Verfügbarkeit: Microorganisms in soils

Microorganisms in soils: roles in genesis and functions

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Schriftenreihe:	Soil biology 3
Schlagworte:	Soil microbiology Bodenmikroorganismus Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Auch als Internetausgabe
Beschreibung:	XXIII, 419 S. Ill., graph. Darst.
ISBN:	3540222200

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Datensatz im Suchindex

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adam_text	CONTENTS PART I INTRODUCTION 1 WHAT ARE SOILS? 3 FRANC ¸ OIS BUSCOT 1 INTRODUCTION .................................................................. 3 2 SOIL GENESIS ................................................................... 4 2.1 ROCK WEATHERING OR DECAY ...................................... 4 2.2 IMPORTANCE OF SOIL TEXTURE...................................... 5 2.3 INPUT OF ORGANIC MATTER INTO SOILS AND AGGREGATION .... 7 2.4 MIGRATION PROCESSES............................................... 8 3 BIOGEOCHEMICAL PROCESSES IN SOILS ..................................... 8 3.1 ENERGY AND CARBON................................................ 8 3.2 NITROGEN AND PHOSPHORUS ....................................... 10 4 BIOTIC INTERACTIONS INVOLVING SOIL MICROORGANISMS............... 11 4.1 COMPETITION VERSUS FACILITATION............................... 11 4.2 THE EXAMPLE OF MYCORRHIZAS ................................... 12 5 INTEGRATIVE CONSIDERATIONS ON FUNCTIONS OF MICROORGANISMS IN SPECIFIC SOIL COMPARTMENTS .......................................... 13 5.1 RELEASE OF TRANSGENIC ORGANISMS AS A TOOL TO TRACE EFFECTS OF ECOLOGICAL DISRUPTIONS ON SOIL MICROORGANISMS.......................................... 13 5.2 SOIL POLLUTION BY HEAVY METALS AS A MORE COMPLEX DISRUPTION ................................ 14 5.3 UNDERSTANDING COMPLEX FUNCTIONAL DOMAINS IN SOIL HABITATS...................................................... 15 6 CONCLUSION OR BACK TO BIODIVERSITY OF SOIL MICROBES............. 15 REFERENCES ............................................................................. 16 2 MICROBIAL DIVERSITY IN SOILS 19 BHOOPANDER GIRI, PHAM HUONG GIANG, RINA KUMARI, RAM PRASAD, AJIT VARMA 1 INTRODUCTION .................................................................. 19 2 ORIGIN OF MICROBIAL DIVERSITY............................................ 20 X CONTENTS 2.1 OXYGEN REVOLUTION ................................................ 21 2.2 ORIGIN OF THE FIRST EUKARYOTES.................................. 22 3 TYPES OF SOIL MICROORGANISMS........................................... 22 3.1 EUBACTERIA ............................................................ 24 3.2 ARCHAEBACTERIA...................................................... 29 3.3 FUNGI ................................................................... 31 3.4 ALGAE ................................................................... 33 4 MICROBIAL DIVERSITY AND BIOLOGICAL SPHERES ......................... 33 4.1 THE DETRITUSPHERE ................................................. 34 4.2 THE DRILOSPHERE .................................................... 34 4.3 THE POROSPHERE ..................................................... 35 4.4 THE AGGREGATUSPHERE ............................................. 35 4.5 THE RHIZOSPHERE ................................................... 36 5 MICROBIAL DIVERSITY AND CHEMICAL TRANSFORMATION............... 37 5.1 NITROGEN TRANSFORMATION ........................................ 38 5.2 PHOSPHORUS TRANSFORMATION.................................... 39 5.3 SULFUR TRANSFORMATION............................................ 41 5.4 IRON TRANSFORMATION .............................................. 42 6 MICROBIAL DIVERSITY AND BIOTIC INTERACTIONS......................... 42 7 CONCLUSION .................................................................... 47 REFERENCES ............................................................................. 