Maintenance of plant genetic resources: Towards an understanding of seed deterioration
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Göttingen
Cuvillier Verlag
2022
|
| Ausgabe: | 1st ed |
| Schlagworte: | |
| Online-Zugang: | HWR01 |
| Beschreibung: | 1 Online-Ressource (211 Seiten) |
| ISBN: | 9783736965577 9783736975576 |
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| 505 | 8 | |a Intro -- INDEX OF ABBREVIATIONS -- 1 INTRODUCTION -- 2 PROLOG -- 2.1 Maintenance of plant genetic resources in ex situ gene banks -- 2.2 Survival in the dry state -- 2.3 The establishment of seed longevity during seed maturation -- 2.4 The physics of water and water activity in seeds -- 2.5 The glass formation as requirement for seed desiccation and storability -- 2.6 Seed viability loss during storage -- 2.7 Seed protection mechanisms during quiescence -- 2.8 Aim of the study -- 3 SCIENTIFIC PUBLICATIONS -- 3.1 PAPER 1:The longevity of crop seeds storedunder ambient conditions -- 3.2 PAPER 2:Machine learning links seed composition, glucosinolatesand viability of oilseed rape after 31years of long-term storage -- 3.3 PAPER 3:Changes in tocochromanols and glutathionereveal differences in the mechanisms of seedageing under seedbank conditions and controlleddeterioration in barley -- 3.4 PAPER 4:Wheat seed ageing viewed through the cellularredox environment and changes in pH -- 3.5 PAPER 5:Comparative physiology and proteomics of twowheat genotypes differing in seed storagetolerance -- 3.6 PAPER 6:Age-dependent loss of seed viability is associatedwith increased lipid oxidation and hydrolysis -- 3.7 PAPER 7:Barley seed ageing: genetics behind the dryelevated pressure of oxygen ageing and moistcontrolled deterioration -- 3.8 PAPER 8:Seed longevity in oilseed rape (Brassica napus L.)- genetic variation and QTL mapping -- 3.9 PAPER 9:Genetic variation for secondary seed dormancyand seed longevity in a set of black-seededEuropean winter oilseed rape cultivars -- 3.10 PAPER 10:QTL analysis of falling number and seed longevityin wheat (Triticum aestivum L.) -- 3.11 PAPER 11:Effects of Rht dwarfing alleles on wheat seedvigour after controlled deterioration -- 3.12 PAPER 12:Genetic architecture of seed longevity in breadwheat (Triticum aestivum L.) | |
| 505 | 8 | |a 3.13 PAPER 13:Novel loci and a role for nitric oxide for seed dormancyand pre-harvest sprouting in barley -- 4 EPILOG -- 4.1 Seed deterioration processes are determined by the storage conditions -- 4.2 Differences in seed longevity are the consequence of compositional variations -- 4.3 Maternal growth environment influences seed longevity and seed dormancy -- 4.4 Molecular markers for seed deterioration at different water contents -- 4.5 The implications for gene bank management -- 5 SUMMARY AND CONCLUSIONS -- 6 REFERENCES OF PROLOG AND EPILOG -- ACKNOWLEDGEMENTS -- CURRICULUM VITAE. | |
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| contents | Intro -- INDEX OF ABBREVIATIONS -- 1 INTRODUCTION -- 2 PROLOG -- 2.1 Maintenance of plant genetic resources in ex situ gene banks -- 2.2 Survival in the dry state -- 2.3 The establishment of seed longevity during seed maturation -- 2.4 The physics of water and water activity in seeds -- 2.5 The glass formation as requirement for seed desiccation and storability -- 2.6 Seed viability loss during storage -- 2.7 Seed protection mechanisms during quiescence -- 2.8 Aim of the study -- 3 SCIENTIFIC PUBLICATIONS -- 3.1 PAPER 1:The longevity of crop seeds storedunder ambient conditions -- 3.2 PAPER 2:Machine learning links seed composition, glucosinolatesand viability of oilseed rape after 31years of long-term storage -- 3.3 PAPER 3:Changes in tocochromanols and glutathionereveal differences in the mechanisms of seedageing under seedbank conditions and controlleddeterioration in barley -- 3.4 PAPER 4:Wheat seed ageing viewed through the cellularredox environment and changes in pH -- 3.5 PAPER 5:Comparative physiology and proteomics of twowheat genotypes differing in seed storagetolerance -- 3.6 PAPER 6:Age-dependent loss of seed viability is associatedwith increased lipid oxidation and hydrolysis -- 3.7 PAPER 7:Barley seed ageing: genetics behind the dryelevated pressure of oxygen ageing and moistcontrolled deterioration -- 3.8 PAPER 8:Seed longevity in oilseed rape (Brassica napus L.)