Nitrogen Fixation with Non-Legumes
Proceedings of the 7th International Symposium on Nitrogen Fixation with Non-Legumes, held 16-21 October 1996 in Faisalabad, Pakistan
(Sprache: Englisch)
Proceedings of the 7th International Symposium on Nitrogen Fixation with Non-Legumes, held 16-21 October 1996 in Faisalabad, Pakistan
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Proceedings of the 7th International Symposium on Nitrogen Fixation with Non-Legumes, held 16-21 October 1996 in Faisalabad, Pakistan
Klappentext zu „Nitrogen Fixation with Non-Legumes “
Diazotrophic bacteria convert atmospheric nitrogen to plant-useable form and this input of nitrogen through biological fixation is of great agronomic importance. The contributions presented in this volume relate to free-living nitrogen fixers and the diazotrophs associated with plants. Symbiotic association of Frankia with non-legumes and cyanobacterial associations are also discussed. Research topics covered in this volume include the biochemistry and genetics of diazotrophs, recent developments in improvement of plant-microbe interactions and their molecular basis, the use of molecular probes in taxonomy and ecology of diazotrophs and reports on field applications, agronomic importance and improvement in methodologies for assessing their contribution to plants. This book provides valuable information not only for researchers working in the field of biological nitrogen fixation but also for biochemistry, molecular biologists, microbiologists and agronomists.
Inhaltsverzeichnis zu „Nitrogen Fixation with Non-Legumes “
1. Biological Nitrogen Fixation by Endophytic Diazotrophs in Non Leguminous Crops in the Tropics; J. Dobereiner, V.L.D. BaldaniSession 1: Biochemistry and Genetics of Diazotrophs
2. Analysis of Nitrogen Fixation and Regulatory Genes in the Sugarcane Endophyte Acetobacter diazotrophicus; S. Lee, et al.
3. Functional Analysis of a Cloned NIFA Homologous Gene of Azospirillum brasilense YU62; Gui Su, et al.
4. Identification of Plant Growth Hormones Produced by Bacterial Isolates from Rice, Wheat and Kallar Grass; G. Rasul, et al.
Session 2: Ecophysiological Studies for the Improvement of Plant-Microbe Interaction
5. The Rice Endophytic Diazotroph and PGPR; W. Song, et al.
6. Response of Two Maize Cultivars to Azospirillum Inoculation and/or Farmyard Manure Amendment Using 15N-Dilution Method; T.M.M. Moharram, et al.
7. Contribution of Non-Leguminous Biofertilizers to Rice Biomass, Nitrogen Fixation and Fertilizer-N Use Efficiency under Flooded Conditions; S. Ali, et al.
8. Detection of Inoculated Plant Growth Promoting Rhizobacteria in the Rhizosphere of Rice; S. Mehnaz, et al.
Posters
9. Salt Tolerance of Diazotroph Alaligenes faecalis and its Salt-Tolerant Association with Host Rice; S.Z. Ping, et L. 10. Interaction of Azorhizobium caulinodans with Different Rice Cultivars for Increased N2-Fixation; S.N. Khokhar, A. Qureshi
11. Response of Wheat to an Associative Diazotroph Inoculum Under Different Rates of Nitrogen Fertilizer; A. Rashid, et al.
12. Effect of High Temperature on Nitrogen Fixation in Soybean Cultivars; M.I. Keerio, J.M. Wilson
13. Effect of Plant Growth Regulators and Rhizobium Inoculum On N2- Fixation and Yield of Chickpea; F. Zarrin, et al.
Session 3: Paranodulation and Forced Association of Diazotrophs with Non-Legumes
14. Prospects for Facilitated Evolution of Effective N-Fixing Associations with Cereals: Comparative Performance of Azospirillum brasilense SP7-S with Various Free-Living Diazotrophs
... mehr
in Para-Nodulated Wheat; I.R. Kennedy, et al.
15. Transgenic Rice Plants with Parasponia Hemoglobin Gene and its Expression; Wei Guo, et al.
16. Cell Structures of Pseudonodules Formed on the Roots of Barley and Rice; Shan Xueqin, Jing Yuxiang
Posters
17. Induction of Paranodulation by 2,4-D IAA and Tryptophan in Wheat Inoculated with Various Diazotrophs; H. Youssef, et al.
