Waterlogging signalling and tolerance in plants:
Gespeichert in:
Weitere Verfasser: | |
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Heidelberg [u.a.]
Springer
2010
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Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | Literaturangaben |
Beschreibung: | XIX, 294 S. Ill., graph. Darst. |
ISBN: | 9783642103049 |
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Datensatz im Suchindex
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adam_text | CONTENTS PART I WHOLE-PLANT REGULATION 1 OXYGEN TRANSPORT IN WATERLOGGED
PLANTS 3 LARS H. WEGNER 1.1 INTRODUCTION 4 1.2 O 2 TRANSPORT IN PLANTS:
SOME BASIC PHYSICS, AND MODELLING OF O2 DIFFUSION 5 1.3 A SURVEY OF
METHODS TO STUDY O 2 TRANSPORT AND RELATED PARAMETERS IN HIGHER PLANTS 7
1.4 ANATOMICAL ADAPTATIONS TO FLOODING STRESS: BARRIERS TO RADIAL OXYGEN
LOSS 10 1.5 ANATOMICAL ADAPTATIONS TO FLOODING STRESS: FORMATION OF
AERENCHYMA 11 1.6 MECHANISMS OF O 2 TRANSPORT IN PLANTS 13 1.7 O2
TRANSPORT IN PLANTS: ECOLOGICAL IMPLICATIONS 18 1.8 OPEN QUESTIONS AND
DIRECTIONS OF FURTHER RESEARCH 18 REFERENCES 19 2 WATERLOGGING AND PLANT
NUTRIENT UPTAKE 23 J. THEO M. ELZENGA AND HANS VAN VEEN 2.1 INTRODUCTION
23 2.2 EFFECTS OF HYPOXIA ON NUTRIENT UPTAKE 26 2.2.1 PHYSIOLOGICAL
EFFECTS OF HYPOXIA CHANGE ROOT ELONGATION RATE, K, AND MAXIMAL NUTRIENT
UPTAKE RATE, I MAX 26 2.2.2 WATERLOGGING LEADS TO CHANGES IN THE
AVAILABILITY, C , AND THE EFFECTIVE DIFFUSION COEFFICIENT, D E , OF
SOME OF THE NUTRIENTS IN THE SOIL 28 2.2.3 IN WATERLOGGED CONDITIONS,
SOME PLANT SPECIES SHOW MOR BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/997281987 DIGITALISIERT DURCH CONTENTS ROOTS AND
INCREASED LEVELS OF INFECTION WITH MYCORHIZAL FUNGI - EFFECTIVELY
INCREASING K 29 2.2.4 WATERLOGGING DECREASE EVAPORATION AND BULK
WATERFLOW,VO 30 2.2.5 IN RESPONSE TO WATERLOGGING THE KINETICS OF ROOT
TRANSPORT SYSTEMS, K M AND / MA X CAN BE MODIFIED 31 2.3 SUMMARY AND
CONCLUDING REMARKS 31 REFERENCES 32 STRATEGIES FOR ADAPTATION TO
WATERLOGGING AND HYPOXIA IN NITROGEN FIXING NODULES OF LEGUMES 37 DANIEL
M. ROBERTS, WON GYU CHOI, AND JIN HA HWANG 3.1 INTRODUCTION: THE OXYGEN
DIFFUSION BARRIER IN NODULES 38 3.1.1 NODULE MORPHOLOGY AND THE GAS
DIFFUSION BARRIER 38 3.1.2 MODULATION OF THE GAS DIFFUSION BARRIER 40
3.1.3 CONTROL OF THE GAS DIFFUSION BARRIER IN RESPONSE TO SUB-AMBIENT O
2 AND FLOODING 40 3.1.4 MECHANISM OF REGULATION OF THE GAS DIFFUSION
BARRIER IN RESPONSE TO PO 2 41 3.2 DEVELOPMENTAL AND MORPHOLOGICAL
ADAPTATIONS OF NITROGEN-FIXING NODULES TO LOW OXYGEN STRESS 43 3.2.1
SECONDARY AERENCHYMA FORMATION 43 3.2.2 THE INNER CORTEX AND INFECTED
ZONE 44 3.2.3 INFLUENCE OF ADAPTIVE CHANGES ON NITROGEN FIXATION UNDER
