Verfügbarkeit: Plant desiccation tolerance

Plant desiccation tolerance:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Heidelberg [u.a.] Springer 2011
Schriftenreihe:	Ecological Studies 215
Schlagworte:	Pflanzen Dürreresistenz Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 386 S. Ill., graph. Darst.
ISBN:	9783642191053 9783642191060

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PART I INTRODUCTION 1 INTRODUCTION 3 DOROTHEA BARTELS, ULRICH LUETTGE, AND ERWIN BECK REFERENCES 7 PART II THE ORGANISMIC LEVEL 2 CYANOBACTERIA: HABITATS AND SPECIES 11 BURKHARD BUEDEL 2.1 INTRODUCTION 11 2.2 CYANOBACTERIAL ANHYDROBIOSIS AND RESISTANCE TO COMPLETE DESICCATION 11 2.3 HABITATS AND SPECIES 13 2.4 CONCLUSION 18 REFERENCES 18 3 CYANOBACTERIA: MULTIPLE STRESSES, DESICCATION-TOLERANT PHOTOSYNTHESIS AND DI-NITROGEN FIXATION 23 ULRICH LUETTGE 3.1 MULTIPLE STRESSES AND DESICCATION-TOLERANT CYANOBACTERIA 23 3.2 CELL PHYSIOLOGICAL RESPONSES OF CYANOBACTERIA TO STRESS OF DRYING LEADING THE PATH TO DESICCATION 24 3.2.1 COMPATIBLE SOLUTES 24 3.2.2 HEAT SHOCK AND WATER STRESS PROTEINS 25 3.2.3 SUN PROTECTANTS 25 3.2.4 MEMBRANE LIPIDS 25 3.2.5 POLYNUCLEOTIDE STABILITY AND REPAIR 26 3.3 PHOTOSYNTHESIS 26 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1009387774 DIGITALISIERT DURCH IMAGE 2 CONTENTS 3.3.1 SPECIAL FEATURES OF CYANOBACTERIAL PHOTOSYNTHESIS 26 3.3.2 DESICCATION AND PHOTOINHIBITION 27 3.3.3 RECOVERY OF PHOTOSYNTHESIS DURING REWETTING AFTER DESICCATION 30 3.3.4 PHYSIOLOGICAL ECOLOGY OF DESICCATION ON THE ROCK OUTCROPS OF TROPICAL INSELBERGS 34 3.4 BIOLOGICAL FIXATION OF DI-NITROGEN (N2) 37 3.4.1 N 2 -FIXATION AND INPUT INTO ECOSYSTEMS 37 3.4.2 RECOVERY OF ^-FIXATION DURING REWETTING AFTER DESICCATION 38 3.5 CONCLUSIONS 39 REFERENCES 40 EUKARYOTIC ALGAE 45 BURKHARD BUEDEL 4.1 INTRODUCTION 45 4.2 HABITATS AND SPECIES 47 4.2.1 MARINE COASTAL ALGAE 47 4.2.2 TERRESTRIAL ALGAE 50 4.3 PHYSIOLOGICAL ECOLOGY 57 4.3.1 PHOTOSYNTHETIC PATTERNS OF MARINE ALGAE 57 4.3.2 RELEASE OF DISSOLVED ORGANIC CARBON DURING REHYDRATION .... 58 4.3.3 DROUGHT PERIOD AND RESURRECTION 58 4.3.4 ANTIOXIDANTS AS A PROTECTIVE MEANS 59 4.3.5 COMPATIBLE SOLUTES 60 4.3.6 ULTRASTRUCTURE 60 4.4 CONCLUSION 60 REFERENCES 61 LICHENS AND BRYOPHYTES: HABITATS AND SPECIES 65 MICHAEL LAKATOS 5.1 CHARACTERISTICS OF LICHENS AND BRYOPHYTES 65 5.2 MECHANISMS OF WATER EXCHANGE IN LICHENS AND BRYOPHYTES ALLOWING DESICCATION TOLERANCE 66 5.3 PROCESSES AT INTERMITTENT DESICCATION BETWEEN ACTIVITY AND INACTIVITY 68 5.4 FUNCTIONING AND IMPACTS OF NON-VASCULAR PLANTS AT MICROHABITATS .... 