Verfügbarkeit: Environmental microbiology

Environmental microbiology:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Reineke, Walter 1948- (VerfasserIn), Schlömann, Michael 1957- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin, Germany Springer Spektrum [2023]
Schlagworte:	Mikrobiologie Umweltwissenschaften Degradation of organic pollutants Waste treatment Adaptation strategies of microorganisms Biotechnology and environmental protection Iron circuit Carbon cycle Manganese circuit Microbiology Microorganisms Sulphur circuit Heavy metals Materials cycle Environmental Microbiology Environmental issues biological exhaust air treatment biological soil remediation microbial energy production microbial communities microbial nitrogen cycle
Online-Zugang:	Inhaltstext http://www.springer.com/ Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XVI, 603 Seiten Illustrationen, Diagramme 24 cm, 1219 g
ISBN:	9783662665466 3662665468

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MARC


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240	1	0	\|a Umweltmikrobiologie
245	1	0	\|a Environmental microbiology \|c Walter Reineke, Michael Schlömann
264		1	\|a Berlin, Germany \|b Springer Spektrum \|c [2023]
300			\|a XVI, 603 Seiten \|b Illustrationen, Diagramme \|c 24 cm, 1219 g
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650	0	7	\|a Mikrobiologie \|0 (DE-588)4316357-9 \|2 gnd \|9 rswk-swf
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653			\|a Degradation of organic pollutants
653			\|a Waste treatment
653			\|a Adaptation strategies of microorganisms
653			\|a Biotechnology and environmental protection
653			\|a Iron circuit
653			\|a Carbon cycle
653			\|a Manganese circuit
653			\|a Microbiology
653			\|a Microorganisms
653			\|a Sulphur circuit
653			\|a Heavy metals
653			\|a Materials cycle
653			\|a Environmental Microbiology
653			\|a Environmental issues
653			\|a biological exhaust air treatment
653			\|a biological soil remediation
653			\|a microbial energy production
653			\|a microbial communities
653			\|a microbial nitrogen cycle
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689	0	1	\|a Mikrobiologie \|0 (DE-588)4316357-9 \|D s
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700	1		\|a Schlömann, Michael \|d 1957- \|e Verfasser \|0 (DE-588)1064588972 \|4 aut
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Datensatz im Suchindex

_version_	1820670655357517824
adam_text	CONTENTS 1 GLOBAL ENVIRONMENT: CLIMATE AND MICROORGANISMS . 1 1.1 CLIMATE SYSTEM . 2 1.1.1 COMPONENTS OF THE CLIMATE SYSTEM . 2 1.1.2 INTERACTIONS BETWEEN THE COMPONENTS . 7 1.1.3 ENERGY BALANCE OF THE EARTH . 7 1.1.4 CLIMATE CHANGE AND ITS EFFECTS . 9 1.1.5 WHICH SUBSTANCES HAVE WHICH EFFECT ON THE CLIMATE? . 14 1.1.6 PROJECTIONS . 16 1.2 GLOBAL CYCLES WITH RESERVOIRS AND MATERIAL FLOWS . 1 6 1.2.1 GLOBAL CARBON CYCLE . 17 1.2.2 GLOBAL NITROGEN CYCLE . 20 1.2.3 GLOBAL SULFUR CYCLE . 25 1.2.4 GLOBAL PHOSPHORUS CYCLE . 28 1.2.5 SUMMARY OF GLOBAL CYCLES . 29 REFERENCES . 30 2 MICROORGANISMS, ACTORS IN THE ENVIRONMENT . 33 2.1 MICROORGANISMS, ASSIGNMENT TO GROUPS . 34 2.2 MICROORGANISMS, THE ADVANTAGE OF SMALL SIZE . 37 2.3 MICROORGANISMS, SMALL BUT NUMEROUS . 