Plant genes, genomes, and genetics / Edited by, Lacal, carlos Tello.
Material type: TextPublisher: Canada Delve Publishing., 2019Description: xv, 240 pages : illustrations ; 23 cmContent type:- text
- 9781773614182 (HB.)
- 572.82 PLA
Item type | Current library | Collection | Call number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|
Books | H.T. Parekh Library | SIAS Collection | 572.82 PLA (Browse shelf(Opens below)) | Available | K2740 |
S165.00/-
Includes bibliographical references and index.
Chapter 1 Introduction To Plant Genes, Genomes and Genetics; 1.1 Introduction; 1.2 Plant Genes; 1.3 Plant Genome; 1.4 Genetic Evaluation In Plants; Chapter 2 Genetic and Physiological Controls in Plants; 2.1 Introduction; 2.2 Genetic and Physiological Controls During Plants Establishment; 2.3 Plant Signaling and Regulation; Chapter 3 Breeding System in Plants; 3.1 Introduction; 3.2 History and Nature of Plant Breeding; 3.3 Diverse Plant Breeding Techniques 3.4 Genetic Structure of Plants as Related to Breeding System3.5 Genetic Variation In Plant Breeding System; 3.6 Relationship Between Yields, Genetics, and Breeding System; 3.7 Breeding and Biodiversity; 3.8 Safeguarding New Plant Varieties Through Intellectual Property; Chapter 4 Heterosis and Combining Ability in Sunflower and Bean Plants; 4.1 Introduction; 4.2 Genetics, Genomics, and Breeding of Sunflower; 4.3 Genetics, Genomics, and Breeding of Beans; Chapter 5 Genetics in Hybridization of Coffee and Maize Plants; 5.1 Introduction; 5.2 Hybridization of Coffee Plants 5.3 Maize HybridizationChapter 6 Characterization of Gene Flow In Plants: A Case Analysis of Amaranth; 6.1 Introduction; 6.2 Amaranth Types; 6.3 Breeding System In Amaranth; 6.4 Gene Flow During Outcrossing In Amaranth; 6.5 Germplasm Collections and Production; 6.6 Breeding Systems Based on the Genetic Structure of Amaranth; 6.7 Methods of Interspecific Gene Transfer In Amaranth; 6.8 Prediction of Amaranth Yield; Chapter 7 Clonal Breeding In Plants; 7.1 Introduction; 7.2 Clonal Breeding of Potato; 7.3 Clonal Breeding of Citrus Fruits; 7.4 Passion Fruit Breeding 7.5 Clonal Breeding of Strawberry7.6 Clonal Breeding of Sugar Cane; 7.7 Clonal Breeding of Pyrethrum; 7.8 Clonal Breeding of Napier Grass; Chapter 8 Genetics In Plant Viral and Bacterial Diseases; 8.1 Introduction; 8.2 Characterization of Plant Viruses; 8.3 Characterization of Bacterial Plant Diseases; Chapter 9 Genetic Modification of Agricultural Plants For Resistance Against Common Diseases and Pests; 9.1 Introduction; 9.2 Breeding Pigeon Peas For Resistance Against Fusarium Wilt; 9.3 Genetic Responses of Common Bean Cultivars To Bean Flies 9.4 Genetically Resistant Wheat Varieties Against Stripe Rust9.5 Breeding Potato For Resistance to Late Blight; 9.6 Breeding Maize For Resistance to Southern Leaf Blight; 9.7 Genetically Resistant Cultivars Against Cowpea Aphids; 9.8 Genetically Resistant Coffee to Coffee Berry Disease; 9.9 Genetically Resistant Cassava Cultivars to Mosaic Disease; 9.10 Genetically Resistant Cowpea Cultivars Against Cowpea Weevil; 9.11 Genetic Resistance to Mediterranean Fruit Fly; 9.12 Breeding Beans For Resistance to Common Mosaic Virus; 9.13 Genetic Resistance Against Melon Thrips; 9.14 Genetically Resistant Bean Cultivars To Angular Leaf Spot.
Plant Genes, Genomes and Genetics takes into account various dimensions of plants genes and genomes along with the brief description on breeding systems in plants. It includes the meaning of genetic and physiological control in plants, plant genotype and clonal breeding in plants. Provide the reader with the insights into the development of genetics and genomes amongst plants, so as to understand those situations referring to when and how plants operate differently from other organisms.
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