49 PART II MICROORGANISMS AND SOIL GENESIS 3 ROLE OF MICROORGANISMS IN WEAR DOWN OF ROCKS AND MINERALS 59 ANNA A. GORBUSHINA, W.E. KRUMBEIN 1 ROCK WEATHERING OR ROCK WEAR DOWN? .............................. 59 2 CARBON DIOXIDE AND ROCK WEAR DOWN ............................... 63 3 BALANCE OF CARBON DIOXIDE SOURCES AND SINKS ..................... 68 4 ROCK WEAR DOWN AS A POTENTIAL CARBON DIOXIDE SINK........... 70 5 THE FRACTAL DIMENSION OF BIOLOGICAL ROCK WEAR DOWN ......... 71 6 CALCIUM CARBONATE AND SILICATE WEAR DOWN, DISSOLUTION AND PRECIPITATION WITH SPECIAL REFERENCE TO BIOLOGICAL ROCK DEGRADATION ........ 74 7 CONCLUSIONS ................................................................... 79 REFERENCES ............................................................................. 80 4 HUMIFICATION AND MINERALIZATION IN SOILS 85 GEORG GUGGENBERGER 1 DEFINITIONS AND INTRODUCTION ............................................ 85 2 SOIL ORGANIC MATTER RESOURCES .......................................... 86 CONTENTS XI 2.1 PLANT COMPOUNDS .................................................. 87 2.2 MICROBIAL COMPOUNDS............................................ 89 2.3 BLACK CARBON ........................................................ 90 3 MINERALIZATION AND HUMIFICATION PATHWAYS......................... 91 3.1 FACTORS AFFECTING DECOMPOSITION AND MINERALIZATION.. 92 3.2 HUMIFICATION PROCESSES .......................................... 95 4 CONCLUSIONS ................................................................... 102 REFERENCES ............................................................................. 104 5 IMPORTANCE OF MICROORGANISMS FOR SOIL AGGREGATION 107 JEAN-LUC CHOTTE 1 INTRODUCTION .................................................................. 107 2 EVIDENCE OF THE ROLE OF SOIL MICROORGANISMS....................... 108 3 MICROBIAL METABOLITES RESPONSIBLE FOR SOIL AGGREGATION ....... 110 3.1 POLYSACCHARIDES..................................................... 110 3.2 GLOMALIN .............................................................. 111 3.3 LIPIDS .................................................................. 112 4 MANIPULATION OF MICROBIALLY MEDIATED PROCESSES TO IMPROVE SOIL AGGREGATION ............................................. 113 4.1 THE RHIZOSPHERE MICROBIAL COMMUNITY.................... 113 4.2 ORGANIC RESIDUES................................................... 113 4.3 INOCULATION WITH MICROORGANISMS ............................ 114 5 CONCLUSION .................................................................... 115 REFERENCES ............................................................................. 115 PART III MICROORGANISMS AND BIOGEOCHEMICAL PROCESSES IN SOILS 6 MICROBIAL ENERGETICS IN SOILS 123 OLIVER DILLY 1 INTRODUCTION .................................................................. 123 2 SOIL, ENERGY AND MICROORGANISMS...................................... 124 3 MICROBIAL COMMUNITIES ................................................... 127 4 MICROBIAL METABOLISM IN SOIL............................................ 129 4.1 CATABOLISM ........................................................... 129 4.2 ANABOLISM............................................................ 131 4.3 SOIL ORGANIC C, MICROBIAL C AND BIOLOGICAL ACTIVE C AND INTERACTIONS WITH N.......................................... 133 5 HOLISTIC APPROACHES TO EVALUATE ENERGETIC STRATEGIES OF SOIL MICROBIAL COMMUNITIES ......................................... 133 6 CONCLUSIONS ................................................................... 136 REFERENCES ............................................................................. 136 XII CONTENTS 7 ROLE OF MICROORGANISMS IN CARBON CYCLING IN SOILS 139 ELLEN KANDELER, MICHAEL STEMMER, MARTIN H. GERZABEK 1 INTRODUCTION .................................................................. 139 2 CARBON SOURCES .............................................................. 140 3 SPATIAL DISTRIBUTION AND PROTECTION OF CARBON SOURCES......... 