39 2.4 MICROORGANISMS, DO NOT LIVE ALONE . 40 REFERENCES . 51 3 RELATIONSHIP BETWEEN MICROBIAL ENERGY PRODUCTION AND MATERIAL CYCLES . 53 3.1 PRINCIPLES OF ENERGY PRODUCTION . 54 3.1.1 RESPIRATORY CHAINS AND ATP SYNTHASE . 60 3.2 MAIN TYPES OF MICROBIAL METABOLISM. 64 3.2.1 PHOTOTROPHY . 64 3.2.2 CHEMOTROPHY . 67 3.2.3 CARBON SOURCE: HETEROTROPHY AND AUTOTROPHY . 69 REFERENCES . 70 4 CARBON CYCLE . 71 4.1 FORMATION OF THE EARTH'S ATMOSPHERE AND FOSSIL RAW MATERIALS. 72 4.2 MATERIAL FLOWS IN THE CARBON CYCLE . 73 4.3 AUTOTROPHIC CO 2 -FIXATION . 76 4.3.1 CALVIN CYCLE . 79 4.3.2 REDUCTIVE CITRATE CYCLE . 80 4.3.3 REDUCTIVE ACETYL-COA PATHWAY (ACETOGENESIS). 82 4.3.4 CO 2 -FIXATION CYCLE IN CRENARCHAEOTA . 83 4.3.5 3-HYDROXYPROPIONATE BI-CYCLE . 85 4.3.6 COMPARISON OF THE CO,-FIXATION PROCESSES . 85 XII CONTENTS 4.4 DEGRADATION OF NATURAL SUBSTANCES . 87 4.4.1 DEGRADATION OF CARBOHYDRATES. 87 4.4.2 DEGRADATION OF PROTEINS. 95 4.4.3 DEGRADATION OF FATS . 97 4.4.4 DEGRADATION OF PLANT SUBSTANCES/LIGNIN AND OTHER NATURAL SUBSTANCES/HUMUS FORMATION . 97 4.5 METHANE CYCLE/METHANOGENIC FOOD CHAIN/METHANOTROPHY . 1 09 4.5.1 METHANE FORMATION . 109 4.5.2 METHANE DEGRADATION . 116 REFERENCES . 124 5 ENVIRONMENTAL CHEMICALS . 127 5.1 CHEMICALS IN THE ENVIRONMENT: DISTRIBUTION AND CONCENTRATION . 128 5.1.1 TRANSPORT PROCESSES . 130 5.1.2 TRANSFER PROCESSES BETWEEN ENVIRONMENTAL MEDIA OR COMPARTMENTS . 131 5.1.3 TRANSFORMATION PROCESSES . 133 5.2 ASSESSMENT OF CHEMICALS: GENERAL PRINCIPLES AND CONCEPTS . 140 5.2.1 DEGRADABILITY TESTS . 143 5.2.2 TOXICITY AND MUTAGENICITY TESTING WITH MICROBIAL SYSTEMS . 152 5.2.3 MUTAGENICITY TESTING WITH BACTERIAL SYSTEMS . 154 REFERENCES . 160 6 MICROBIAL DEGRADATION OF POLLUTANTS . 161 6.1 DEGRADATION OF HYDROCARBONS . 163 6.1.1 PETROLEUM: COMPOSITION AND PROPERTIES . 164 6.1.2 THE PROCESS OF OILING IN THE SEA . 165 6.1.3 DEGRADATION OF ALKANES, ALKENES AND CYCLIC ALKANES . 166 6.1.4 DEGRADATION OF MONOAROMATIC HYDROCARBONS . 176 6.1.5 DEGRADATION AND HUMIFICATION OF POLYNUCLEAR HYDROCARBONS . 195 6.1.6 DEGRADATION OF HETEROCYCLES . 202 6.1.7 FORMATION OF BIOSURFACTANTS/ABSORPTION OF MINERAL OIL HYDROCARBONS . 208 6.2 DEGRADATION OF CHLORINATED POLLUTANTS . 213 6.2.1 DEGRADATION OF CHLORINATED AROMATICS . 213 6.2.2 DEGRADATION OF HEXACHLOROCYCLOHEXANE . 225 6.2.3 DEGRADATION OF TRIAZINES . 226 6.2.4 DEGRADATION OF CHLOROALIPHATIC COMPOUNDS . 234 6.2.5 ORGANOHALOGENS FROM NATURE/NATURAL SOURCES . 250 6.3 DEGRADATION AND HUMIFICATION OF NITROAROMATICS. 254 6.3.1 ENVIRONMENTAL PROBLEM CAUSED BY NITROAROMATICS . 254 6.3.2 POSSIBILITY OF MICROBIAL DEGRADATION OF NITROAROMATICS . 254 6.3.3 ELIMINATION OF TRINITROTOLUENE BY SEQUESTRATION ON SOIL . 257 6.4 DEGRADATION OF AROMATIC SULFONIC ACIDS AND AZO DYES . 259 6.4.1 AROMATIC SULFONIC ACIDS . 259 6.4.2 DEGRADATION OF AZO DYES . 262 6.5 PLASTICS, BIOPLASTICS . 264 6.5.1 DEGRADABILITY OF PLASTICS . 266 XIII CONTENTS 6.5.2 BIOPLASTICS . 268 6.5.3 AN ASSESSMENT OF THE ENVIRONMENTAL IMPACT OF PLASTICS AND BIOPLASTICS. 272 6.6 COMPLEXING AGENTS: AMINOPOLYCARBOXYLIC ACIDS . 275 6.7 ENDOCRINE ACTIVE COMPOUNDS. 277 6.7.1 TRIBUTYLTIN COMPOUNDS . 278 6.7.2 ALKYLPHENOLS . 279 6.7.3 BISPHENOL A . 