Physiology and biotechnology integration for plant breeding /
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作 者:edited by Henry T. Nguyen, Abraham Blum.
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ISBN:9780824748029
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Summary:
Publisher Summary 1
In introducing 16 chapters by international scientists, Nguyen (soybean genomics and biotechnology, U. of Missouri-Columbia) and Blum (Agricultural Research Organization, Bet Dagan, Israel) comment on the increasing pressures on plant breeding for sustainable agriculture. New technologies are increasingly being turned to because of ecosystem stress, decreasing genetic diversity, and the slowness of molecular approaches in raising yields. Offered as a dialog between plant physiology and biotechnology, this volume summarizes the latest information, tools, case studies, and views on crop physiology and such biotech areas as functional genomics. Crops discussed include sorghum, soybeans, peanuts, and cotton. Annotation 漏2004 Book News, Inc., Portland, OR (booknews.com)
目录
Preface p. iii
Part I Physiological Basis of Yield and Environmental Adaptation
1. Physiology of Yield and Adaptation in Wheat and Barley Breeding Jose L. Araus and Gustavo A. Slafer and Matthew P. Reynolds and Conxita Royo p. 1
2. Genetic Yield Improvement and Stress Tolerance in Maize Matthijs Tollenaar and Elizabeth A. Lee p. 51
3. Physiological Basis of Yield and Environmental Adaptation in Rice Shaobing Peng and Abdelbagi M. Ismail p. 83
4. Sorghum Physiology Abraham Blum p. 141
5. Pearl Millet Francis R. Bidinger and C. Thomas Hash p. 225
6. Comparative Ecophysiology of Cowpea, Common Bean, and Peanut Anthony E. Hall p. 271
7. The Physiological Basis of Soybean Yield Potential and Environmental Adaptation Tara T. VanToai and James E. Specht p. 327
8. The Physiological Basis of Yield and Environmental Adaptation in Cotton Derrick M. Oosterhuis and James McD. Stewart p. 363
Part II Application of Biotechnology to Improve Crop Yield and Adaptation
9. Genome Mapping and Genomic Strategies for Crop Improvement Prasanta K. Subudhi and Henry T. Nguyen p. 403
10. Marker-Assisted Utilization of Exotic Germ Plasm Ilan Paran p. 453
11. Heterosis of Yield: Molecular and Biochemical Perspectives Charles W. Stuber p. 469
12. Genetic Engineering for Enhancing Plant Productivity and Stress Tolerance Tuan-hua David Ho and Ray Wu p. 489
13. Genome Mapping and Marker-Assisted Selection for Improving Cotton (Gossypium spp.) Productivity and Quality in Arid Regions Yehoshua Saranga and Andrew H. Paterson p. 503
14. Molecular Dissection of Abiotic Stress Tolerance in Sorghum and Rice M. S. Pathan and Prasanta K. Subudhi and Brigitte Courtois and Henry T. Nguyen p. 525
15. Genetic Dissection of Drought Resistance in Maize: A Case Study Jean-Marcel Ribaut and Marianne Banziger and Tim L. Setter and Gregory O. Edmeades and David Hoisington p. 571
16. Physiology and Biotechnology Integration for Plant Breeding: Epilogue Abraham Blum and Henry T. Nguyen p. 611
Index p. 619
Part I Physiological Basis of Yield and Environmental Adaptation
1. Physiology of Yield and Adaptation in Wheat and Barley Breeding Jose L. Araus and Gustavo A. Slafer and Matthew P. Reynolds and Conxita Royo p. 1
2. Genetic Yield Improvement and Stress Tolerance in Maize Matthijs Tollenaar and Elizabeth A. Lee p. 51
3. Physiological Basis of Yield and Environmental Adaptation in Rice Shaobing Peng and Abdelbagi M. Ismail p. 83
4. Sorghum Physiology Abraham Blum p. 141
5. Pearl Millet Francis R. Bidinger and C. Thomas Hash p. 225
6. Comparative Ecophysiology of Cowpea, Common Bean, and Peanut Anthony E. Hall p. 271
7. The Physiological Basis of Soybean Yield Potential and Environmental Adaptation Tara T. VanToai and James E. Specht p. 327
8. The Physiological Basis of Yield and Environmental Adaptation in Cotton Derrick M. Oosterhuis and James McD. Stewart p. 363
Part II Application of Biotechnology to Improve Crop Yield and Adaptation
9. Genome Mapping and Genomic Strategies for Crop Improvement Prasanta K. Subudhi and Henry T. Nguyen p. 403
10. Marker-Assisted Utilization of Exotic Germ Plasm Ilan Paran p. 453
11. Heterosis of Yield: Molecular and Biochemical Perspectives Charles W. Stuber p. 469
12. Genetic Engineering for Enhancing Plant Productivity and Stress Tolerance Tuan-hua David Ho and Ray Wu p. 489
13. Genome Mapping and Marker-Assisted Selection for Improving Cotton (Gossypium spp.) Productivity and Quality in Arid Regions Yehoshua Saranga and Andrew H. Paterson p. 503
14. Molecular Dissection of Abiotic Stress Tolerance in Sorghum and Rice M. S. Pathan and Prasanta K. Subudhi and Brigitte Courtois and Henry T. Nguyen p. 525
15. Genetic Dissection of Drought Resistance in Maize: A Case Study Jean-Marcel Ribaut and Marianne Banziger and Tim L. Setter and Gregory O. Edmeades and David Hoisington p. 571
16. Physiology and Biotechnology Integration for Plant Breeding: Epilogue Abraham Blum and Henry T. Nguyen p. 611
Index p. 619
Physiology and biotechnology integration for plant breeding /
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