- genetic variation and QTL mapping -- 3.9 PAPER 9:Genetic variation for secondary seed dormancyand seed longevity in a set of black-seededEuropean winter oilseed rape cultivars -- 3.10 PAPER 10:QTL analysis of falling number and seed longevityin wheat (Triticum aestivum L.) -- 3.11 PAPER 11:Effects of Rht dwarfing alleles on wheat seedvigour after controlled deterioration -- 3.12 PAPER 12:Genetic architecture of seed longevity in breadwheat (Triticum aestivum L.) 3.13 PAPER 13:Novel loci and a role for nitric oxide for seed dormancyand pre-harvest sprouting in barley -- 4 EPILOG -- 4.1 Seed deterioration processes are determined by the storage conditions -- 4.2 Differences in seed longevity are the consequence of compositional variations -- 4.3 Maternal growth environment influences seed longevity and seed dormancy -- 4.4 Molecular markers for seed deterioration at different water contents -- 4.5 The implications for gene bank management -- 5 SUMMARY AND CONCLUSIONS -- 6 REFERENCES OF PROLOG AND EPILOG -- ACKNOWLEDGEMENTS -- CURRICULUM VITAE. |
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| discipline | Biologie Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau |
| discipline_str_mv | Biologie Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau |
| edition | 1st ed |
| format | Electronic eBook |
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| spelling | Nagel, Manuela Verfasser aut Maintenance of plant genetic resources Towards an understanding of seed deterioration 1st ed Göttingen Cuvillier Verlag 2022 ©2022 1 Online-Ressource (211 Seiten) txt rdacontent c rdamedia cr rdacarrier Intro -- INDEX OF ABBREVIATIONS -- 1 INTRODUCTION -- 2 PROLOG -- 2.1 Maintenance of plant genetic resources in ex situ gene banks -- 2.2 Survival in the dry state -- 2.3 The establishment of seed longevity during seed maturation -- 2.4 The physics of water and water activity in seeds -- 2.5 The glass formation as requirement for seed desiccation and storability -- 2.6 Seed viability loss during storage -- 2.7 Seed protection mechanisms during quiescence -- 2.8 Aim of the study -- 3 SCIENTIFIC PUBLICATIONS -- 3.1 PAPER 1:The longevity of crop seeds storedunder ambient conditions -- 3.2 PAPER 2:Machine learning links seed composition, glucosinolatesand viability of oilseed rape after 31years of long-term storage -- 3.3 PAPER 3:Changes in tocochromanols and glutathionereveal differences in the mechanisms of seedageing under seedbank conditions and controlleddeterioration in barley -- 3.4 PAPER 4:Wheat seed ageing viewed through the cellularredox environment and changes in pH -- 3.5 PAPER 5:Comparative physiology and proteomics of twowheat genotypes differing in seed storagetolerance -- 3.6 PAPER 6:Age-dependent loss of seed viability is associatedwith increased lipid oxidation and hydrolysis -- 3.7 PAPER 7:Barley seed ageing: genetics behind the dryelevated pressure of oxygen ageing and moistcontrolled deterioration -- 3.8 PAPER 8:Seed longevity in oilseed rape (Brassica napus L.)- genetic variation and QTL mapping -- 3.9 PAPER 9:Genetic variation for secondary seed dormancyand seed longevity in a set of black-seededEuropean winter oilseed rape cultivars -- 3.10 PAPER 10:QTL analysis of falling number and seed longevityin wheat (Triticum aestivum L.) -- 3.11 PAPER 11:Effects of Rht dwarfing alleles on wheat seedvigour after controlled deterioration -- 3.12 PAPER 12:Genetic architecture of seed longevity in breadwheat (Triticum aestivum L.) 3.13 PAPER 13:Novel loci and a role for nitric oxide for seed dormancyand pre-harvest sprouting in barley -- 4 EPILOG -- 4.1 Seed deterioration processes are determined by the storage conditions -- 4.2 Differences in seed longevity are the consequence of compositional variations -- 4.3 Maternal growth environment influences seed longevity and seed dormancy -- 4.4 Molecular markers for seed deterioration at different water contents -- 4.5 The implications for gene bank management -- 5 SUMMARY AND CONCLUSIONS -- 6 REFERENCES OF PROLOG AND EPILOG -- ACKNOWLEDGEMENTS -- CURRICULUM VITAE. Plant biotechnology Genetische Ressourcen (DE-588)4156623-3 gnd rswk-swf Nutzpflanzen (DE-588)4042838-2 gnd rswk-swf Langzeitlagerung (DE-588)4315731-2 gnd rswk-swf Electronic books (DE-588)4113937-9 Hochschulschrift gnd-content Langzeitlagerung (DE-588)4315731-2 s Nutzpflanzen (DE-588)4042838-2 s DE-604 Genetische Ressourcen (DE-588)4156623-3 s Erscheint auch als Druck-Ausgabe Nagel, Manuela Maintenance of plant genetic resources Göttingen : Cuvillier Verlag,c2022 9783736975576 |