279 6.8 METHYL TERT-BUTYL ETHER . 281 6.9 GLYPHOSATE . 283 REFERENCES . 285 7 THE MICROBIAL NITROGEN CYCLE . 291 7.1 NITROGEN FIXATION . 293 7.2 AMMONIFICATION . 297 7.3 NITRIFICATION . 297 7.4 ANAMMOX. 300 7.5 NITRATE REDUCTION . 302 7.5.1 DENITRIFICATION . 302 7.5.2 DISSIMILATORY NITRATE REDUCTION TO AMMONIUM . 303 REFERENCES . 304 8 CYCLES OF SULFUR, IRON AND MANGANESE . 307 8.1 SULFUR CYCLE . 308 8.1.1 SULFATE REDUCTION . 308 8.1.2 REDUCTION OF ELEMENTAL SULFUR . 312 8.1.3 SULFUR DISPROPORTIONATION . 312 8.1.4 OXIDATION OF SULFIDE AND ELEMENTAL SULFUR . 312 8.1.5 ORGANIC SULFUR COMPOUNDS . 313 8.2 THE IRON CYCLE . 319 8.2.1 OXIDATION OF DIVALENT IRON . 320 8.2.2 REDUCTION OF TRIVALENT IRON . 325 8.3 THE MANGANESE CYCLE . 327 8.3.1 OXIDATION OF DIVALENT MANGANESE . 327 8.3.2 REDUCTION OF TETRAVALENT MANGANESE (MN 4+ ): ANAEROBIC RESPIRATION . 327 REFERENCES . 328 9 HEAVY METALS AND OTHER TOXIC INORGANIC IONS . 331 9.1 TOXICITY . 332 9.2 ENVIRONMENTAL QUALITY STANDARDS . 333 9.3 NATURAL AND ANTHROPOGENIC OCCURRENCES . 334 9.4 RESISTANCE OF MICROORGANISMS . 336 9.5 MERCURY . 340 9.6 ARSENIC. 342 9.6.1 ARSENITE OXIDATION . 343 9.6.2 ARSENATE REDUCTION . 344 9.6.3 ARSENATE METHYLATION . 344 XIV CONTENTS 9.7 SELENIUM . 344 9.8 URANIUM. 346 REFERENCES . 347 10 MICROORGANISMS AT DIFFERENT SITES: LIVING CONDITIONS AND ADAPTATION STRATEGIES . 349 10.1 MICROBIAL COMPETITION AND COOPERATION . 353 10.1.1 GROWTH RATES AND NUTRIENT CONCENTRATIONS . 354 10.1.2 ADAPTATION . 357 10.1.3 MIXED SUBSTRATES. 365 10.1.4 LIMIT CONCENTRATIONS . 366 10.1.5 MICROBIAL COOPERATION . 366 10.2 ATTACHMENT TO SURFACES AND BIOFILMS . 368 10.2.1 SURFACES . 368 10.2.2 BIOFILMS . 368 10.3 SOIL AS MICROBIAL HABITAT . 370 10.4 AQUATIC BIOTOPES . 377 10.4.1 FRESHWATER ENVIRONMENT . 377 10.4.2 MARINE ENVIRONMENTS . 381 REFERENCES . 395 11 MICROBIAL COMMUNITIES: STRUCTURAL AND FUNCTIONAL ANALYSES WITH CLASSICAL APPROACH . 397 11.1 SUMMARY METHODS . 398 11.1.1 DETERMINATION OF BACTERIAL COUNTS AND BIOMASSES . 398 11.1.2 DETERMINATION OF ACTIVITIES . 402 11.2 DETECTION OF CERTAIN MICROORGANISMS . 409 11.3 MICROORGANISMS, FROM NATURE TO THE LABORATORY, THE ISOLATION OF PURE CULTURES . 411 11.3.1 ORGANISMS THAT CANNOT BE CULTIVATED? . 412 11.3.2 ISOLATION AND PROBLEMS . 412 11.3.3 ENRICHMENT SYSTEM . 413 11.3.4 ANALOGUE ENRICHMENT: SENSE OR NONSENSE? . 414 11.3.5 INOCULUM FOR ENRICHMENT CULTURE . 414 REFERENCES . 418 12 MICROBIAL COMMUNITIES: STRUCTURAL AND FUNCTIONAL ANALYSES WITH MOLECULAR BIOLOGICAL APPROACH . 421 12.1 BASIC MOLECULAR GENETIC METHODS FOR CLASSIFICATION AND IDENTIFICATION OF PURE CULTURES . 422 12.2 MOLECULAR GENETIC METHODS FOR COMMUNITY CHARACTERIZATION . 434 12.3 METAGENOMICS. 447 12.3.1 COMMUNITY OF AN ACID MINE DRAINAGE SYSTEM . 447 12.3.2 COMMUNITY OF THE SARGASSO SEA . 449 12.3.3 THE GLOBAL OCEAN SAMPLING EXPEDITION . 451 12.3.4 SEQUENCE DATA AND FUNCTIONALITY: A CRITICAL VIEW . 452 REFERENCES . 456 XV CONTENTS 13 DAMAGE TO INORGANIC MATERIALS DUE TO MICROBIAL ACTIVITIES, BIOCORROSION . 461 13.1 IRON CORROSION . 462 13.2 CONCRETE CORROSION . 465 13.3 BUILDING CORROSION/DAMAGE TO STONE . 466 REFERENCE . 466 14 BIOLOGICAL WASTE WATER TREATMENT . 467 14.1 FORMATION AND COMPOSITION OF WASTE WATER . 