Verfügbarkeit: Modern crop protection compounds

Modern crop protection compounds: 1 [Herbicides]

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Bibliographische Detailangaben
Weitere Verfasser:	Kraemer, Wolfgang (HerausgeberIn), Jeschke, Peter 1956- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2012
Ausgabe:	2., rev. and enl. ed.
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXXVII, 534 S. Ill., graph. Darst.
ISBN:	9783527329656

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MARC


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245	1	0	\|a Modern crop protection compounds \|n 1 \|p [Herbicides] \|c edited by Wolfgang Krämer [und weiteren]
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700	1		\|a Kraemer, Wolfgang \|4 edt
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Datensatz im Suchindex

_version_	1812898699845566464
adam_text	IMAGE 1 CONTENTS VOLUME 1 PREFACE XXIII LIST OF CONTRIBUTORS XXV I HERBICIDES 1 OVERVIEW 3 MATTHIAS WITSCHET 1 HRAC CLASSIFICATION OF HERBICIDES AND RESISTANCE DEVELOPMENT 5 HUBERT MENNE AND HELMUT KOECHER 1.1 INTRODUCTION 5 1.2 HRAC CLASSIFICATION SYSTEM OF HERBICIDES 7 1.3 HERBICIDE RESISTANCE 7 1.3.1 BIOCHEMISTRY OF HERBICIDE RESISTANCE 13 1.3.1.1 TARGET-SITE RESISTANCE 14 1.3.1.2 NON-TARGET-SITE RESISTANCE BY ENHANCED METABOLIC DETOXIFICATION 21 1.3.1.3 NON-TARGET-SITE RESISTANCE BY ALTERED HERBICIDE DISTRIBUTION 24 1.3.1.4 MULTIPLE RESISTANCE 25 REFERENCES 26 2 ACETOHYDROXYACID SYNTHASE INHIBITORS (AHAS/ALS) 29 2.1 BIOCHEMISTRY OF THE TARGET AND RESISTANCE 29 STEVEN GUTTERIDGE AND MARK E. THOMPSON 2.1.1 ACETOHYDROXYACID SYNTHASE (AHAS) 29 2.1.2 HIGHER-ORDER SUBUNIT STRUCTURE 33 2.1.3 HERBICIDES THAT TARGET AHAS 35 2.1.4 BINDING SITE FOR AHAS-INHIBITING HERBICIDES 36 2.1.5 MOLECULAR BASIS FOR RESISTANCE TO AHAS INHIBITORS 41 2.1.6 RESISTANCE TO AHAS-INHIBITING HERBICIDES IN WEEDS 43 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1011200562 DIGITALISIERT DURCH IMAGE 2 VI CONTENTS 2.1.7 ENGINEERED RESISTANCE TO AHAS-INHIBITING HERBICIDES IN CROPS 46 ACKNOWLEDGMENTS 46 REFERENCES 47 2.2 NEWER SULFONYLUREAS 50 OSWALD ORT 2.2.1 