18. Optimizing Zinc and Phosphate Statuses for Enhancing Field Colonization and Contribution of the Symbiotic Association Azolla-anabaena to Rice Performance; Y.G. Yanni
19. Enhancement of Rice Performance and Incidence of Natural Fungal and Insect Damage with Cyanobacterization, Microelements, Combined Nitrogen and Certain Pesticide; Y.G. Yanni, et al.
Session 4: Molecular Biology of Plant&endash;Diazotroph Interaction
20. Colonisation and NIFH Expression on Rice Roots by Alcaligenes faecalis A15; H. Vermeiren, et al.
21. Responses to Azospirillum brasilense to Salinity Stress; A.K. Tripathi, B.M. Mishra
22. Studies on the Diploid Indeterminate Nodule-Forming Plant Melilotus alba Desr., White Sweetclover; A.M. Hirsch, et al.
Session 5: Molecular Probes in Taxonomy and Ecology of Diazotrophs
23. Isolation and Identification of Diazotrophic Bacteria from Rice, Wheat and Kallar Grass; U. Hassan, et al.
Session 6: Applicability and Agronomic Importance of Associative Diazotrophs
24. Diazotrophs Associated with Non-Legumes Grown in Sandy Soils; N.A. Hegazi, et al.
25. Effect of Inoculation with Nitrogen-Fixing Klebsiella on Potato Yield; V.N. Pishchik, et al.
26. Responses of Rice Plants to the Inoculation with Azospirillum Sp
Under Field Conditions; Nguyen Thi Phuong Chi, et al.
Posters
27. BGA Technology for Rice Cultivation in Northern India; R.P. Gupta, et al.
28. Modified Combined Carbon N-Deficient Medium for Isolation, Enumeration and Biomass Production of Diazotrophs; N.A. Hegazi, et al.
29. Contribution of Integrated Symbiotic and Associative Systems of Biological Nitrogen Fixation to N-Status of Intercropped Legumes and Non-Legumes in Sandy Soils of Egypt; M. Monib, et al.
30. Some Physiological Studies of Diazotrophic Bacteria Associated with Maize in a Temperature and a Tropical Soil; F.B. Mwaura, D. Widdowson
31. In Vitro Propagation Using Phytohormones Produced by Associative Diazotrophs; H.M. El-Khawas, et al.
32. Effect of Inoculation of Azotobacter and PSM on Fertilizer Economy, Plant Growth and Yield of Winter Maize; P.K. Sohal, et al.
33. Accumulation of Radionuclides by Associative Bacteria and the Uptake of 134Cs by the Inoculated Barley Plants; A.A. Belimov
34. The Influence of Chosen Fungicides on Azospirillum Dinitrogen Fixation in the Soil; D. Swedrzynska, A. Sawicka
Session 7: Methodologies for Assessing Nitrogen Fixation
35. Evaluation of Biological Nitrogen Fixation Associated with Non-Legumes; R.M. Boddey, et al.
36. Use of 15N Isotope Dilution Method to Quantify Nitrogen Fixation in Legumes and Its Potential Use for Non-Legumes; G. Hardarson, C. Hera
Session 8: Actinorhizal and Cyanobacterial Association
37. Competitivity and Persistence of Frankia in a Managed Environment; N.R. McEwan, et al.
38. Symbiotic Association between Frankia and Actinorhizal Plants; N. Boonkerd
39. Ecophysiological Studies of Cyanobacteria in Paddy Soils of Bangladesh; M.A. Hashem
40. Cyanobacterial Root Nodules in Tribulus terrestris L. (Zygophyllaceae); A. Mahmood, M. Ahter
Posters
41. Use of Azolla as Biofertilizer to Enhance Crop Yield in Rice-Wheat Cropping System Under Mild Climate; S. Ali, et al.
15. Transgenic Rice Plants with Parasponia Hemoglobin Gene and its Expression; Wei Guo, et al.
16. Cell Structures of Pseudonodules Formed on the Roots of Barley and Rice; Shan Xueqin, Jing Yuxiang
Posters
17. Induction of Paranodulation by 2,4-D IAA and Tryptophan in Wheat Inoculated with Various Diazotrophs; H. Youssef, et al.