468 14.2 WASTE WATER TREATMENT IN MECHANICAL-BIOLOGICAL TREATMENT PLANTS WITH AEROBIC STAGE . 471 14.3 BIOLOGICAL PHOSPHATE ELIMINATION . 477 14.4 NITROGEN ELIMINATION DURING WASTE WATER TREATMENT . 481 14.5 ANAEROBIC SLUDGE TREATMENT, DIRECT ANAEROBIC WASTEWATER TREATMENT AND BIOGAS PRODUCTION. 485 14.6 TREATMENT OF INDUSTRIAL WASTE WATER . 488 14.7 NEAR-NATURAL WASTEWATER TREATMENT PROCESSES . 489 REFERENCES . 491 15 BIOLOGICAL EXHAUST AIR TREATMENT . 493 15.1 PROBLEMS WITH EXHAUST AIR FLOWS . 494 15.2 MICROBIAL EXHAUST AIR PURIFICATION, GENERAL PRINCIPLES . 498 15.3 EXHAUST AIR PURIFICATION SYSTEMS: BIOFILTER . 502 15.4 EXHAUST AIR PURIFICATION SYSTEMS: BIOSCRUBBERS . 511 15.5 EXHAUST AIR PURIFICATION SYSTEMS: TRICKLING FILTER SCRUBBERS . 512 15.6 EXHAUST AIR PURIFICATION SYSTEMS: MEMBRANE REACTORS . 515 15.7 SELECTION CRITERIA FOR PROCEDURE SELECTION . 516 REFERENCES . 517 16 BIOLOGICAL SOIL REMEDIATION . 523 16.1 CONTAMINATED SITE ISSUES . 524 16.2 METHODS OF BIOLOGICAL SOIL REMEDIATION . 527 16.2.1 EX SITU PROCEDURE . 529 16.2.2 IN SITU SOIL REMEDIATION . 535 FURTHER READING . 542 17 BIOLOGICAL WASTE TREATMENT . 543 17.1 WASTE ISSUES . 544 17.2 BIOLOGICAL WASTE TREATMENT PROCESSES . 546 17.2.1 THE COMPOSTING PROCESS . 547 17.2.2 COMPOSTING PROCESSES . 548 17.2.3 ANAEROBIC WASTE TREATMENT BY DIGESTION . 549 REFERENCES . 550 XVI CONTENTS 18 BIOTECHNOLOGY AND ENVIRONMENTAL PROTECTION . 551 18.1 BIOLOGICAL PEST CONTROL . 552 18.1.1 BIOINSECTICIDES . 552 18.1.2 BIOFUNGICIDES AND HERBICIDES . 559 18.2 DESIGN OF NEW CHEMICALS . 560 18.2.1 STRUCTURE-ACTIVITY RELATIONSHIP/PREDICTABI IITY OF DEGRADATION . 561 18.2.2 DEGRADABLE ALTERNATIVES TO CURRENT CHEMICALS. 566 18.3 PRODUCT-INTEGRATED ENVIRONMENTAL PROTECTION THROUGH BIOTECHNOLOGY . 568 18.3.1 PROCESS COMPARISON: BIOTECHNICAL AND CHEMICAL-TECHNICAL PROCESSES . 570 18.3.2 ENVIRONMENTAL RELIEF EFFECTS THROUGH PRODUCT SUBSTITUTION . 573 18.3.3 SUMMARY PIUS . 576 18.4 BIOFUELS . 577 18.4.1 BIOETHANOL . 579 18.4.2 BIODIESEL . 579 18.4.3 BIOMASS-TO-LIQUID FUEL . 580 18.5 ELECTRICITY FROM MICROORGANISMS . 580 18.5.1 HYDROGEN PRODUCTION IN BIOREACTORS FOR CONVENTIONAL FUEL CELLS . 581 18.5.2 MICROBIAL PRODUCTION OF FUEL IN THE ANODE COMPARTMENT OF THE FUEL CELL . 581 18.5.3 DIRECT ELECTRON TRANSPORT FROM THE CELL TO THE ELECTRODE . 582 18.5.4 MEDIATORS FOR ELECTRON TRANSPORT . 582 REFERENCES . 584 19 FOOD FOR THOUGHT . 589 19.1 SUSTAINABILITY, THE CONCEPT . 590 19.2 SUSTAINABILITY, ENVIRONMENTAL MICROBIOLOGY A CONTRIBUTION . 590 19.3 ENVIRONMENT AND ENVIRONMENTAL MICROBIOLOGY, REFLECTION . 591 REFERENCES . 601
adam_txt	CONTENTS 1 GLOBAL ENVIRONMENT: CLIMATE AND MICROORGANISMS . 1 1.1 CLIMATE SYSTEM . 2 1.1.1 COMPONENTS OF THE CLIMATE SYSTEM . 2 1.1.2 INTERACTIONS BETWEEN THE COMPONENTS . 7 1.1.3 ENERGY BALANCE OF THE EARTH . 7 1.1.4 CLIMATE CHANGE AND ITS EFFECTS . 9 1.1.5 WHICH SUBSTANCES HAVE WHICH EFFECT ON THE CLIMATE? . 14 1.1.6 PROJECTIONS . 16 1.2 GLOBAL CYCLES WITH RESERVOIRS AND MATERIAL FLOWS . 1 6 1.2.1 GLOBAL CARBON CYCLE . 17 1.2.2 GLOBAL NITROGEN CYCLE . 20 1.2.3 GLOBAL SULFUR CYCLE . 25 1.2.4 GLOBAL PHOSPHORUS CYCLE . 28 1.2.5 SUMMARY OF GLOBAL CYCLES . 29 REFERENCES . 