Titlebook: Genomic Designing of Climate-Smart Fruit Crops; Chittaranjan Kole Book 2020 Springer Nature Switzerland AG 2020 global warming.adaptation.

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Genomic Designing of Climate-Smart Coconut,. Also, breeders’ toolbox has been improved with the availability of various techniques such as molecular marker kits, association mapping, and genomic selection. This chapter describes the impact of climate change in coconut, progresses made in the field of coconut genomics, and various approaches

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Genetic and Genomic Approaches for Adaptation of Grapevine to Climate Change,s makes the range of interactions (scion-atmosphere, rootstock-soil, scion-rootstock) more complex, it also opens up wider possibilities for the genetic improvement of either or both the grafted genotypes. Positive aspects related to grapevine breeding are as follows: (a) a wide genetic diversity of

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Development of Climate-Resilient Varieties in Rosaceous Berries, by different stresses. Their interactive function suggests the existence of crosstalk between cold and drought, biotic and abiotic stress responses. Knowledge of the structural or mechanical barriers for the pathogens, biochemistry of secondary metabolites and phytohormones as well as linked molecu

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Genomics Opportunities and Breeding Strategies Towards Improvement of Climate-Smart Traits and Diselevated adaptation to climatic challenges, including disease resistance against pathogens. The rapidly accumulating genomic resources will enable the development of molecular markers associated with many important quantitative trait loci, deciphering the genomic variations in various germplasms towa

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https://doi.org/10.1007/978-1-349-14970-4nd to expected future warming climates will depend on the breeding of climate-resilient varieties able to complete endodormancy under warmer and more variable climates. Major breeding challenges will be the appropriate phenotyping and selection of elite seedlings from the required large breeding pop

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