ALTERED RHIZOSPHERE PO 2 CONDITIONS 45 3.3 STRATEGIES OF ADAPTATION:
FLOOD-TOLERANT LEGUMES AN CONTENTS XI 4.4 RADIAL AND AXIAL OXYGEN
TRANSPORT TO SAPWOOD 68 4.5 SAPWOOD RESPIRATION 70 REFERENCES 73 PART II
INTRACELLULAR SIGNALLING 5 PH SIGNALING DURING ANOXIA 79 HUBERT H. FELLE
5.1 INTRODUCTION 79 5.2 PH, SIGNAL AND REGULATOR 81 5.2.1 PH AS SYSTEMIC
SIGNAL 82 5.2.2 THE NATURE OF PH TRANSMISSION 83 5.2.3 WHAT IS THE
INFORMATION? 83 5.3 ANOXIC ENERGY CRISIS AND PH REGULATION 85 5.3.1 THE
DAVIS-ROBERTS-HYPOTHESIS: ASPECTS OF PH SIGNALING 85 5.3.2 CYTOPLASMIC
ACIDIFICATION, ATP AND MEMBRANE POTENTIAL 86 5.3.3 CYTOPLASMIC PH
(CHANGE), AN ERROR SIGNAL? 87 5.4 PH INTERACTIONS BETWEEN THE (MAJOR)
COMPARTMENTS DURING ANOXIA 88 5.4.1 THE PH TRANS-TONOPLAST PH GRADIENT
88 5.4.2 CYTOPLASM AND APOPLAST 90 5.4.3 THE APOPLAST UNDER ANOXIA 90
5.5 ANOXIA TOLERANCE AND PH 91 5.5.1 PH AS A STRESS SIGNAL - AVOIDANCE
OF CYTOPLASMIC ACIDOSIS 92 5.6 PH AS SIGNAL FOR GENE ACTIVATION 93 5.7
PH SIGNALING AND OXYGEN SENSING 94 5.8 CONCLUSIONS 94 REFERENCES 95 6
PROGRAMMED CELL DEATH AND AERENCHYMA FORMATION UNDER HYPOXIA 99 KURT V.
FAGERSTEDT 6.1 INTRODUCTION 100 6.2 DESCRIPTION OF AERENCHYMA FORMATION:
INDUCED AND CONSTITUTIVE 102 6.3 EVIDENCE FOR PCD DURING LYSIGENOUS
AERENCHYMA FORMATION .... 103 6. XII CONTENTS 6.4.3 WHAT DETERMINES THE
ARCHITECTURE OF AERENCHYMA? - TARGETING AND RESTRICTING PCD 112 6.5
FUTURE PROSPECTS 113 REFERENCES 113 7 OXYGEN DEPRIVATION, METABOLIC
ADAPTATIONS AND OXIDATIVE STRESS 119 OLGA BLOKHINA AND KURT V.
FAGERSTEDT 7.1 INTRODUCTION 120 7.2 ANOXIA: METABOLIC EVENTS RELEVANT
FOR ROS FORMATION 121 7.2.1 CLASSIC METABOLIC CHANGES UNDER OXYGEN
DEPRIVATION RELATED TO ROS FORMATION 121 7.2.2 CHANGES IN LIPID
COMPOSITION AND ROLE OF FREE FATTY ACIDS UNDER STRESS 124 7.2.3
MODIFICATION OF LIPIDS: LP 125 7.3 ROS AND RNS CHEMISTRY OVERVIEW AND
SOURCES OF FORMATION UNDER LACK OF OXYGEN 126 7.3.1 REACTIVE OXYGEN
SPECIES 126 7.3.2 REACTIVE NITROGEN SPECIES 127 7.3.3 PLANT MITOCHONDRIA
AS ROS PRODUCERS: RELEVANCE FOR OXYGEN DEPRIVATION STRESS 129 7.4 O2
FLUXES IN TISSUES AND FACTORS AFFECTING O 2 CONCENTRATION IN VIVO 131
7.5 MICROARRAY EXPERIMENTS IN THE STUDY OF HYPOXIA-ASSOCIATED OXIDATIVE
STRESS 132 7.6 UPDATE ON ANTIOXIDANT PROTECTION 133 7.6.1 LOW MOLECULAR
WEIGHT ANTIOXIDANTS 134 7.6.2 ENZYMES PARTICIPATING IN QUENCHING ROS 136
7.7 CONCLUDING REMARKS 138 REFERENCES 139 PART DI MEMBRANE TRANSPORTERS
IN WATERLOGGING TOLERANCE 8 ROOT WATER TRANSPORT UNDER WATERLOGGED
CONDITIONS AND THE ROLES OF AQUAPORINS 151 HELE CONTENTS XIII 8.5 WATER
PERMEABILITY OF ROOT CELLS AND AQUAPORINS 158 8.5.1 PLANT AQUAPORINS 159
8.5.2 RESPONSES AT THE CELL LEVEL AFFECTING WATER PERMEABILITY AND
POTENTIAL MECHANISMS 161 8.5.3 OTHER CHANGES UNDER OXYGEN DEFICIENCY