30 2 MICROORGANISMS, ACTORS IN THE ENVIRONMENT . 33 2.1 MICROORGANISMS, ASSIGNMENT TO GROUPS . 34 2.2 MICROORGANISMS, THE ADVANTAGE OF SMALL SIZE . 37 2.3 MICROORGANISMS, SMALL BUT NUMEROUS . 39 2.4 MICROORGANISMS, DO NOT LIVE ALONE . 40 REFERENCES . 51 3 RELATIONSHIP BETWEEN MICROBIAL ENERGY PRODUCTION AND MATERIAL CYCLES . 53 3.1 PRINCIPLES OF ENERGY PRODUCTION . 54 3.1.1 RESPIRATORY CHAINS AND ATP SYNTHASE . 60 3.2 MAIN TYPES OF MICROBIAL METABOLISM. 64 3.2.1 PHOTOTROPHY . 64 3.2.2 CHEMOTROPHY . 67 3.2.3 CARBON SOURCE: HETEROTROPHY AND AUTOTROPHY . 69 REFERENCES . 70 4 CARBON CYCLE . 71 4.1 FORMATION OF THE EARTH'S ATMOSPHERE AND FOSSIL RAW MATERIALS. 72 4.2 MATERIAL FLOWS IN THE CARBON CYCLE . 73 4.3 AUTOTROPHIC CO 2 -FIXATION . 76 4.3.1 CALVIN CYCLE . 79 4.3.2 REDUCTIVE CITRATE CYCLE . 80 4.3.3 REDUCTIVE ACETYL-COA PATHWAY (ACETOGENESIS). 82 4.3.4 CO 2 -FIXATION CYCLE IN CRENARCHAEOTA . 83 4.3.5 3-HYDROXYPROPIONATE BI-CYCLE . 85 4.3.6 COMPARISON OF THE CO,-FIXATION PROCESSES . 85 XII CONTENTS 4.4 DEGRADATION OF NATURAL SUBSTANCES . 87 4.4.1 DEGRADATION OF CARBOHYDRATES. 87 4.4.2 DEGRADATION OF PROTEINS. 95 4.4.3 DEGRADATION OF FATS . 97 4.4.4 DEGRADATION OF PLANT SUBSTANCES/LIGNIN AND OTHER NATURAL SUBSTANCES/HUMUS FORMATION . 97 4.5 METHANE CYCLE/METHANOGENIC FOOD CHAIN/METHANOTROPHY . 1 09 4.5.1 METHANE FORMATION . 109 4.5.2 METHANE DEGRADATION . 116 REFERENCES . 124 5 ENVIRONMENTAL CHEMICALS . 127 5.1 CHEMICALS IN THE ENVIRONMENT: DISTRIBUTION AND CONCENTRATION . 128 5.1.1 TRANSPORT PROCESSES . 130 5.1.2 TRANSFER PROCESSES BETWEEN ENVIRONMENTAL MEDIA OR COMPARTMENTS . 131 5.1.3 TRANSFORMATION PROCESSES . 133 5.2 ASSESSMENT OF CHEMICALS: GENERAL PRINCIPLES AND CONCEPTS . 140 5.2.1 DEGRADABILITY TESTS . 143 5.2.2 TOXICITY AND MUTAGENICITY TESTING WITH MICROBIAL SYSTEMS . 152 5.2.3 MUTAGENICITY TESTING WITH BACTERIAL SYSTEMS . 154 REFERENCES . 160 6 MICROBIAL DEGRADATION OF POLLUTANTS . 161 6.1 DEGRADATION OF HYDROCARBONS . 163 6.1.1 PETROLEUM: COMPOSITION AND PROPERTIES . 164 6.1.2 THE PROCESS OF OILING IN THE SEA . 165 6.1.3 DEGRADATION OF ALKANES, ALKENES AND CYCLIC ALKANES . 166 6.1.4 DEGRADATION OF MONOAROMATIC HYDROCARBONS . 176 6.1.5 DEGRADATION AND HUMIFICATION OF POLYNUCLEAR HYDROCARBONS . 195 6.1.6 DEGRADATION OF HETEROCYCLES . 202 6.1.7 FORMATION OF BIOSURFACTANTS/ABSORPTION OF MINERAL OIL HYDROCARBONS . 208 6.2 DEGRADATION OF CHLORINATED POLLUTANTS . 213 6.2.1 DEGRADATION OF CHLORINATED AROMATICS . 213 6.2.2 DEGRADATION OF HEXACHLOROCYCLOHEXANE . 225 6.2.3 DEGRADATION OF TRIAZINES . 226 6.2.4 DEGRADATION OF CHLOROALIPHATIC COMPOUNDS . 234 6.2.5 ORGANOHALOGENS FROM NATURE/NATURAL SOURCES . 250 6.3 DEGRADATION AND HUMIFICATION OF NITROAROMATICS. 254 6.3.1 ENVIRONMENTAL PROBLEM CAUSED BY NITROAROMATICS . 254 6.3.2 POSSIBILITY OF MICROBIAL DEGRADATION OF NITROAROMATICS . 254 6.3.3 ELIMINATION OF TRINITROTOLUENE BY SEQUESTRATION ON SOIL . 257 6.4 DEGRADATION OF AROMATIC SULFONIC ACIDS AND AZO DYES . 259 6.4.1 AROMATIC SULFONIC ACIDS . 259 6.4.2 DEGRADATION OF AZO DYES . 262 6.5 PLASTICS, BIOPLASTICS . 264 6.5.1 DEGRADABILITY OF PLASTICS . 266 XIII CONTENTS 6.5.2 BIOPLASTICS . 268 6.5.3 AN ASSESSMENT OF THE ENVIRONMENTAL IMPACT OF PLASTICS AND BIOPLASTICS. 