Titlebook: Recent Approaches in Omics for Plant Resilience to Climate Change; Shabir Hussain Wani Book 2019 Springer Nature Switzerland AG 2019 Omics

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书目名称Recent Approaches in Omics for Plant Resilience to Climate Change被引频次学科排名




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书目名称Recent Approaches in Omics for Plant Resilience to Climate Change读者反馈学科排名

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Genome Editing and Abiotic Stress Tolerance in Crop Plants,atening crop yield and quality, and leading to global food insecurity. In this aspect, plant breeders have developed many genetic engineering approaches to enhance crop productivity, which are not able to meet the demand of food production as the inheritance of abiotic stress tolerance is so complex

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Metabolomic Profiling of Plants to Understand Reasons for Plant Stress Resilience to Abiotic Stressresses influence the plant growth and overall crop productivity. Plants have evolved a series of mechanisms for responding to these stresses over a long period during evolution. Under abiotic stress, plant metabolism is disturbed. The reconfiguration of metabolic networks of plant must happen under

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In Vitro Screening of Crop Plants for Abiotic Stress Tolerance,sses are an important obstacle for increased agricultural production around the world. For this reason, plant breeders seek to breed important crop plants against major stresses such as drought, salinity and cold. Genetic diversity is the important key to success for plant breeders. This diversity o

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,MicroRNA as a Tool for Mitigating Abiotic Stress in Rice (, L.),ted to multiple stresses in chorus leading to colossal changes in the molecular landscape of a cell. Being sessile rice crop is persistently exposed to various abiotic stresses with devastating effect on its survival and productivity. Abiotic stresses can change growth, development and productivity

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Advances in Functional Genomics in Investigating Salinity Tolerance in Plants, Excessive salt exposure induces morphological and anatomical changes that include a reduction in the dry weight of leaves and roots, root length, root volume, average root diameter, chlorophyll and net photosynthesis, and stomatal conductance. A number of genes were found to be involved in salt tol

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Drought Stress in Chickpea: Physiological, Breeding, and Omics Perspectives,a productivity is strictly threatened by abiotic stress; notably among them is terminal drought stress. Drought stress causes reduction in photosynthesis and stomatal conductance that leads to the biosynthesis of ABA. Consequently, the plant faces oxidative stress, which is produced by ROS: H.O., O.

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GM Maize for Abiotic Stresses: Potentials and Opportunities, for science and technology. Many basic and applied phenomena are discovered and applied by using this plant to prove their worth before generalization. Hybrid seed production, which is a well accepted breeding technique now, was identified and practically applied on maize to significantly enhance p