitigation Techniques for Low-Temperature Stress; 4.4.9 Mitigation Technologies for High-Temperature Stress; 4.4.10 Future Thrust; 4.5 Cotton; 4.5.1 Growth and Development; 4.6 Brassica; 4.6.1 Grain Quality.
000761251 5058_ $$a4.6.2 Adaptation and MitigationReferences; 5 Mitigation Technologies to Control High-Temperature Stress in Crop Plants; References.
000761251 506__ $$aAccess limited to authorized users.
000761251 520__ $$aThe monograph entitled ℓ́ℓCrop responses to Global warmingℓ́ℓ describes the normal historical shifts in the earthℓ́ℓs atmospheric temperature and weighs the evidence concerning anthropogenic induced changes in the level of temperature. The unprecedented increase in the earthℓ́ℓs temperature after pre industrial period has been possibly related to the anthropogenic activities. This monograph will give an overview of the global as well as Indian crops productivity in relation to the rise in the earthℓ́ℓs surface temperature. A chapter in this monograph is on the technologies to study the response of crop plants to the elevated temperature. The impact assessment analysis of rising temperature on crops such as wheat, rice, maize, soybean, cotton and brassica are described, reviewed and discussed in separate chapters as case studies. The responses of physiological processes and biochemical reactions to the elevated temperature in crop plants are described crop wise. The monograph also includes the impact of elevating temperature on crop weed interaction, pest and diseases and soil dynamics for each crop species independently. The mitigation technologies to counter the adverse effect of high temperature stress are described for each crop according to their cultivation and climatic conditions. The future research strategies for each crop to meet the threat of elevating temperature on crop productivity and food security is described and discussed. The description of temperature enrichment technologies will help researchers and scientists to study the responses of biological materials to rising temperature. The monograph will be the main text for teaching climate change, global warming and environmental botany as no such book is currently available relating to the rising atmospheric temperature on crop plants. Therefore, the monograph will be highly useful for students of global climate change, environmental botany and agricultural sciences, scientists, researchers, farmers and policy makers.
000761251 588__ $$aDescription based on print version record.
000761251 650_0 $$aCrops and climate.
000761251 7001_ $$aReddy, V. R.
000761251 77608 $$iPrint version:$$aUprety, Dinesh Chandra.$$tCrop Responses to Global Warming.$$dSingapore : Springer Singapore, ©2016$$z9789811020032
000761251 852__ $$bebk
000761251 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-981-10-2004-9$$zOnline Access$$91397441.1
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000761251 982__ $$aEbook
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