272 6.6 COMPLEXING AGENTS: AMINOPOLYCARBOXYLIC ACIDS . 275 6.7 ENDOCRINE ACTIVE COMPOUNDS. 277 6.7.1 TRIBUTYLTIN COMPOUNDS . 278 6.7.2 ALKYLPHENOLS . 279 6.7.3 BISPHENOL A . 279 6.8 METHYL TERT-BUTYL ETHER . 281 6.9 GLYPHOSATE . 283 REFERENCES . 285 7 THE MICROBIAL NITROGEN CYCLE . 291 7.1 NITROGEN FIXATION . 293 7.2 AMMONIFICATION . 297 7.3 NITRIFICATION . 297 7.4 ANAMMOX. 300 7.5 NITRATE REDUCTION . 302 7.5.1 DENITRIFICATION . 302 7.5.2 DISSIMILATORY NITRATE REDUCTION TO AMMONIUM . 303 REFERENCES . 304 8 CYCLES OF SULFUR, IRON AND MANGANESE . 307 8.1 SULFUR CYCLE . 308 8.1.1 SULFATE REDUCTION . 308 8.1.2 REDUCTION OF ELEMENTAL SULFUR . 312 8.1.3 SULFUR DISPROPORTIONATION . 312 8.1.4 OXIDATION OF SULFIDE AND ELEMENTAL SULFUR . 312 8.1.5 ORGANIC SULFUR COMPOUNDS . 313 8.2 THE IRON CYCLE . 319 8.2.1 OXIDATION OF DIVALENT IRON . 320 8.2.2 REDUCTION OF TRIVALENT IRON . 325 8.3 THE MANGANESE CYCLE . 327 8.3.1 OXIDATION OF DIVALENT MANGANESE . 327 8.3.2 REDUCTION OF TETRAVALENT MANGANESE (MN 4+ ): ANAEROBIC RESPIRATION . 327 REFERENCES . 328 9 HEAVY METALS AND OTHER TOXIC INORGANIC IONS . 331 9.1 TOXICITY . 332 9.2 ENVIRONMENTAL QUALITY STANDARDS . 333 9.3 NATURAL AND ANTHROPOGENIC OCCURRENCES . 334 9.4 RESISTANCE OF MICROORGANISMS . 336 9.5 MERCURY . 340 9.6 ARSENIC. 342 9.6.1 ARSENITE OXIDATION . 343 9.6.2 ARSENATE REDUCTION . 344 9.6.3 ARSENATE METHYLATION . 344 XIV CONTENTS 9.7 SELENIUM . 344 9.8 URANIUM. 346 REFERENCES . 347 10 MICROORGANISMS AT DIFFERENT SITES: LIVING CONDITIONS AND ADAPTATION STRATEGIES . 349 10.1 MICROBIAL COMPETITION AND COOPERATION . 353 10.1.1 GROWTH RATES AND NUTRIENT CONCENTRATIONS . 354 10.1.2 ADAPTATION . 357 10.1.3 MIXED SUBSTRATES. 365 10.1.4 LIMIT CONCENTRATIONS . 366 10.1.5 MICROBIAL COOPERATION . 366 10.2 ATTACHMENT TO SURFACES AND BIOFILMS . 368 10.2.1 SURFACES . 368 10.2.2 BIOFILMS . 368 10.3 SOIL AS MICROBIAL HABITAT . 370 10.4 AQUATIC BIOTOPES . 377 10.4.1 FRESHWATER ENVIRONMENT . 377 10.4.2 MARINE ENVIRONMENTS . 381 REFERENCES . 395 11 MICROBIAL COMMUNITIES: STRUCTURAL AND FUNCTIONAL ANALYSES WITH CLASSICAL APPROACH . 397 11.1 SUMMARY METHODS . 398 11.1.1 DETERMINATION OF BACTERIAL COUNTS AND BIOMASSES . 398 11.1.2 DETERMINATION OF ACTIVITIES . 402 11.2 DETECTION OF CERTAIN MICROORGANISMS . 409 11.3 MICROORGANISMS, FROM NATURE TO THE LABORATORY, THE ISOLATION OF PURE CULTURES . 411 11.3.1 ORGANISMS THAT CANNOT BE CULTIVATED? . 412 11.3.2 ISOLATION AND PROBLEMS . 412 11.3.3 ENRICHMENT SYSTEM . 413 11.3.4 ANALOGUE ENRICHMENT: SENSE OR NONSENSE? . 414 11.3.5 INOCULUM FOR ENRICHMENT CULTURE . 414 REFERENCES . 418 12 MICROBIAL COMMUNITIES: STRUCTURAL AND FUNCTIONAL ANALYSES WITH MOLECULAR BIOLOGICAL APPROACH . 421 12.1 BASIC MOLECULAR GENETIC METHODS FOR CLASSIFICATION AND IDENTIFICATION OF PURE CULTURES . 422 12.2 MOLECULAR GENETIC METHODS FOR COMMUNITY CHARACTERIZATION . 434 12.3 METAGENOMICS. 447 12.3.1 COMMUNITY OF AN ACID MINE DRAINAGE SYSTEM . 447 12.3.2 COMMUNITY OF THE SARGASSO SEA . 449 12.3.3 THE GLOBAL OCEAN SAMPLING EXPEDITION . 451 12.3.4 SEQUENCE DATA AND FUNCTIONALITY: A CRITICAL VIEW . 452 REFERENCES . 456 XV CONTENTS 13 DAMAGE TO INORGANIC MATERIALS DUE TO MICROBIAL ACTIVITIES, BIOCORROSION . 461 13.1 IRON CORROSION . 