THAT COULD AFFECT WATER TRANSPORT 169 8.5.4 TRANSPORT OF OTHER MOLECULES
BESIDES WATER THROUGH MIPS RELEVANT TO FLOODING 170 8.6 SIGNALLING 171
8.7 CONCLUSION AND FUTURE PERSPECTIVES 172 REFERENCES 173 9 ROOT OXYGEN
DEPRIVATION AND LEAF BIOCHEMISTRY IN TREES 181 LAURA AMI AND SILVIA
FORNACIARI 9.1 INTRODUCTION 182 9.2 ROOT O 2 DEPRIVATION 183 9.2.1 ROOT
O 2 DEPRIVATION: EFFECTS ON LEAVES 185 9.3 THEROLEOFADH 185 9.4 CARBON
RECOVERY 186 9.5 DIFFERENTIAL MRNA TRANSLATION 188 9.6 EFFECTS ON CELL
METABOLISM 189 9.7 CONCLUSIONS 191 REFERENCES 192 10 MEMBRANE
TRANSPORTERS AND WATERLOGGING TOLERANCE 197 JIAYIN PANG AND SERGEY
SHABALA 10.1 INTRODUCTION 198 10.2 WATERLOGGING AND PLANT NUTRIENT
ACQUISITION 198 10.2.1 ROOT ION UPTAKE 198 10.2.2 TRANSPORT BETWEEN
ROOTS AND SHOOTS 199 10.2.3 IONIC MECHANISMS MEDIATING XYLEM LOADING 200
10.2.4 CONTROL OF XYLEM ION LOADING UNDER HYPOXIA 201 10.3 OXYGEN
SENSING IN MAMMALIAN SYSTEMS 201 10.3. XIV CONTENTS 10.5 SECONDARY
METABOLITES TOXICITY AND MEMBRANE TRANSPORT ACTIVITY IN PLANT CELLS 206
10.5.1 WATERLOGGING AND PRODUCTION OF SECONDARY METABOLITES 206 10.5.2
SECONDARY METABOLITE PRODUCTION AND PLANT NUTRIENT ACQUISITION 207 10.6
SECONDARY METABOLITES AND ACTIVITY OF KEY MEMBRANE TRANSPORTERS 208
10.6.1 PUMPS 208 10.6.2 CARRIERS 209 10.6.3 CHANNELS 209 10.7 BREEDING
FOR WATERLOGGING TOLERANCE BY TARGETING KEY MEMBRANE TRANSPORTERS 211
10.7.1 GENERAL TRENDS IN BREEDING PLANTS FOR WATERLOGGING TOLERANCE 211
10.7.2 IMPROVING MEMBRANE TRANSPORTERS EFFICIENCY UNDER HYPOXIE
CONDITIONS 211 10.7.3 REDUCING SENSITIVITY TO TOXIC SECONDARY
METABOLITES 212 REFERENCES 213 11 ION TRANSPORT IN AQUATIC PLANTS 221
OLGA BABOURINA AND ZED RENGEL 11.1 INTRODUCTION 221 11.2 MORPHOLOGICAL
AND PHYSIOLOGICAL ADAPTATIONS OF AQUATIC PLANTS 222 11.3 ION TRANSPORT
224 11.3.1 CATION TRANSPORT SYSTEMS 228 11.3.2 ANION TRANSPORT SYSTEMS
230 11.4 ROOT VERSUS LEAF UPTAKE 230 11.5 MOLECULAR CHARACTERISATION OF
TRANSPORTER GENES 232 11.6 THE RELEVANCE OF AQUATIC PLANTS TO
TERRESTRIAL PLANTS IN REGARDS TO WATERLOGGING AND INUNDATION STRESSES
233 11.7 CONCLUSIONS 233 REFERENCES 234 PART IV AGRONOMICAL AND
ENVIRONMENTAL ASPECTS 12 GENETIC VARIABILITY AND DETERMINISM OF
ADAPTATION O CONTENTS XV 12.4 GENETIC DETERMINISM OF TOLERANCE TO
WATERLOGGING AND IDENTIFICATION OF THE INVOLVED GENOME REGIONS 250
12.4.1 METHODOLOGY OF THE DETECTION OF QTL FOR HYPOXIA TOLERANCE:
CAUTION AND STRATEGIES 251 12.4.2 MAJOR LOCI DETECTED FOR HYPOXIA
TOLERANCE 256 12.5 CONCLUSIONS 260 REFERENCES 260 13 IMPROVEMENT OF
PLANT WATERLOGGING TOLERANCE 267 MEIXUE ZHOU 13.1 INTRODUCTION 267 13.2
GENETIC RESOURCES OF THE TOLERANCE 268 13.3 SELECTION CRITERIA 271 13.4
GENETIC STUDIES ON WATERLOGGING TOLERANCE 273 13.5 MARKER-ASSISTED
