05617nam 2200733 450 991083039670332120230725040456.00-470-96068-X1-283-33734-70-470-96067-197866133373440-470-96070-1(CKB)3190000000022598(EBL)818642(SSID)ssj0000555154(PQKBManifestationID)11364366(PQKBTitleCode)TC0000555154(PQKBWorkID)10518042(PQKB)11626474(MiAaPQ)EBC4029064(MiAaPQ)EBC818642(OCoLC)746326265(EXLCZ)99319000000002259820160819h20112011 uy 0engur|n|---|||||txtccrThe molecular and physiological basis of nutrient use efficiency in crops /edited by Malcolm J. Hawkesford, Peter BarracloughChichester, England :Wiley Blackwell,2011.©20111 online resource (1264 p.)Description based upon print version of record.0-8138-1992-X Includes bibliographical references at the end of each chapters and index.Cover; Title page; Copyright page; Preface; Contributors; Part I: Generic Aspects of Crop Nutrition; Chapter 1 An Overview of Nutrient Use Efficiency and Strategies for Crop Improvement; Introduction; Yield and fertilizers: the need for crop improvement; Nutrient use efficiency: critical processes, definitions, mechanisms, and targets for improvement; Strategies and approaches for the genetic improvement of NUE traits; Prospects; Acknowledgments; Chapter 2 Crop Root Systems and Nutrient Uptake from Soils; Introduction; Exploration of the soil; Accessing and capturing nutrientsExploiting genotypic variation in root properties to improve nutrient captureManagement to optimize capture by root systems; Chapter 3 The Role of the Rhizosphere in Nutrient Use Efficiency in Crops; Introduction; Physicochemical properties of the rhizosphere; Nutrient use efficiency and availability in the rhizosphere as the result of interactions between roots and microorganisms; Nutrient uptake and root zone; Conclusion; Chapter 4 Optimizing Canopy Physiology Traits to Improve the Nutrient Utilization Efficiency of Crops; Rationale for improved nutrient economy of cropsCanopy traits for enhacing radiation capture and RUEIncreasing radiation interception per unit nutrient uptake; Canopy traits to increase photosynthetic capacity per unit nutrient uptake; Conclusions; Chapter 5 Senescence and Nutrient Remobilization in Crop Plants; Introduction; The senescence process; Degradation and transport; Regulation of senescence; Conclusions: the dilemma of senescence; Chapter 6 Effects of Nitrogen and Sulfur Nutrition on Grain Composition and Properties of Wheat and Related Cereals; Introduction; Effect of nitrogen on grain protein contentEffect of nitrogen on grain protein nutrition and qualityEffect of grain nitrogen on protein composition and functional properties of wheat; Effect of sulfur on grain protein composition and functional properties of wheat; Effects of nitrogen and sulfur on protein composition and malting quality of barley; Effects of nitrogen on β-glucan in oats; Effect of nitrogen and sulfur nutrition on other cereal grain components; Nutritional control of storage protein gene expression; Conclusions; Acknowledgments; Part II: Nitrogen as a Key Driver of ProductionChapter 7 Genetic Improvement of Nutrient Use Efficiency in WheatIntroduction; The genetic progress for NUE; NUE relation to GPC; Heterosis for NUE; Selection for increased NUE; Molecular approaches to improving NUE; Conclusions and perspectives; Chapter 8 The Molecular Genetics of Nitrogen Use Efficiency in Crops; Introduction; Nitrogen Metabolism and Its Management; Identification of Key Genes Using Reverse and Forward Genetics; Conclusions and Perspectives; Chapter 9 Biotechnological Approaches to Improving Nitrogen Use Efficiency in Plants: Alanine Aminotransferase as a Case StudyIntroductionEfforts to increase efficient nutrient use by crops are of growing importance as the global demand for food, fibre and fuel increases and competition for resources intensifies. The Molecular and Physiological Basis of Nutrient Use Efficiency in Crops provides both a timely summary of the latest advances in the field as well as anticipating directions for future research. The Molecular and Physiological Basis of Nutrient Use Efficiency in Crops bridges the gap between agronomic practice and molecular biology by linking underpinning molecular mechanisms to the physiological and CropsNutritionCropsNutritionMolecular aspectsCropsNutritionPhysiologyPlant nutrientsCrop yieldsCropsNutrition.CropsNutritionMolecular aspects.CropsNutritionPhysiology.Plant nutrients.Crop yields.631.8631.811Hawkesford Malcolm J.Barraclough Peter(Peter B.),MiAaPQMiAaPQMiAaPQBOOK9910830396703321The molecular and physiological basis of nutrient use efficiency in crops4050069UNINA