142 4 SPATIAL DISTRIBUTION OF SOIL MICROORGANISMS AND THEIR ACTIVITIES......................................................... 143 5 MICROORGANISMS AND ENZYMES INVOLVED IN C CYCLING ........... 147 6 DYNAMICS OF ORGANIC MATTER DECOMPOSITION IN AGROECOSYSTEMS .......................................................... 148 7 SOIL ORGANIC MATTER, BELOW-GROUND PROCESSES AND CLIMATE CHANGE ........................................................ 151 REFERENCES ............................................................................. 153 8 CONTRIBUTION OF BACTERIA TO INITIAL INPUT AND CYCLING OF NITROGEN IN SOILS 159 LAURENT PHILIPPOT, J.C. GERMON 1 INTRODUCTION .................................................................. 159 2 NITROGEN TRANSFORMATIONS IN THE SOIL ................................. 160 3 BACTERIA INVOLVED IN THE NITROGEN CYCLE.............................. 162 3.1 NITROGEN-FIXING BACTERIA ........................................ 162 3.2 NITRIFIERS .............................................................. 164 3.3 NITRATE REDUCERS, DENITRIFIERS AND NITRITE AMMONIFIERS......................................... 165 4 NITROGEN FLUXES .............................................................. 167 4.1 BIOLOGICAL NITROGEN FIXATION.................................... 168 4.2 NITROGEN MINERALIZATION ......................................... 169 4.3 NITRIFICATION.......................................................... 169 4.4 DISSIMILATORY NITRATE REDUCTION TO AMMONIUM ......... 170 4.5 DENITRIFICATION ...................................................... 171 REFERENCES ............................................................................. 172 9 INFLUENCE OF MICROORGANISMS ON PHOSPHORUS BIOAVAILABILITY IN SOILS 177 ANNETTE DEUBEL, WOLFGANG MERBACH 1 INTRODUCTION .................................................................. 177 2 MICROBIAL EFFECTS ON RHIZODEPOSITION ................................ 177 3 MECHANISMS OF MICROBIAL INFLUENCE ON PHOSPHORUS AVAILABILITY............................................... 179 3.1 SOLUBILIZATION OF CALCIUM PHOSPHATES ....................... 179 3.2 MOBILIZATION OF IRON- AND ALUMINUM-BOUND PHOSPHORUS .......................................................... 181 CONTENTS XIII 3.3 INFLUENCE ON PHOSPHORUS DIFFUSION .......................... 182 3.4 RELEASE OF PHOSPHORUS FROM ORGANIC SOURCES ............ 183 4 INTERACTIONS BETWEEN MICROORGANISMS AND HIGHER PLANTS FROM COMPETITION TO SYMBIOSIS ........................................ 184 5 PHOSPHORUS-MOBILIZING MICROORGANISMS AS BIOFERTILIZERS ..... 184 6 CONCLUSIONS ................................................................... 187 REFERENCES ............................................................................. 188 PART IV BIOTIC INTERACTIONS INVOLVING SOIL MICROORGANISMS 10 INTERACTIONS BETWEEN MYCORRHIZAL FUNGI AND BACTERIA TO IMPROVE PLANT NUTRIENT CYCLING AND SOIL STRUCTURE 195 JOSE MIGUEL BAREA, R. AZCON, C. AZCON-AGUILAR 1 INTRODUCTION .................................................................. 195 2 BENEFICIAL BACTERIA AND FUNGI IN AGRO- AND NATURAL ECOSYSTEMS ...................................... 196 3 INTERACTIONS BETWEEN MYCORRHIZAL FUNGI AND SYMBIOTIC N 2 -FIXING RHIZOBIAL BACTERIA ....................... 197 4 INTERACTIONS BETWEEN MYCORRHIZAL FUNGI AND PHOSPHATE-SOLUBILIZING BACTERIA.................................. 201 5 INTERACTIONS BETWEEN MYCORRHIZAL FUNGI AND PHYTOSTIMULATORS AZOSPIRILLUM BACTERIA ....................... 204 6 INTERACTIONS IMPROVING SOIL STRUCTURE STABILIZATION.............. 205 7 CONCLUSIONS ................................................................... 208 REFERENCES ............................................................................. 208 11 MYCORRHIZOSPHERE: STRATEGIES AND FUNCTIONS 213 BHOOPANDER GIRI, MINU SACHDEV, PHAM HUONG GIANG, RINA KUMARI, AMAR P. GARG, RALF OELMUELLER, AJIT VARMA 1 INTRODUCTION .................................................................. 