INTRODUCTION 50 2.2.1.1 HISTORY AND DEVELOPMENT 52 2.2.1.2 SYNTHESIS 56 2.2.2 AGRICULTURAL UTILITY 56 2.2.2.1 CEREALS 57 2.2.2.2 RICE 67 2.2.2.3 MAIZE 75 2.2.2.4 OTHER CROPS 78 2.2.3 SULFONYLUREA HERBICIDES: METABOLIC FATE AND BEHAVIOR IN THE SOIL 81 2.2.4 CONCLUDING REMARKS 83 ACKNOWLEDGMENTS 83 REFERENCES 83 2.3 IMIDAZOLINONE HERBICIDES 88 DALE L. SHANER, MARK STIDHAM, BIJAY SINGH, AND SIYUAN TAN 2.3.1 OVERVIEW 88 2.3.2 HISTORY OF DISCOVERY 90 2.3.3 PHYSICO-CHEMICAL PROPERTIES 91 2.3 A STRUCTURAL FEATURES OF HERBICIDAL IMIDAZOLINONES 92 2.3.5 IMIDAZOLINONES: THE MODE OF ACTION 93 2.3.6 IMIDAZOLINONE-TOLERANT CROPS 94 2.3.7 IMIDAZOLINONES: MECHANISMS OF SELECTIVITY 95 2.3.8 COMMERCIAL USES OF THE IMIDAZOLINONE HERBICIDES 96 2.3.9 CONCLUSION 98 REFERENCES 98 2.4 TRIAZOLOPYRIMIDINES 99 TIMOTHY C. JOHNSON, RICHARD K. MANN, PAUL R. SCHMITZER, ROGER E. GAST, AND GERRIT J. DEBOER 2.4.1 INTRODUCTION 99 2.4.2 N-TRIAZOLO[L,5-C]PYRIMIDINE SULFONANILIDE 100 2.4.2.1 SYNTHESIS 200 2.4.2.2 BIOLOGY 100 2.4.2.3 CLORANSULAM-METHYL AND DICLOSULAM CROP UTILITY 202 2.4.2.4 MECHANISM OF CROP SELECTIVITY 203 2.4.2.5 ENVIRONMENTAL DEGRADATION, ECOTOXICOLOGY, AND TOXICOLOGY 204 2.4.3 N-TRIAZOLO[L,5-C]PYRIMIDINE SULFONAMIDES 205 IMAGE 3 CONTENTS VII 2.4.3.1 SYNTHESIS 206 2.4.3.2 BIOLOGY 207 2.4.3.3 PENOXSULAM CROP UTILITY 209 2.4.3.4 PENOXSULAM: MECHANISM OF CROP SELECTIVITY 209 2.4.3.5 PENOXSULAM: ENVIRONMENTAL DEGRADATION, ECOTOXICOLOGY, AND TOXICOLOGY 220 2.4.4 N-TRIAZOLO[L,5-A]PYRIMIDINE SULFONAMIDES 222 2.4.4.1 SYNTHESIS 222 2.4.4.2 BIOLOGY 222 2.4.4.3 PYROXSULAM: CROP UTILITY 222 2.4.4.4 PYROXSULAM: MECHANISM OF CROP SELECTIVITY 222 2.4.4.5 PYROXSULAM: ENVIRONMENTAL DEGRADATION, ECOTOXICOLOGY, AND TOXICOLOGY 223 2.4.5 AHAS INHIBITION 2 14 2.4.6 CONCLUSIONS 225 REFERENCES 225 2.5 PYRIMIDINYLCARBOXYLATES AND SULFONANILIDES 227 TAKUMI YOSHIMURA, RYO HANAI, AND TSUTOMU SHIMIZU 2.5.1 INTRODUCTION 227 2.5.2 DISCOVERY OF THE PCS HERBICIDES 228 2.5.3 STRUCTURE-ACTIVITY RELATIONSHIPS OF PCS HERBICIDES 220 2.5.3.1 EFFECTS OF BENZENE RING SUBSTITUENTS IN THE O-PYRIMIDINYLSALICYLIC ACIDS 222 2.5.3.2 EFFECT OF A BRIDGE ATOM IN THE PYRIMIDINYLSALICYLATES 