71 5.4.1 IMPACTS OF NON-VASCULAR PLANTS AT MICROHABITATS 71 5.4.2 FUNCTIONING OF NON-VASCULAR SOIL COVER 72 5.4.3 FUNCTIONING OF NON-VASCULAR EPIPHYTIC COVER 74 5.5 GLOBAL PATTERNS OF DESICCATION-TOLERANT LICHENS AND BRYOPHYTES .... 75 5.5.1 GLOBAL PATTERNS AS AN INDICATION FOR THE ECOLOGICAL RELEVANCE 75 5.5.2 IMPACTS OF LICHENS AND BRYOPHYTES ON THE CARBON CYCLE 76 IMAGE 3 CONTENTS IX 5.5.3 IMPACTS OF LICHENS AND BRYOPHYTES ON THE HYDROLOGICAL CYCLE 77 5.6 CONCLUSION 78 REFERENCES 78 6 ECOPHYSIOLOGY OF DESICCATION/REHYDRATION CYCLES IN MOSSES AND LICHENS 89 T.G. ALLAN GREEN, LEOPOLDO G. SANCHO, AND ANA PINTADO 6.1 INTRODUCTION 89 6.1.1 DESICCATION TOLERANCE: THE LIMITS 91 6.1.2 DESICCATION TOLERANCE: PHYSIOLOGY 97 6.2 PHOTOSYNTHETIC RESPONSE TO THALLUS WATER CONTENT 101 6.2.1 OVERALL STRUCTURE OF THE PHOTOSYNTHESIS/WATER CONTENT RESPONSE 101 6.2.2 THALLUS WATER CONTENT: THE LIMITS 102 6.2.3 WATER CONTENT RESPONSE CURVE: WC OPT 103 6.2.4 WATER CONTENT RESPONSE CURVE: THE »F DOMINATED ZONE ... 103 6.2.5 WATER CONTENT RESPONSE CURVE: EXTERNAL WATER ZONE 107 6.3 ALIGNING PHYSIOLOGY WITH HABITAT 112 6.4 ECOPHYSIOLOGICAL IMPLICATIONS OF HYDRATION, REHYDRATION AND THE NP RESPONSE TO WC 113 6.4.1 WHAT CONSTRAINS THE BRYOPHYTE/LICHEN NICHE? 113 6.4.2 LICHENS VERSUS BRYOPHYTES: THE DIFFERENCES 114 6.5 CONCLUSIONS 115 REFERENCES 116 7 LICHENS AND BRYOPHYTES: LIGHT STRESS AND PHOTOINHIBITION IN DESICCATION/REHYDRATION CYCLES - MECHANISMS OF PHOTOPROTECTION .. 121 ULRICH HEBER AND ULRICH LUETTGE 7.1 INTRODUCTION 121 7.2 CONSERVATION VERSUS THERMAL DISSIPATION OF ABSORBED LIGHT ENERGY IN HYDRATED POIKILOHYDRIC PHOTOAUTOTROPHS 122 7.3 CHANGES IN CONSERVATION AND THERMAL DISSIPATION OF ABSORBED LIGHT ENERGY DURING SLOW DESICCATION 124 7.4 DESICCATION-INDUCED DECREASED LIGHT ABSORPTION AND SHADING OF PHOTOBIONTS AS AUXILIARY MECHANISMS OF PHOTOPROTECTION 129 7.5 FAST THERMAL ENERGY DISSIPATION IN DESICCATED POIKILOHYDRIC PHOTOAUTOTROPHS AS CENTRAL MECHANISM OF PHOTOPROTECTION 130 7.6 CHANGES IN CONSERVATION AND THERMAL DISSIPATION OF ABSORBED LIGHT ENERGY UPON HYDRATION 131 7.7 VULNERABILITY OF PSII RCS TO PHOTOOXIDATIVE DAMAGE 133 7.8 MOLECULAR MECHANISMS OF PHOTOPROTECTION 134 7.9 CONCLUSIONS 134 REFERENCES 135 IMAGE 4 X CONTENTS 8 EVOLUTION, DIVERSITY, AND HABITATS OF POIKILOHYDROUS VASCULAR PLANTS 139 STEFAN POREMBSKI 8.1 INTRODUCTION 139 8.2 SYSTEMATIC DISTRIBUTION AND EVOLUTIONARY ASPECTS 