462 13.2 CONCRETE CORROSION . 465 13.3 BUILDING CORROSION/DAMAGE TO STONE . 466 REFERENCE . 466 14 BIOLOGICAL WASTE WATER TREATMENT . 467 14.1 FORMATION AND COMPOSITION OF WASTE WATER . 468 14.2 WASTE WATER TREATMENT IN MECHANICAL-BIOLOGICAL TREATMENT PLANTS WITH AEROBIC STAGE . 471 14.3 BIOLOGICAL PHOSPHATE ELIMINATION . 477 14.4 NITROGEN ELIMINATION DURING WASTE WATER TREATMENT . 481 14.5 ANAEROBIC SLUDGE TREATMENT, DIRECT ANAEROBIC WASTEWATER TREATMENT AND BIOGAS PRODUCTION. 485 14.6 TREATMENT OF INDUSTRIAL WASTE WATER . 488 14.7 NEAR-NATURAL WASTEWATER TREATMENT PROCESSES . 489 REFERENCES . 491 15 BIOLOGICAL EXHAUST AIR TREATMENT . 493 15.1 PROBLEMS WITH EXHAUST AIR FLOWS . 494 15.2 MICROBIAL EXHAUST AIR PURIFICATION, GENERAL PRINCIPLES . 498 15.3 EXHAUST AIR PURIFICATION SYSTEMS: BIOFILTER . 502 15.4 EXHAUST AIR PURIFICATION SYSTEMS: BIOSCRUBBERS . 511 15.5 EXHAUST AIR PURIFICATION SYSTEMS: TRICKLING FILTER SCRUBBERS . 512 15.6 EXHAUST AIR PURIFICATION SYSTEMS: MEMBRANE REACTORS . 515 15.7 SELECTION CRITERIA FOR PROCEDURE SELECTION . 516 REFERENCES . 517 16 BIOLOGICAL SOIL REMEDIATION . 523 16.1 CONTAMINATED SITE ISSUES . 524 16.2 METHODS OF BIOLOGICAL SOIL REMEDIATION . 527 16.2.1 EX SITU PROCEDURE . 529 16.2.2 IN SITU SOIL REMEDIATION . 535 FURTHER READING . 542 17 BIOLOGICAL WASTE TREATMENT . 543 17.1 WASTE ISSUES . 544 17.2 BIOLOGICAL WASTE TREATMENT PROCESSES . 546 17.2.1 THE COMPOSTING PROCESS . 547 17.2.2 COMPOSTING PROCESSES . 548 17.2.3 ANAEROBIC WASTE TREATMENT BY DIGESTION . 549 REFERENCES . 550 XVI CONTENTS 18 BIOTECHNOLOGY AND ENVIRONMENTAL PROTECTION . 551 18.1 BIOLOGICAL PEST CONTROL . 552 18.1.1 BIOINSECTICIDES . 552 18.1.2 BIOFUNGICIDES AND HERBICIDES . 559 18.2 DESIGN OF NEW CHEMICALS . 560 18.2.1 STRUCTURE-ACTIVITY RELATIONSHIP/PREDICTABI IITY OF DEGRADATION . 561 18.2.2 DEGRADABLE ALTERNATIVES TO CURRENT CHEMICALS. 566 18.3 PRODUCT-INTEGRATED ENVIRONMENTAL PROTECTION THROUGH BIOTECHNOLOGY . 568 18.3.1 PROCESS COMPARISON: BIOTECHNICAL AND CHEMICAL-TECHNICAL PROCESSES . 570 18.3.2 ENVIRONMENTAL RELIEF EFFECTS THROUGH PRODUCT SUBSTITUTION . 573 18.3.3 SUMMARY PIUS . 576 18.4 BIOFUELS . 577 18.4.1 BIOETHANOL . 579 18.4.2 BIODIESEL . 579 18.4.3 BIOMASS-TO-LIQUID FUEL . 580 18.5 ELECTRICITY FROM MICROORGANISMS . 580 18.5.1 HYDROGEN PRODUCTION IN BIOREACTORS FOR CONVENTIONAL FUEL CELLS . 581 18.5.2 MICROBIAL PRODUCTION OF FUEL IN THE ANODE COMPARTMENT OF THE FUEL CELL . 581 18.5.3 DIRECT ELECTRON TRANSPORT FROM THE CELL TO THE ELECTRODE . 582 18.5.4 MEDIATORS FOR ELECTRON TRANSPORT . 582 REFERENCES . 584 19 FOOD FOR THOUGHT . 589 19.1 SUSTAINABILITY, THE CONCEPT . 590 19.2 SUSTAINABILITY, ENVIRONMENTAL MICROBIOLOGY A CONTRIBUTION . 590 19.3 ENVIRONMENT AND ENVIRONMENTAL MICROBIOLOGY, REFLECTION . 591 REFERENCES . 601
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author	Reineke, Walter 1948- Schlömann, Michael 1957-
author_GND	(DE-588)1026134609 (DE-588)1064588972
author_facet	Reineke, Walter 1948- Schlömann, Michael 1957-
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author_sort	Reineke, Walter 1948-
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building	Verbundindex
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ctrlnum	(OCoLC)1377498576 (DE-599)DNB1271992809