223 2.5.3.3 PYRIMIDINYLGLYCOLATES 223 2.5.4 "PYRITHIOBAC-SODIUM": COTTON HERBICIDE 225 2.5.4.1 DISCOVERY 225 2.5.4.2 BIOLOGY 226 2.5.5 "BISPYRIBAC-SODIUM": HERBICIDE IN DIRECT-SEEDED RICE 228 2.5.5.1 DISCOVERY 228 2.5.5.2 BIOLOGY 228 2.5.6 "PYRIMINOBAC-METHYL": RICE HERBICIDE 229 2.5.6.1 DISCOVERY 229 2.5.6.2 BIOLOGY 232 2.5.7 MODE OF ACTION OF THE PCS HERBICIDES 232 2.5.8 MODE OF SELECTIVITY OF THE PCS HERBICIDES IN CROPS 233 2.5.9 DISCOVERY OF THE SULFONANILIDES 234 2.5.10 STRUCTURE-ACTIVITY RELATIONSHIPS 235 2.5.10.1 EFFECT OF THE SULFONAMIDE MOIETY IN THE SULFONANILIDES I36 2.5.10.2 EFFECTS OF THE BRIDGE MOIETY IN THE SULFONANILIDES 236 2.5.10.3 EFFECTS OF BENZENE RING SUBSTITUTION IN THE SULFONANILIDES 237 2.5.11 "PYRIMISULFAN": RICE HERBICIDE 239 IMAGE 4 VIII CONTENTS 2.5.11.1 BIOLOGY 239 ABBREVIATIONS 240 REFERENCES 140 2.6 SULFONYLAMINOCARBONYL-TRIAZOLINONES 242 KLAUS-HELMUT MUELLER, ERNST-RUDOLF F. GESING, AND HANS-JOACHIM SANTA 2.6.1 INTRODUCTION 242 2.6.2 DISCOVERY OF THE LEAD STRUCTURE 243 2.6.3 OPTIMIZATION OF THE LEAD STRUCTURE 243 2.6.4 DISCOVERY OF THIENCARBAZONE-METHYL (TCM) 246 2.6.5 SYNTHESIS 248 2.6.5.1 SULFONYL COMPONENTS 249 2.6.5.2 TRIAZOLINONE SYNTHESIS 250 2.6.6 BIOLOGY 252 2.6.7 CONCLUSIONS 258 REFERENCES 258 3 PROTOPORPHYRINOGEN IX OXIDASE INHIBITORS 163 GEORGE THEODORIDIS, REX LIEBL, AND CYRILL ZAGAR 3.1 INTRODUCTION 263 3.2 HISTORICAL DEVELOPMENT 265 3.2.1 DIPHENYL ETHER 265 3.2.2 PHENYL RING ATTACHED TO HETEROCYCLE 266 3.2.3 PHENYL TETRAHYDROPHTHALIMIDE 268 3.3 NON-CLASSICAL PROTOX CHEMISTRIES 172 3.3.1 N-PHENYL HETEROCYDES: NEW HETEROCYCLIC SYSTEMS 272 3.3.2 PHENOXYPHENYL AND BENZYLOXYPHENYL ATTACHED TO HETEROCYCLE 276 3.3.3 BENZOHETEROCYCLIC ATTACHED TO HETEROCYCLE 278 3.3.4 BENZYL ATTACHED TO HETEROCYCLE 282 3.3.5 REPLACEMENT OF PHENYL RING WITH PYRAZOLE 282 3.4 RECENT DEVELOPMENTS 282 3.5 TOXICOLOGY 290 3.6 SUMMARY 290 REFERENCES 292 4 HERBICIDES WITH BLEACHING PROPERTIES 297 4.1 PHYTOENE DESATURASE INHIBITORS 297 GERHARD HAMPRECHT AND MATTHIAS WITSCHET 4.1.1 INTRODUCTION 297 4.1.2 CAROTENOID BIOSYNTHESIS AND PHYTOTOXIC EFFECTS OF BLEACHING HERBICIDES 297 4.1.2.1 