213 2 THE RHIZOSPHERE............................................................. 214 3 EVOLUTION OF THE RHIZOSPHERE............................................ 217 4 ANATOMY OF THE ROOT THROUGH THE EYES OF A MICROBIOLOGIST ... 218 5 PRODUCTION OF CHEMICAL COMPOUNDS IN THE RHIZOSPHERE BY PLANT ROOTS ................................................................ 220 6 MICROBIAL DIVERSITY IN THE RHIZOSPHERE .............................. 222 7 WHAT ARE MYCORRHIZAL FUNGI? ........................................... 223 8 TYPES OF MYCORRHIZAL FUNGI .............................................. 224 8.1 ECTOMYCORRHIZA..................................................... 224 8.2 ARBUSCULAR MYCORRHIZA........................................... 224 8.3 ERICOID MYCORRHIZA ................................................ 225 XIV CONTENTS 8.4 ARBUTOID MYCORRHIZA ............................................. 225 8.5 MONOTROPOID MYCORRHIZA........................................ 226 8.6 ECT-ENDOMYCORRHIZA .............................................. 226 8.7 ORCHIDACEOUS MYCORRHIZA ....................................... 226 9 FUNCTIONS OF MYCORRHIZAL FUNGI ........................................ 227 9.1 ARBUSCULAR MYCORRHIZAL FUNGI IN RELATION TO SOIL PH ............................................. 228 9.2 ARBUSCULAR MYCORRHIZAL FUNGI IN RELATION TO HEAVY METAL STRESS ............................. 229 9.3 ARBUSCULAR MYCORRHIZAL FUNGI IN RELATION TO SOIL SALINITY....................................... 231 9.4 ARBUSCULAR MYCORRHIZAL FUNGI IN RELATION TO WATER AND DROUGHT STRESS.................... 234 10 THE MYCORRHIZOSPHERE..................................................... 235 11 INTERACTIONS IN THE MYCORRHIZOSPHERE ................................ 237 11.1 INTERACTIONS AT THE PRE-SYMBIOTIC STAGE..................... 237 11.2 INTERACTIONS AT THE POST-SYMBIOTIC STAGE ................... 238 11.3 INTERACTIONS BETWEEN ARBUSCULAR MYCORRHIZAL FUNGI AND PLANT GROWTH-PROMOTING RHIZOBACTERIA .............. 239 11.4 INTERACTIONS BETWEEN ARBUSCULAR MYCORRHIZAL FUNGI AND N 2 -FIXING BACTERIA ........................................... 239 11.5 INTERACTIONS BETWEEN ARBUSCULAR MYCORRHIZAL FUNGI AND PHOSPHATE-SOLUBILIZING BACTERIA ........................ 240 11.6 INTERACTIONS BETWEEN ARBUSCULAR MYCORRHIZAL FUNGI AND SOIL-BORNE PATHOGENS....................................... 242 12 CONCLUSION .................................................................... 242 REFERENCES ............................................................................. 247 12 INTERACTIONS BETWEEN MICROORGANISMS AND SOIL MICRO- AND MESOFAUNA 253 STEFAN SCHEU, L. RUESS, MICHAEL BONKOWSKI 1 INTRODUCTION .................................................................. 253 2 INTERACTIONS IN THE DETRITUS FOOD WEB ............................... 255 2.1 STRUCTURE OF THE DECOMPOSER ANIMAL COMMUNITY ...... 255 2.2 THE DETRITUS VS. ROOT EXUDATE-BASED FOOD WEB ......... 257 2.3 THE BACTERIAL VS. FUNGAL FOOD CHAIN......................... 259 3 THE ROLE OF MICRO- AND MESOFAUNA AS DRIVERS OF MICROBIAL DECOMPOSITION PROCESSES ................ 260 4 FEEDBACKS OF FAUNALMICROBIAL INTERACTIONS ON PLANT GROWTH ............................................................. 262 4.1 THE BACTERIAL FOOD CHAIN ....................................... 263 4.2 THE FUNGAL FOOD CHAIN .......................................... 265 CONTENTS XV 5 CONCLUSIONS ................................................................... 267 REFERENCES ............................................................................. 268 PART V FUNCTION OF MICROBES IN SPECIFIC SOIL COMPARTMENTS 13 TRANSGENIC RHIZOSPHERES OF CROP PLANTS: THEIR IMPACT ON INDIGENOUS SOIL FUNGI 279 VALERIA BIANCIOTTO, MARIANGELA GIRLANDA, ALEXANDRA LAZZARI, GILDA CAPPELLAZZO, SILVIA PEROTTO, PAOLA BONFANTE 1 INTRODUCTION .................................................................. 279 2 EXPERIMENTS WITH SAPROTROPHIC AND MYCORRHIZAL FUNGI........ 