dewey-full	579.1727
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	579 - Microorganisms, fungi & algae
dewey-raw	579.1727
dewey-search	579.1727
dewey-sort	3579.1727
dewey-tens	570 - Biology
discipline	Biologie
discipline_str_mv	Biologie
format	Book
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spelling	Reineke, Walter 1948- Verfasser (DE-588)1026134609 aut Umweltmikrobiologie Environmental microbiology Walter Reineke, Michael Schlömann Berlin, Germany Springer Spektrum [2023] XVI, 603 Seiten Illustrationen, Diagramme 24 cm, 1219 g txt rdacontent n rdamedia nc rdacarrier Mikrobiologie (DE-588)4316357-9 gnd rswk-swf Umweltwissenschaften (DE-588)4137364-9 gnd rswk-swf Degradation of organic pollutants Waste treatment Adaptation strategies of microorganisms Biotechnology and environmental protection Iron circuit Carbon cycle Manganese circuit Microbiology Microorganisms Sulphur circuit Heavy metals Materials cycle Environmental Microbiology Environmental issues biological exhaust air treatment biological soil remediation microbial energy production microbial communities microbial nitrogen cycle Umweltwissenschaften (DE-588)4137364-9 s Mikrobiologie (DE-588)4316357-9 s DE-604 Schlömann, Michael 1957- Verfasser (DE-588)1064588972 aut Springer-Verlag GmbH (DE-588)1065168780 pbl Erscheint auch als Online-Ausgabe 978-3-662-66547-3 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=8b3e4e8df9cb4785bd9b3a814d42c54d&prov=M&dok_var=1&dok_ext=htm Inhaltstext X:MVB http://www.springer.com/ B:DE-101 application/pdf https://d-nb.info/1271992809/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034569547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p dnb 20230807 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Reineke, Walter 1948- Schlömann, Michael 1957- Environmental microbiology Mikrobiologie (DE-588)4316357-9 gnd Umweltwissenschaften (DE-588)4137364-9 gnd
subject_GND	(DE-588)4316357-9 (DE-588)4137364-9
title	Environmental microbiology
title_alt	Umweltmikrobiologie
title_auth	Environmental microbiology
title_exact_search	Environmental microbiology
title_exact_search_txtP	Environmental microbiology
title_full	Environmental microbiology Walter Reineke, Michael Schlömann
title_fullStr	Environmental microbiology Walter Reineke, Michael Schlömann
title_full_unstemmed	Environmental microbiology Walter Reineke, Michael Schlömann
title_short	Environmental microbiology
title_sort	environmental microbiology
topic	Mikrobiologie (DE-588)4316357-9 gnd Umweltwissenschaften (DE-588)4137364-9 gnd
topic_facet	Mikrobiologie Umweltwissenschaften
url	http://deposit.dnb.de/cgi-bin/dokserv?id=8b3e4e8df9cb4785bd9b3a814d42c54d&prov=M&dok_var=1&dok_ext=htm http://www.springer.com/ https://d-nb.info/1271992809/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034569547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT reinekewalter umweltmikrobiologie AT schlomannmichael umweltmikrobiologie AT springerverlaggmbh umweltmikrobiologie AT reinekewalter environmentalmicrobiology AT schlomannmichael environmentalmicrobiology AT springerverlaggmbh environmentalmicrobiology

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