TARGETS FOR BLEACHING HERBICIDES 297 IMAGE 5 CONTENTS IX 4.1.2.2 CAROTENOIDS: PROPERTIES AND FUNCTIONS 198 4.1.2.3 CAROTENOID BIOSYNTHESIS IN HIGHER PLANTS 299 4.1.3 PRIMARY TARGETS 202 4.1.3.1 INHIBITION OF PDS AND C -CAROTENE DESATURASE 202 4.1.3.2 INHIBITION OF LYCOPENE CYCLASE (LCC) 202 4.1.3.3 GENETIC ENGINEERING OF HERBICIDE RESISTANCE BY MODIFICATION OF THE CAROTENOGENIC PATHWAY 203 4.1.4 CHEMICAL STRUCTURE AND ACTIVITIES OF PDS INHIBITORS 203 4.1.4.1 ENZYME ACTIVITY, PHYSICAL DATA, AND ACUTE ORAL TOXICITY OF COMMERCIAL PDS HERBICIDES 203 4.1.4.2 PHENOXYBENZAMIDES 203 4.1.4.3 PHENOXYPYRIDINECARBONAMIDES 206 4.1.4.4 PHENOXYPYRIDINE ETHERS 207 4.1.4.5 PHENYLFURANONES 207 4.1.4.6 PHENYLPYRIDAZINONES 209 4.1.4.7 PHENYLPYRIDINONES 220 4.1.4.8 PHENYLPYRROLIDINONES 220 4.1.4.9 PHENYLTETRAHYDROPYRIMIDINONES 222 4.1.4.10 STRUCTURAL OVERLAY FOR DIARYL HETEROCYCLE PDS INHIBITORS, AND NEWER DEVELOPMENTS 222 4.1.4.11 MODELS OF THE ACTIVE SITE: STRUCTURAL REQUIREMENTS 212 4.1.5 BIOLOGY AND USE PATTERN 217 4.1.6 MAJOR SYNTHETIC ROUTES FOR PSD INHIBITORS 228 REFERENCES 222 4.2 HYDROXYPHENYLPYRUVATE DIOXYGENASE (HPPD): THE HERBICIDE TARGET 225 TIMOTHY R. HAWKES 4.2.1 HERBICIDAL MODE OF ACTION 225 4.2.2 SELECTIVITY 228 4.2.3 STRUCTURE AND MECHANISM 229 4.2.4 INHIBITION 232 REFERENCES 234 4.3 TRIKETONES 235 ANDREW J.F. EDMUNDS AND JAMES A. MORRIS 4.3.1 INTRODUCTION 235 4.3.2 DISCOVERY 236 4.3.3 MODE OF ACTION 237 4.3.4 SYNTHESIS OF TRIKETONES 237 4.3.5 STRUCTURE-ACTIVITY RELATIONSHIPS (SARS) 239 4.3.6 REVIEW OF THE PATENT LITERATURE 241 4.3.7 COMMERCIALIZED TRIKETONE HERBICIDES 249 IMAGE 6 X CONTENTS 4.3.7.1 SULCOTRIONE 249 4.3.7.2 MESOTRIONE 250 4.3.7.3 TEMBOTRIONE AND TEFURYLTRIONE 254 4.3.7.4 BENZOBICYCLON 256 4.3.8 SUMMARY 258 REFERENCES 258 4.4 HYDROXYPHENYLPYRUVATE DIOXYGENASE (HPPD) INHIBITORS: HETEROCYCLES 262 ANDREAS VAN ALMSICK 4.4.1 INTRODUCTION 262 4.4.2 MARKET PRODUCTS 263 4.4.2.1 PYRAZOLYNATE (PYRAZOLATE) 263 4.4.2.2 PYRAZOXYFEN 266 4.4.2.3 BENZOFENAP 267 4.4.2.4 ISOXAFLUTOLE 269 4.4.2.5 TOPRAMEZONE 271 4.4.2.6 PYRASULFOTOLE 272 4.4.3 CONCLUSIONS 274 REFERENCES 275 5 NEW AUXIN MIMICS AND HERBICIDES 277 5.1 