18. Optimizing Zinc and Phosphate Statuses for Enhancing Field Colonization and Contribution of the Symbiotic Association Azolla-anabaena to Rice Performance; Y.G. Yanni
19. Enhancement of Rice Performance and Incidence of Natural Fungal and Insect Damage with Cyanobacterization, Microelements, Combined Nitrogen and Certain Pesticide; Y.G. Yanni, et al.
Session 4: Molecular Biology of Plant&endash;Diazotroph Interaction
20. Colonisation and NIFH Expression on Rice Roots by Alcaligenes faecalis A15; H. Vermeiren, et al.
21. Responses to Azospirillum brasilense to Salinity Stress; A.K. Tripathi, B.M. Mishra
22. Studies on the Diploid Indeterminate Nodule-Forming Plant Melilotus alba Desr., White Sweetclover; A.M. Hirsch, et al.
Session 5: Molecular Probes in Taxonomy and Ecology of Diazotrophs
23. Isolation and Identification of Diazotrophic Bacteria from Rice, Wheat and Kallar Grass; U. Hassan, et al.
Session 6: Applicability and Agronomic Importance of Associative Diazotrophs
24. Diazotrophs Associated with Non-Legumes Grown in Sandy Soils; N.A. Hegazi, et al.
25. Effect of Inoculation with Nitrogen-Fixing Klebsiella on Potato Yield; V.N. Pishchik, et al.
26. Responses of Rice Plants to the Inoculation with Azospirillum Sp
Under Field Conditions; Nguyen Thi Phuong Chi, et al.
Posters
27. BGA Technology for Rice Cultivation in Northern India; R.P. Gupta, et al.
28. Modified Combined Carbon N-Deficient Medium for Isolation, Enumeration and Biomass Production of Diazotrophs; N.A. Hegazi, et al.
29. Contribution of Integrated Symbiotic and Associative Systems of Biological Nitrogen Fixation to N-Status of Intercropped Legumes and Non-Legumes in Sandy Soils of Egypt; M. Monib, et al.
30. Some Physiological Studies of Diazotrophic Bacteria Associated with Maize in a Temperature and a Tropical Soil; F.B. Mwaura, D. Widdowson
31. In Vitro Propagation Using Phytohormones Produced by Associative Diazotrophs; H.M. El-Khawas, et al.
32. Effect of Inoculation of Azotobacter and PSM on Fertilizer Economy, Plant Growth and Yield of Winter Maize; P.K. Sohal, et al.
33. Accumulation of Radionuclides by Associative Bacteria and the Uptake of 134Cs by the Inoculated Barley Plants; A.A. Belimov
34. The Influence of Chosen Fungicides on Azospirillum Dinitrogen Fixation in the Soil; D. Swedrzynska, A. Sawicka
Session 7: Methodologies for Assessing Nitrogen Fixation
35. Evaluation of Biological Nitrogen Fixation Associated with Non-Legumes; R.M. Boddey, et al.
36. Use of 15N Isotope Dilution Method to Quantify Nitrogen Fixation in Legumes and Its Potential Use for Non-Legumes; G. Hardarson, C. Hera
Session 8: Actinorhizal and Cyanobacterial Association
37. Competitivity and Persistence of Frankia in a Managed Environment; N.R. McEwan, et al.
38. Symbiotic Association between Frankia and Actinorhizal Plants; N. Boonkerd
39. Ecophysiological Studies of Cyanobacteria in Paddy Soils of Bangladesh; M.A. Hashem
40. Cyanobacterial Root Nodules in Tribulus terrestris L. (Zygophyllaceae); A. Mahmood, M. Ahter
Posters
41. Use of Azolla as Biofertilizer to Enhance Crop Yield in Rice-Wheat Cropping System Under Mild Climate; S. Ali, et al.
... weniger
Bibliographische Angaben
- 1998, 362 Seiten, Maße: 16 x 24,1 cm, Gebunden, Englisch
- Herausgegeben von Malik, K. A.; Mirza, M. S.; Ladha, J. K.
- Herausgegeben: M. Sajjad Mirza, K. A. Malik, J. K. Ladha
- Verlag: Springer Netherlands
- ISBN-10: 0792348737
- ISBN-13: 9780792348733
- Erscheinungsdatum: 30.04.1998
Sprache:
Englisch
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