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Genetic Diversity and Phenotypic Stability in Crop Plants, authored by S. Thirugnanakumar, is a comprehensive hardback volume that delves into the essential aspects of genetic diversity in crop evolution. This book is particularly vital for researchers and practitioners in the field of classical plant breeding, providing a detailed morphometric analysis that aids in identifying suitable parent plants for superior progeny development. It emphasizes the importance of genetically diverse parents for achieving high heterosis in the F1 generation and producing valuable segregants in successive generations. With its focus on traditional measurement techniques, such as the Mahalanobis D2 method, the book also explores the influence of seasonal and environmental variances on genetic diversity assessments, providing critical insights into practical plant breeding. Furthermore, the work discusses modern molecular marker techniques that help assess genetic diversity independently of environmental factors. This book is a valuable resource for understanding genetic diversity and phenotypic stability across various field and horticultural crops, making it indispensable for those involved in crop improvement programs.
Key Features
| Features | Description |
|---|---|
| Author | S. Thirugnanakumar |
| Format | Hardback |
| Subject Matter | Genetic Diversity and Plant Breeding |
| Key Analysis Method | Mahalanobis D2 method |
| Focus | Molecular Markers and Environmental Conditions |
| Intended Audience | Researchers in Crop Improvement Programs |
| Contents Overview | Includes analysis of various crops like Rice, Sesame, Blackgram, and more. |
| Attributes | Description |
|---|---|
| Publication Year | 2023 |
| Pages | Not specified |
| Publisher | Not specified |
| ISBN | Not specified |
| Illustrations | Includes diagrams and figures to illustrate genetic concepts |
| Language | English |
*Disclaimer: The above description has been AI-generated and has not been audited or verified for accuracy. It is recommended to verify product details independently before making any purchasing decisions.
Brand: NIPA
Country Of Origin: India
Genetic diversity is a vital component of crop evolution, and its assessment through morphometric analysis in classical plant breeding is highly beneficial for studying crop evolution and identifying suitable parents for developing superior progeny. The use of genetically diverse parents can result in high heterosis in the F1 generation and the production of useful segregants in subsequent generations.
Measurement of genetic diversity has traditionally been carried out using Mahalanobis D2 method, while analysis over different seasons and environments can provide valuable information in the identification of suitable parents. The consistent genetic diversity observed across seasons and environments is particularly useful in practical plant breeding. Additionally, genetic diversity can also be assessed using molecular markers to avoid environmental interaction.
The book provides valuable information on genetic diversity and phenotypic stability in various field and horticultural crops for researchers involved in crop improvement programs.
Genetic diversity is a vital component of crop evolution, and its assessment through morphometric analysis in classical plant breeding is highly beneficial for studying crop evolution and identifying suitable parents for developing superior progeny. The use of genetically diverse parents can result in high heterosis in the F1 generation and the production of useful segregants in subsequent generations.
Measurement of genetic diversity has traditionally been carried out using Mahalanobis D2 method, while analysis over different seasons and environments can provide valuable information in the identification of suitable parents. The consistent genetic diversity observed across seasons and environments is particularly useful in practical plant breeding. Additionally, genetic diversity can also be assessed using molecular markers to avoid environmental interaction.
The book provides valuable information on genetic diversity and phenotypic stability in various field and horticultural crops for researchers involved in crop improvement programs.
Content
1. Mahalanobi D2 Statistic 2. Genetic Diversity in Rice [Oryza sativa (L.)] Thirugnanakumar, S. and R. Balamurugan 3. Genetic Diversity in Sesame [Sesamum indicum (L.)] Thirugnanakumar, S. and A. Anandan 4. Genetic Diversity in Blackgram [Vigna mungo (L.) Walp.] Thirugnanakumar, S. and S. Thirumalraj 5. Genetic Diversity in Greengram [Vigna radiata (L.) Walp.] Thangavelu, P. and S. Manamalli 6. Genetic Diversity in Bhendi [Abelmoschus esculentus (L.)] Moench] Senthilkumar, N. and K. Ramya 7. Genetic Diversity in Coconut [Cocos nucifera (L.)] Thirugnanakumar, S. and Alice Antony 8. Genetic Diversity in Pomegranate [Punica granatum (L.)] Manivannan, K. 9. Genetic Diversity in Mango [Magnifera indica (L.)] 10. Genetic Diversity in Jackfruit [Artocarpus heterophyllus (Lamk.)] Manivannan, K. and R. Rajesh Kannan 11. Genetic Diversity in Gamboge Tree [Garcinia gummi Gutta (L.)] Thirugnanakumar, S. and K. Inasi 12. Molecular Genetic Diversity in Rice [Oryza sativa (L)] Anandan, A. and S. Thirugnanakumar 13. Stability Analysis in Crop Plants 14. Stability Analysis in Rice [Oryza sativa (L.)] Thirugnanakumar, S. and R. Balamurugan 15. Stability Analysis in Sesame [Sesamum indicum (L.)] Thirugnanakumar, S. and A. Anandan 16. Stability Analysis in Blackgram [Vigna mungo (L.)] Hepper Thangavelu, P. and N. Senthilkumar 17. Stability Analysis in Bhendi [Abelmoschus esculentus (L.)] Moench] Senthilkumar, N.
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