THE MOLECULAR MODE OF ACTION OF AUXIN HERBICIDES 277 TERENCE. A. WALSH AND PAUL R. SCHMITZER 5.1.1 INTRODUCTION 277 5.1.2 TIR1/AFB PROTEINS AS AUXIN HERBICIDE RECEPTORS 277 5.1.3 THE AFB5 CLASS OF PICOLINATE AUXIN HERBICIDE RECEPTORS 282 5.1.4 TIR1/AFB AUXIN RECEPTORS IN OTHER PLANTS 282 5.1.5 ARE THERE OTHER AUXIN HERBICIDE RECEPTORS? 282 5.1.6 DOWNSTREAM EFFECTS OF AUXIN HERBICIDES 283 5.1.7 WEED SELECTIVITIES AT THE SITE OF AUXIN ACTION 283 5.1.8 FIELD RESISTANCE TO AUXIN HERBICIDES 285 5.1.9 CONCLUSIONS 285 REFERENCES 286 5.2 AMINOPYRALID 287 ROBERT A. MASTERS, WILLIAM C. LO, AND ROGER E. GAST 5.2.1 INTRODUCTION 287 5.2.2 AMINOPYRALID SYNTHESIS 288 5.2.3 BIOLOGY 288 5.2.4 AMINOPYRALID UTILITY 290 5.2.5 AMINOPYRALID MECHANISM OF CROP SELECTIVITY 292 5.2.6 AMINOPYRALID ENVIRONMENTAL DEGRADATION 292 IMAGE 7 CONTENTS XI 5.2.6.1 ANIMAL TOXICITY 293 5.2.6.2 CARCINOGENICITY/TERATOGENICITY 294 5.2.7 CONCLUSIONS 294 REFERENCES 294 5.3 PYRIMIDINE CARBOXYLIC ACIDS, AMINOCYCLOPYRACHLOR 295 JON S. CLAUS AND BRUCE L. FINKELSTEIN 5.3.1 INTRODUCTION 295 5.3.2 DISCOVERY OF AMINOCYCLOPYRACHLOR 295 5.3.3 HERBICIDAL ACTIVITY AND THE PROPERTIES OF AMINOCYCLOPYRACHLOR 300 5.3.4 MODE OF ACTION AND SITE OF ACTION 302 5.3.5 RESISTANCE MANAGEMENT 303 5.3.6 CONCLUSIONS 303 REFERENCES 304 6 HERBICIDES DISTURBING THE SYNTHESIS OF VERY LONG-CHAIN FATTY ACIDS 305 6.1 INHIBITORS OF THE SYNTHESIS OF VERY LONG-CHAIN FATTY ACIDS (VLCFAS) 305 PETER BABCZINSKI 6.1.1 BIOCHEMISTRY 305 6.1.1.1 INTRODUCTION 305 6.1.1.2 HRAC CLASSIFICATION 305 6.1.1.3 BIOSYNTHESIS OF VLCFAS 306 REFERENCES 324 6.2 CHEMISTRY AND BIOLOGY OF OXYACETAMIDES, TETRAZOLINONES, AND TRIAZOLINONES 326 YUKIYOSHI WATANABE 6.2.1 INTRODUCTION 326 6.2.2 MEFENACET AND FLUFENACET (OXYACETAMIDES) 316 6.2.3 FENTRAZAMIDE (TETRAZOLINONE) 328 6.2.4 IPFENCARBAZON (TRIAZOLINONE) 322 6.2.5 CONCLUSIONS 324 ACKNOWLEDGMENTS 324 REFERENCES 325 6.3 ISOXAZOLINES 326 MASAO NAKATANI, TAKUMI YOSHIMURA, RYO HANAI, YOSHITAKA TANETANI, AND TSUTOMU SHIMIZU 6.3.1 INTRODUCTION 326 6.3.2 CHEMISTRY OF PYROXASULFONE 326 IMAGE 8 XII I CONTENTS 6.3.3 BIOLOGICAL ACTIVITIES OF PYROXASULFONE 328 6.3.4 BIOLOGICAL