SELECTION 275 13.5.1 QTL CONTROLLING WATERLOGGING TOLERANCE 275 13.5.2
ACCURATE PHENOTYPING IS CRUCIAL IN IDENTIFYING QTLS FOR WATERLOGGING
TOLERANCE 278 REFERENCES 281 INDEX 287
|
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dewey-raw | 581.726 |
dewey-search | 581.726 |
dewey-sort | 3581.726 |
dewey-tens | 580 - Plants |
discipline | Biologie |
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indexdate | 2024-07-09T22:39:47Z |
institution | BVB |
isbn | 9783642103049 |
language | English |
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spelling | Waterlogging signalling and tolerance in plants Stefano Mancuso ... eds. Heidelberg [u.a.] Springer 2010 XIX, 294 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Staunässe (DE-588)4285845-8 gnd rswk-swf Regulation (DE-588)4049075-0 gnd rswk-swf Pflanzen (DE-588)4045539-7 gnd rswk-swf Signaltransduktion (DE-588)4318717-1 gnd rswk-swf Toleranz Biologie (DE-588)4308830-2 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Pflanzen (DE-588)4045539-7 s Staunässe (DE-588)4285845-8 s Toleranz Biologie (DE-588)4308830-2 s Regulation (DE-588)4049075-0 s Signaltransduktion (DE-588)4318717-1 s DE-604 Mancuso, Stefano 1965- (DE-588)1066896704 edt DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020326614&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Waterlogging signalling and tolerance in plants Staunässe (DE-588)4285845-8 gnd Regulation (DE-588)4049075-0 gnd Pflanzen (DE-588)4045539-7 gnd Signaltransduktion (DE-588)4318717-1 gnd Toleranz Biologie (DE-588)4308830-2 gnd |
subject_GND | (DE-588)4285845-8 (DE-588)4049075-0 (DE-588)4045539-7 (DE-588)4318717-1 (DE-588)4308830-2 (DE-588)4143413-4 |
title | Waterlogging signalling and tolerance in plants |
title_auth | Waterlogging signalling and tolerance in plants |
title_exact_search | Waterlogging signalling and tolerance in plants |
title_full | Waterlogging signalling and tolerance in plants Stefano Mancuso ... eds. |
title_fullStr | Waterlogging signalling and tolerance in plants Stefano Mancuso ... eds. |
title_full_unstemmed | Waterlogging signalling and tolerance in plants Stefano Mancuso ... eds. |
title_short | Waterlogging signalling and tolerance in plants |
title_sort | waterlogging signalling and tolerance in plants |
topic | Staunässe (DE-588)4285845-8 gnd Regulation (DE-588)4049075-0 gnd Pflanzen (DE-588)4045539-7 gnd Signaltransduktion (DE-588)4318717-1 gnd Toleranz Biologie (DE-588)4308830-2 gnd |
topic_facet | Staunässe Regulation Pflanzen Signaltransduktion Toleranz Biologie Aufsatzsammlung |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020326614&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT mancusostefano waterloggingsignallingandtoleranceinplants |