140 8.2.1 FERNS AND FERA ALLIES 140 8.2.2 ANGIOSPERMS 143 8.3 HABITATS AND GEOGRAPHIC DISTRIBUTION 146 8.4 ADAPTIVE TRAITS 151 8.5 ECONOMIE IMPORTANCE 153 8.6 CONSERVATION 153 REFERENCES 154 9 ECOPHYSIOLOGY OF HOMOIOCHLOROPHYLLOUS AND POIKILOCHLOROPHYLLOUS DESICCATION-TOLERANT PLANTS AND VEGETATIONS 157 ZOLTAN TUBA AND HARTMUT K. LICHTENTHALER 9.1 INTRODUCTION 157 9.2 DISTRIBUTION AND EVOLUTIONARY ASPECTS OF DESICCATION TOLERANCE IN PLANTS 158 9.3 HABITATS AND VEGETATION OF DESICCATION-TOLERANT PLANTS 160 9.4 THE POIKILOCHLOROPHYLL DESICCATION-TOLERANCE STRATEGY 160 9.5 THE DESICCOPLAST, A VERY SPECIALIZED, NEW TYPE OF CHLOROPLAST .. 162 9.5.1 DESICCATION OF LEAVES AND DESICCOPLAST FORMATION 163 9.5.2 REHYDRATION OF LEAVES AND RESYNTHESIS OF FUNCTIONAL CHLOROPLASTS 165 9.6 DIFFERENTIAL PHYSIOLOGICAL RESPONSES OF INDIVIDUAL VASCULAR HDT AND PDT PLANTS UNDER DESICCATION 170 9.6.1 CHLOROPHYLL CONTENT AND CHLOROPLAST ULTRASTRUCTURE 170 9.6.2 ABSCISIC ACID AND CHLOROPHYLL BREAKDOWN 171 9.6.3 PHOTOSYSTEM II ELECTRON TRANSPORT AND THERMOLUMINESCENCE 171 9.6.4 CO 2 ASSIMILATION 172 9.6.5 CO 2 GAS EXCHANGE AND RESPIRATION 173 9.6.6 LEAF RESPONSES 173 9.7 RECOVERY AND REESTABLISHMENT OF PHYSIOLOGICAL ACTIVITY OF VASCULAR HOMOIOCHLOROPHYLLOUS AND POIKILOCHLOROPHYLLOUS PLANTS 174 9.8 REVIVAL OF METABOLISM: REASSEMBLY OR REPAIR? 175 9.9 CONSTITUTIVE AND INDUCED TOLERANCE 176 9.10 IMPORTANCE OF SCALE AND ECOLOGICAL CONTEXT 178 REFERENCES 179 10 HYDRAULIC ARCHITECTURE OF VASCULAR PLANTS 185 ERNST STEUDLE 10.1 INTRODUCTION 185 IMAGE 5 CONTENTS XI 10.2 WATER UPTAKE AT WATER SHORTAGE: ROLE OF APOPLAST AND OF COMPOSITE TRANSPORT 187 10.3 THE NATURE OF WATER MOVEMENT IN ROOTS 189 10.4 PATHWAYS FOR WATER AND SOLUTES AND COMPOSITE TRANSPORT 190 10.5 ROLES OF THE EXO-AND ENDODERMIS 191 10.6 PHYSIOLOGICAL CONSEQUENCES OF COMPOSITE TRANSPORT 194 10.7 CONSEQUENCES OF COMPOSITE TRANSPORT FOR GROWTH UNDER CONDITIONS OF SEVERE WATER STRESS 194 10.8 VARIABILITY OF AXIAL HYDRAULIC RESISTANCE 195 10.9 EMBOLISM AND REFILLING OF XYLEM VESSELS 196 10.10 LEAF HYDRAULICS AND OVERALL LEAF RESISTANCE 199 10.11 OVERALL CONSEQUENCES OF WHOLE-PLANT HYDRAULICS FOR DESICCATION TOLERANCE 202 REFERENCES 203 11 DROUGHT, DESICCATION, AND OXIDATIVE STRESS 209 RENATE SCHEIBE AND ERWIN BECK 11.1 INTRODUCTION 209 11.2 AVOIDING ROS PRODUCTION UNDER DROUGHT STRESS 211 11.3 CELL BIOLOGY AND BIOCHEMISTRY OF ROS-PRODUCING AND ROS-DETOXIFYING SYSTEMS AND THEIR RELATION TO WATER DEFICIT .. 