ACTIVITIES OF FENOXASULFONE 330 6.3.5 MODE OF ACTION OF PYROXASULFONE 330 6.3.6 MODE OF ACTION OF FENOXASULFONE 334 ABBREVIATIONS 335 REFERENCES 335 7 INHIBITORS OF CELLULOSE BIOSYNTHESIS 339 HANSJOERG DIETRICH AND BERND LABER 7.1 7.1.1 7.2 7.2.1 7.2.1.1 7.2.1.2 7.2.2 7.2.2.1 7.2.2.2 7.2.3 7.2.3.1 7.2.3.2 7.2.4 7.2.4.1 7.2.4.2 7.2.5 7.2.5.1 7.2.5.2 7.2.6 7.2.6.1 7.2.6.2 7.2.7 7.2.8 7.3 7.3.1 7.3.2 7.3.3 INTRODUCTION 339 CELLULOSE BIOSYNTHESIS 339 CELLULOSE BIOSYNTHESIS INHIBITORS FROM DIFFERENT CHEMICAL SUBSTANCE CLASSES 344 NITRILES 345 CHEMISTRY OF BENZONITRILES 345 BIOLOGICAL ACTIVITY OF BENZONITRILES 346 BENZAMIDES 348 CHEMISTRY OF BENZAMIDES 348 BIOLOGY OF ISOXABEN 349 TRIAZOLOCARBOXAMIDES 352 CHEMISTRY OF TRIAZOLOCARBOXAMIDES 352 BIOLOGY OF TRIAZOLOCARBOXAMIDES: FLUPOXAM 352 ALKYLAZINES 353 CHEMISTRY OF ALKYLAZINES 353 BIOLOGY OF ALKYLAZINES 354 THIARRIAZINES 356 CHEMISTRY OF THIATRIAZINES 356 BIOLOGY OF CGA 325615 357 JV-ARYL LACTAMS 359 CHEMISTRY OF N-ARYL LACTAMS 359 BIOLOGY OF N-ARYL LACTAMS 359 COUMARINS 360 PROPERTIES OF COMMERCIALIZED INHIBITORS OF CELLULOSE BIOSYNTHESIS 362 CELLULOSE BIOSYNTHESIS INHIBITORS FROM NATURAL SOURCES 362 THAXTOMINS 362 INTHOMYCINS 364 EPOPROMYCINS 365 REFERENCES 365 8 SAFENERS FOR HERBICIDES 372 CHRIS ROSINGER, KLAUS BARTSCH, AND WOLFGANG SCHULTE 8.1 INTRODUCTION 372 8.2 OVERVIEW OF SELECTED SAFENERS 372 IMAGE 9 CONTENTS XIII 8.2.1 DICHLOROACETAMIDE SAFENERS 372 8.2.1.1 BENOXACOR 375 8.2.1.2 DICHLORMID 377 8.2.1.3 FURILAZOLE 378 8.2.2 OXIME ETHERS 379 8.2.3 CLOQUINTOCET-MEXYL 379 8.2.4 MEFENYPR-DIETHYL 380 8.2.5 ISOXADIFEN-ETHYL 382 8.2.6 CYPROSULFAMIDE 383 8.3 MECHANISMS OF HERBICIDE SAFENER ACTION 385 8.3.1 EFFECTS OF SAFENERS ON HERBICIDE METABOLISM 385 8.3.2 GENE INDUCTION AND SIGNALING PATHWAYS 387 8.3.3 INFLUENCE ON HERBICIDE UPTAKE 388 8.3.4 INFLUENCE ON HERBICIDE TRANSLOCATION 388 8.4 MODE OF ACTION OF SAFENERS IN AGRICULTURAL PRACTICE 389 8.4.1 1,8-NAPHTHALIC ANHYDRIDE (NA), FLURAZOLE, AND FLUXOFENIM 389 8.4.2 DICHLOROACETAMIDES 390 8.4.3 FENCLORIM 392 8.4.4 FENCHLORAZOLE-ETHYL, CLOQUINTOCET-MEXYL 392 8.4.5 MEFENPYR-DIETHYL 392 8.4.6 ISOXADIFEN-ETHYL 393 