281 2.1 SAPROTROPHIC MICROFUNGI ........................................ 281 2.2 MYCORRHIZAL FUNGI ................................................. 283 3 CONCLUSIONS ................................................................... 284 REFERENCES ............................................................................. 287 14 REGULATION OF MICROBIAL ACTIVITIES IN FUNCTIONAL DOMAINS OF ROOTS AND INVERTEBRATES 291 PATRICK LAVELLE, CORINNE ROULAND, FRANC ¸ OISE BINET, MICHEL DIOUF, ANNE KERSANTE 1 INTRODUCTION .................................................................. 291 2 DETERMINANTS OF MICROBIAL ACTIVITIES: THE HIERARCHICAL MODEL ................................................... 291 3 MICROBIAL ADAPTIVE STRATEGIES: THE SLEEPING BEAUTY PARADOX . 293 4 PREDATION IN MICRO-FOOD WEBS ......................................... 293 5 THE EXTERNAL RUMEN STRATEGY ........................................... 294 6 INTERNAL MUTUALISMS IN EARTHWORMS AND TERMITES ............... 295 7 SELECTION OF MICROFLORA IN THE FUNCTIONAL DOMAINS OF SOIL ECOSYSTEM ENGINEERS ............................................. 296 8 CONCLUSION AND IMPLICATIONS FOR SOIL MANAGEMENT .............. 301 REFERENCES ............................................................................. 302 15 MICROORGANISMS OF BIOLOGICAL CRUSTS ON SOIL SURFACES 307 BURKHARD BUEDEL 1 INTRODUCTION .................................................................. 307 2 OXYGENIC PHOTOTROPHS ..................................................... 308 2.1 CYANOBACTERIA....................................................... 308 2.2 ALGAE ................................................................... 313 2.3 MICROLICHENS......................................................... 314 3 HETEROTROPHIC ORGANISMS................................................. 316 3.1 BACTERIA ............................................................... 317 XVI CONTENTS 3.2 MICROFUNGI ........................................................... 317 3.3 HETEROTROPHIC PROTISTS AND INVERTEBRATE ANIMALS........ 319 4 CONCLUSIONS ................................................................... 320 REFERENCES ............................................................................. 320 16 MICROORGANISMS IN TOXIC METAL-POLLUTED SOILS 325 GEOFFREY M. GADD 1 INTRODUCTION .................................................................. 325 2 METALS IN SOILS ................................................................ 326 3 EFFECTS OF TOXIC METALS ON MICROBIAL COMMUNITIES............... 328 4 METAL RESISTANCE AND TOLERANCE MECHANISMS ...................... 332 4.1 BACTERIA ............................................................... 332 4.2 FUNGI ................................................................... 333 5 MICROBIAL TRANSFORMATIONS OF TOXIC METALS ......................... 335 5.1 MOBILIZATION ......................................................... 335 5.2 IMMOBILIZATION ..................................................... 337 6 METALLOID TRANSFORMATIONS ............................................... 339 7 BIOMINERALOGY OF METALMICROBE INTERACTIONS .................... 340 8 MYCORRHIZAS................................................................... 342 9 BIOREMEDIATION .............................................................. 343 10 PHYTOREMEDIATION ........................................................... 343 11 CONCLUSIONS ................................................................... 344 REFERENCES ............................................................................. 345 PART VI TECHNIQUES TO INVESTIGATE SOIL MICROORGANISMS 17 MARKER GENES IN SOIL MICROBIOLOGY 359 CHRISTOPH C. TEBBE 1 INTRODUCTION .................................................................. 359 2 DEFINITION OF MARKER GENES AND THEIR FIRST APPLICATIONS IN SOIL MICROBIOLOGY........................................................ 360 3 RIBOSOMAL RNA AS AN INTRINSIC MARKER .............................. 