212 11.4 ROS, ANTIOXIDATIVE SYSTEMS, AND DROUGHT 213 11.4.1 THE OXYGEN RADICAL O 2 *~ 213 11.4.2 HYDROGEN PEROXIDE (H 2 O 2 ) 214 11.4.3 SINGLET OXYGEN 215 11.4.4 THE CELLULAR THIOL/DISULFIDE REDOX STATE AS A REGULATOR OF A CELL S RESPONSE TO OXIDATIVE STRESS AND DROUGHT ... 215 11.5 INVOLVEMENT OF ROS IN DEHYDRATION-SIGNAL TRANSDUCTION 216 11.5.1 INTERACTIONS OF ROS AND ABA 216 11.5.2 INVOLVEMENT OF ROS IN DROUGHT SENSING AND SIGNAL TRANSDUCTION 217 11.5.3 NO AS A COMPONENT OF THE ROS-SIGNALING NETWORK 219 11.6 ROS, ABA, AND THE REGULATION OF THE STOMATES 219 11.7 DEHYDRATION OF SEEDS: A SPECIAL CASE 222 11.8 IMPROVEMENT OF STRESS TOLERANCE BY GENETRANSFER: THE ROLE OF ROS 222 REFERENCES 223 12 CHAMAEGIGAS INTREPIDUS DINTER: AN AQUATIC POIKILOHYDRIC ANGIOSPERM THAT IS PERFECTLY ADAPTED TO ITS COMPLEX AND EXTREME ENVIRONMENTAL CONDITIONS 233 HERMANN HEILMEIER AND WOLFRAM HAERTUNG 12.1 INTRODUCTION 233 12.2 DISTRIBUTION AND HABITAT 234 IMAGE 6 XII CONTENTS 12.3 SITE DESCRIPTION 235 12.4 ENVIRONMENTAL STRESS CONDITIONS 236 12.4.1 AIR TEMPERATURE AND HUMIDITY AT THE ROCK SURFACE 236 12.4.2 WATER LEVEL AND CONDUCTIVITY 236 12.4.3 TEMPERATURE AND PH OF THE POOL WATER 238 12.4.4 CO 2 AND HCO 3 CONCENTRATION OF THE POOL WATER 238 12.4.5 CONCENTRATION OF MINERAL NUTRIENTS IN THE POOL WATER AND THE SEDIMENT 239 12.5 ANATOMICAL FEATURES OF C. INTREPIDUS 239 12.6 PHYSIOLOGICAL, BIOCHEMICAL AND MOLECULAR ADAPTATIONS TO STRESS IN C. INTREPIDUS 241 12.6.1 INTRACELLULAR PH STABILITY 241 12.6.2 PHOTOSYNTHESIS 242 12.6.3 NITROGEN NUTRITION 242 12.6.4 ABSCISIC ACID 243 12.6.5 DEHYDRINS 246 12.6.6 CARBOHYDRATES 246 12.7 BREEDING SYSTEM AND GENETIC DIVERSITY IN CHAMAEGIGAS POPULATIONS 247 12.8 CONCLUDING REMARKS 248 REFERENCES 249 PART III THE CELL BIOLOGICAL LEVEL 13 MOLECULAR BIOLOGY AND PHYSIOLOGICAL GENOMICS OF DEHYDRATION STRESS 255 RUTH GRENE, CECILIA VASQUEZ-ROBINET, AND HANS J. BOHNERT 13.1 INTRODUCTION 256 13.2 PHYSIOLOGY, BIOCHEMISTRY, AND PHENOLOGY OF DROUGHT AND DESICCATION 258 13.2.1 A BRIEF SUMMARY OF DROUGHT-RESPONSE PHYSIOLOGY 258 13.2.2 STRESS RESPONSE CIRCUITS IN CONTEXT 261 13.2.3 WHAT LIES AT THE BASIS OF STRESS SIGNALLING? 262 13.3 GENOMICS 263 13.4 DROUGHT-RESPONSIVE MOLECULAR MECHANISMS 267 13.4.1 DROUGHT SIGNALLING 267 13.4.2 MECHANISMS FOR MODULATING SENSITIVITY TO ABA 268 13.4.3 THE ROLE OF UBIQUITINATION IN MODULATION OF ABA ACTION 269 13.4.4 AN UNEXPECTED ROLE FOR CIRCADIAN-ASSOCIATED GENES IN THE REGULATION OF STRESS RESPONSES 272 13.5 GENETICALLY PROGRAMMED DESICCATION TOLERANCE IN SEEDS 272 13.5.1 THE ROLE OF HORMONES 274 13.5.2 SUGAR SIGNALLING 275 IMAGE 7 CONTENTS XIII 13.5.3 CHAPERONES OR OTHERWISE PROTECTIVE PROTEINS 276 13.6 ROOTS AS SENSORS AND CONDUITS OF CHANGES IN THE WATER POTENTIAL 276 13.7 THE POTENTIAL FOR ENGINEERING/BREEDING BASED ON KNOWLEDGE .. 