| spellingShingle | Nagel, Manuela Maintenance of plant genetic resources Towards an understanding of seed deterioration Intro -- INDEX OF ABBREVIATIONS -- 1 INTRODUCTION -- 2 PROLOG -- 2.1 Maintenance of plant genetic resources in ex situ gene banks -- 2.2 Survival in the dry state -- 2.3 The establishment of seed longevity during seed maturation -- 2.4 The physics of water and water activity in seeds -- 2.5 The glass formation as requirement for seed desiccation and storability -- 2.6 Seed viability loss during storage -- 2.7 Seed protection mechanisms during quiescence -- 2.8 Aim of the study -- 3 SCIENTIFIC PUBLICATIONS -- 3.1 PAPER 1:The longevity of crop seeds storedunder ambient conditions -- 3.2 PAPER 2:Machine learning links seed composition, glucosinolatesand viability of oilseed rape after 31years of long-term storage -- 3.3 PAPER 3:Changes in tocochromanols and glutathionereveal differences in the mechanisms of seedageing under seedbank conditions and controlleddeterioration in barley -- 3.4 PAPER 4:Wheat seed ageing viewed through the cellularredox environment and changes in pH -- 3.5 PAPER 5:Comparative physiology and proteomics of twowheat genotypes differing in seed storagetolerance -- 3.6 PAPER 6:Age-dependent loss of seed viability is associatedwith increased lipid oxidation and hydrolysis -- 3.7 PAPER 7:Barley seed ageing: genetics behind the dryelevated pressure of oxygen ageing and moistcontrolled deterioration -- 3.8 PAPER 8:Seed longevity in oilseed rape (Brassica napus L.)- genetic variation and QTL mapping -- 3.9 PAPER 9:Genetic variation for secondary seed dormancyand seed longevity in a set of black-seededEuropean winter oilseed rape cultivars -- 3.10 PAPER 10:QTL analysis of falling number and seed longevityin wheat (Triticum aestivum L.) -- 3.11 PAPER 11:Effects of Rht dwarfing alleles on wheat seedvigour after controlled deterioration -- 3.12 PAPER 12:Genetic architecture of seed longevity in breadwheat (Triticum aestivum L.) 3.13 PAPER 13:Novel loci and a role for nitric oxide for seed dormancyand pre-harvest sprouting in barley -- 4 EPILOG -- 4.1 Seed deterioration processes are determined by the storage conditions -- 4.2 Differences in seed longevity are the consequence of compositional variations -- 4.3 Maternal growth environment influences seed longevity and seed dormancy -- 4.4 Molecular markers for seed deterioration at different water contents -- 4.5 The implications for gene bank management -- 5 SUMMARY AND CONCLUSIONS -- 6 REFERENCES OF PROLOG AND EPILOG -- ACKNOWLEDGEMENTS -- CURRICULUM VITAE. Plant biotechnology Genetische Ressourcen (DE-588)4156623-3 gnd Nutzpflanzen (DE-588)4042838-2 gnd Langzeitlagerung (DE-588)4315731-2 gnd |
| subject_GND | (DE-588)4156623-3 (DE-588)4042838-2 (DE-588)4315731-2 (DE-588)4113937-9 |
| title | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_auth | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_exact_search | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_exact_search_txtP | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_full | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_fullStr | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_full_unstemmed | Maintenance of plant genetic resources Towards an understanding of seed deterioration |
| title_short | Maintenance of plant genetic resources |
| title_sort | maintenance of plant genetic resources towards an understanding of seed deterioration |
| title_sub | Towards an understanding of seed deterioration |
| topic | Plant biotechnology Genetische Ressourcen (DE-588)4156623-3 gnd Nutzpflanzen (DE-588)4042838-2 gnd Langzeitlagerung (DE-588)4315731-2 gnd |
| topic_facet | Plant biotechnology Genetische Ressourcen Nutzpflanzen Langzeitlagerung Hochschulschrift |
| work_keys_str_mv | AT nagelmanuela maintenanceofplantgeneticresourcestowardsanunderstandingofseeddeterioration |