362 4 POLYMERASE CHAIN REACTION AND SOIL-EXTRACTED NUCLEIC ACIDS ...................................... 363 5 CLONING, SEQUENCING AND PROFILING MARKER GENES FROM SOIL... 364 6 STRUCTURAL AND FUNCTIONAL DIVERSITY OF SOIL MICROBIAL COMMUNITIES AS SEEN WITH INTRINSIC MARKER GENES .................................. 367 7 EXPRESSION OF INTRINSIC MARKER GENES AND DETECTION OF GENE TRANSFER POTENTIALS............................................... 369 8 RECOMBINANT MARKER GENES ............................................. 370 CONTENTS XVII 9 DETECTION OF IN SITU GENE TRANSFER AND GENE EXPRESSION WITH RECOMBINANT MARKER GENES ...................................... 372 10 RECOMBINANT MARKER GENES AS BIOSENSORS.......................... 373 11 CONCLUSIONS AND THE FUTURE OF MARKER GENES ...................... 374 REFERENCES ............................................................................. 375 18 ASSESSING FUNCTIONS OF SOIL MICROBES WITH ISOTOPIC MEASUREMENTS 383 ERIK A. HOBBIE 1 INTRODUCTION .................................................................. 383 2 NATURAL ABUNDANCE MEASUREMENTS .................................... 384 2.1 FUNGI ................................................................... 385 2.2 METHANE CYCLING.................................................... 394 2.3 USING ISOTOPIC DIFFERENCES BETWEEN C3 AND C4 PHOTOSYNTHETIC PATHWAYS TO PROBE MICROBIAL CARBON SOURCES .......................... 395 2.4 PROBLEMS WITH EXTRAPOLATING NATURAL ABUNDANCE CULTURES TO THE FIELD................... 395 3 COMPOUND-SPECIFIC MEASUREMENTS AND ISOTOPIC TRACERS ...... 396 4 CONCLUSIONS AND FUTURE RESEARCH...................................... 397 REFERENCES ............................................................................. 398 SUBJECT INDEX 403
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indexdate	2024-07-09T20:03:36Z
institution	BVB
isbn	3540222200
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-013006393
oclc_num	76029129
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-703 DE-29 DE-634 DE-188
owner_facet	DE-M49 DE-BY-TUM DE-703 DE-29 DE-634 DE-188
physical	XXIII, 419 S. Ill., graph. Darst.
publishDate	2005
publishDateSearch	2005
publishDateSort	2005
publisher	Springer
record_format	marc
series	Soil biology
series2	Soil biology
spelling	Microorganisms in soils roles in genesis and functions Francois Buscot ... (ed.) Berlin [u.a.] Springer 2005 XXIII, 419 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Soil biology 3 Auch als Internetausgabe Soil microbiology Bodenmikroorganismus (DE-588)4448560-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Bodenmikroorganismus (DE-588)4448560-8 s DE-604 Buscot, François Sonstige oth Soil biology 3 (DE-604)BV019353150 3 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013006393&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Microorganisms in soils roles in genesis and functions Soil biology Soil microbiology Bodenmikroorganismus (DE-588)4448560-8 gnd
subject_GND	(DE-588)4448560-8 (DE-588)4143413-4
title	Microorganisms in soils roles in genesis and functions
title_auth	Microorganisms in soils roles in genesis and functions
title_exact_search	Microorganisms in soils roles in genesis and functions
title_full	Microorganisms in soils roles in genesis and functions Francois Buscot ... (ed.)
title_fullStr	Microorganisms in soils roles in genesis and functions Francois Buscot ... (ed.)
title_full_unstemmed	Microorganisms in soils roles in genesis and functions Francois Buscot ... (ed.)
title_short	Microorganisms in soils
title_sort	microorganisms in soils roles in genesis and functions
title_sub	roles in genesis and functions
topic	Soil microbiology Bodenmikroorganismus (DE-588)4448560-8 gnd
topic_facet	Soil microbiology Bodenmikroorganismus Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013006393&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV019353150
work_keys_str_mv	AT buscotfrancois microorganismsinsoilsrolesingenesisandfunctions

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