277 13.8 WHERE DOES THIS LEAD? 278 REFERENCES 279 14 DEHYDRINS: MOLECULAR BIOLOGY, STRUCTURE AND FUNCTION 289 SYLVIA K. ERIKSSON AND PIA HARRYSON 14.1 INTRODUCTION 289 14.2 DEHYDRINS (GROUP 2 LEA PROTEINS) 290 14.3 THE CELLULAR LOCALISATION OF DEHYDRIN PROTEINS IN PLANTS 291 14.4 EXPRESSION OF DEHYDRINS 291 14.5 TRANSGENIC PLANTS OVEREXPRESSING DEHYDRINS AND KNOCKOUT MUTANTS 292 14.6 STRUCTURE AND FUNCTION OF DEHYDRINS: DEHYDRINS - INTRINSICALLY DISORDERED PROTEINS 293 14.7 STRUCTURAL RESPONSES TO TFE 295 14.8 DEHYDRINS AND BACKGROUND CROWDING 295 14.9 STRUCTURAL RESPONSES TO TEMPERATURE 296 14.10 INTERACTION TO LIPID VESICLES AND SODIUM DODECYL SULPHATE ... 297 14.11 CHELATING: METAL BINDING 298 14.12 STRUCTURAL RESPONSES TO PH CHANGES 298 14.13 POSTTRANSLATIONAL MODIFICATIONS: PHOSPHORYLATION 298 14.14 CHAPERONE ACTIVITY 299 14.15 OUTLOOK 300 REFERENCES 300 15 UNDERSTANDING VEGETATIVE DESICCATION TOLERANCE USING INTEGRATED FUNCTIONAL GENOMICS APPROACHES WITHIN A COMPARATIVE EVOLUTIONARY FRAMEWORK 307 JOHN C. CUSHMAN AND MELVIN J. OLIVER 15.1 INTRODUCTION 307 15.2 TARGETED GENE DISCOVERY 308 15.3 GENE DISCOVERY USING EXPRESSED SEQUENCE TAGS 309 15.4 TRANSCRIPTOME ANALYSIS OF NONVASCULAR RESURRECTION PLANTS ... 310 15.5 TRANSCRIPTOME ANALYSIS IN VASCULAR RESURRECTION PLANTS 311 15.6 SUBTRACTIVE SUPPRESSION HYBRIDIZATION 313 15.7 CDNA-AMPLIFIED FRAGMENT LENGTH POLYMORPHISM 314 15.8 COMPARATIVE TRANSCRIPTOME ANALYSIS IN RESURRECTION PLANTS ... 315 15.9 HIGH-THROUGHPUT SEQUENCING APPROACHES 316 15.9.1 SERIAL ANALYSIS OF GENE EXPRESSION 317 15.9.2 NEXT-GENERATION SEQUENCING TECHNOLOGIES 317 15.10 PROTEIN EXPRESSION AND PROTEOMICS 318 IMAGE 8 XIV CONTENTS 15.11 METABOLOMICS AND FLUXOMICS 321 15.11.1 SUGAR METABOLISM 321 15.11.2 ENZYME ACTIVITIES 322 15.11.3 REACTIVE OXYGEN SCAVENGING 323 15.11.4 MEMBRANES AND LIPIDS 325 15.12 SIGNALING PATHWAYS 325 15.13 DEVELOPMENTAL PATHWAYS OF SEEDS AND DT VEGETATIVE TISSUES .. 327 15.14 CONCLUSION 328 REFERENCES 329 16 RESURRECTION PLANTS: PHYSIOLOGY AND MOLECULAR BIOLOGY 339 DOROTHEA BARTELS AND SYED SARFRAZ HUSSAIN 16.1 EVOLUTION AND GEOGRAPHIC DISTRIBUTION OF DESICCATION-TOLERANT PLANTS 339 16.1.1 A WINDOW INTO PAST RESEARCH OF DESICCATION TOLERANCE .. 339 16.1.2 EVOLUTION OF DESICCATION TOLERANCE 340 16.1.3 GEOGRAPHIC DISTRIBUTION AND ECOLOGY 342 16.1.4 DIVERSITY WITHIN LINDERNIACEAE 344 16.2 CELLULAR ASPECTS 344 16.2.1 MORPHOLOGICAL ADAPTATIONS 344 16.2.2 MECHANICAL STRESS: CELL WALL CHANGES, VACUOLE FRAGMENTATION AND WATER SUBSTITUTION 345 16.2.3 MEMBRANE FLUIDITY 346 16.3 PHYSIOLOGY 347 16.3.1 PHOTOSYNTHESIS 347 16.3.2 ANTIOXIDANT SYSTEMS 348 16.3.3 ABSCISIC ACID REGULATES DESICCATION TOLERANCE PATHWAYS 349 16.4 GENE EXPRESSION 349 16.4.1 REGULATORY MOLECULES 350 16.4.2 AQUAPORINS 352 16.4.3 CARBOHYDRATES 353 16.4.4 COMPATIBLE SOLUTES 354 16.4.5 PROTECTIVE PROTEINS: LEA PROTEINS AND HEAT SHOCK PROTEINS 354 16.5 REHYDRATION 355 16.6 CONCLUSIONS AND OUTLOOK 356 REFERENCES 357 PART IV SYNOPSIS 17 SYNOPSIS: DRYING WITHOUT DYING 367 DOROTHEA BARTELS, ULRICH LUETTGE, AND ERWIN BECK REFERENCES 372 INDEX 375
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series	Ecological Studies
series2	Ecological Studies
spelling	Plant desiccation tolerance Ulrich Lüttge... eds. Heidelberg [u.a.] Springer 2011 XVII, 386 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Ecological Studies 215 Pflanzen (DE-588)4045539-7 gnd rswk-swf Dürreresistenz (DE-588)4150842-7 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Pflanzen (DE-588)4045539-7 s Dürreresistenz (DE-588)4150842-7 s DE-604 Lüttge, Ulrich 1936- Sonstige (DE-588)140945156 oth Ecological Studies 215 (DE-604)BV000004586 215 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024159723&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Plant desiccation tolerance Ecological Studies Pflanzen (DE-588)4045539-7 gnd Dürreresistenz (DE-588)4150842-7 gnd
subject_GND	(DE-588)4045539-7 (DE-588)4150842-7 (DE-588)4143413-4
title	Plant desiccation tolerance
title_auth	Plant desiccation tolerance
title_exact_search	Plant desiccation tolerance
title_full	Plant desiccation tolerance Ulrich Lüttge... eds.
title_fullStr	Plant desiccation tolerance Ulrich Lüttge... eds.
title_full_unstemmed	Plant desiccation tolerance Ulrich Lüttge... eds.
title_short	Plant desiccation tolerance
title_sort	plant desiccation tolerance
topic	Pflanzen (DE-588)4045539-7 gnd Dürreresistenz (DE-588)4150842-7 gnd
topic_facet	Pflanzen Dürreresistenz Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024159723&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000004586
work_keys_str_mv	AT luttgeulrich plantdesiccationtolerance

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