8.4.7 CYPROSULFAMIDE 394 8.5 CONCLUDING REMARKS 394 REFERENCES 395 9 GENETICALLY MODIFIED HERBICIDE-RESISTANT CROPS 399 9.1 OVERVIEW 399 SUSAN J. MARTINO-CATL, PAUL C.C. FENG, AND STEPHEN R. PADGETTE 9.1.1 INTRODUCTION 399 9.1.2 MECHANISMS FOR ENGINEERING HERBICIDE RESISTANCE 400 9.1.2.1 DETOXIFICATION OF HERBICIDES 400 9.1.2.2 EXPRESSION OF AN INSENSITIVE HERBICIDE TARGET 401 9.1.3 COMMERCIALIZED HERBICIDE-RESISTANT CROPS 402 9.1.3.1 HERBICIDE-RESISTANT SOYBEANS 401 9.1.3.2 HERBICIDE-RESISTANT COTTON 402 9.1.3.3 HERBICIDE-RESISTANT CORN 403 9.1.3.4 HERBICIDE-RESISTANT CANOLA 404 REFERENCES 406 IMAGE 10 XIV CONTENTS 9.2 INHIBITORS OF 5-ENOLPYRUVYL SHIKIMATE 3-PHOSPHATE SYNTHASE (EPSPS) 406 PAUL C.C. FENG, SUSAN MARTINO-CATT, AND STEPHEN R. PADGEIIE 9.2.1 INTRODUCTION 406 9.2.2 FACTORS THAT IMPACT GLYPHOSATE EFFICACY 407 9.2.2.1 FOLIAR ABSORPTION 407 9.2.2.2 SYSTEMIC TRANSLOCATION 409 9.2.3 DEVELOPMENT OF GLYPHOSATE-RESISTANT CROPS 422 9.2.3.1 ALTERNATIVE MECHANISMS FOR ENGINEERING GLYPHOSATE RESISTANCE 412 9.2.3.2 DISEASE CONTROL BENEFITS OF GLYPHOSATE-RESISTANT CROPS 412 9.2.4 EFFECTS OF CP4 EXPRESSION ON PLANT RESISTANCE 424 9.2.4.1 ROUNDUP READY COTTON 425 9.2.4.2 ROUNDUP READY CORN 426 9.2.4.3 ROUNDUP READY SOYBEAN 426 9.2.5 STACKING TRAITS IN ROUNDUP READY CROPS 426 9.2.5.1 ENGINEERING CROP RESISTANCE TO DICAMBA 427 9.2.5.2 ENGINEERING CROP RESISTANCE TO GLUFOSINATE 428 REFERENCES 420 9.3 CLUTAMINE SYNTHETASE INHIBITORS 423 GUENTER DONN 9.3.1 INTRODUCTION 423 9.3.2 ROLE OF GLUTAMINE SYNTHETASE IN PLANT NITROGEN METABOLISM 424 9.3.3 PHOSPHINOTHRICIN, A POTENT GS INHIBITOR 426 9.3.4 DISCOVERY OF THE HERBICIDAL ACTIVITY OF PHOSPHINOTHRICIN 427 9.3.5 MODE OF GLUTAMINE SYNTHETASE INHIBITION 428 9.3.6 PHYSIOLOGY OF THE HERBICIDAL ACTIVITY OF PHOSPHINOTHRICIN 429 9.3.6.1 HERBICIDAL SYMPTOMS OF PHOSPHINOTHRICIN 429 9.3.6.2 PHYSIOLOGICAL EFFECTS OF GS INHIBITION IN PLANTS 429 9.3.6.3 MODULATION OF HERBICIDAL ACTIVITY OF GLUFOSINATE BY ENVIRONMENTAL CONDITIONS 430 9.3.6.4 UPTAKE AND TRANSLOCATION OF GLUFOSINATE-AMMONIUM 430 9.3.7 USE OF PHOSPHINOTHRICIN-CONTAINING HERBICIDES IN AGRICULTURE AND HORTICULTURE 431 9.3.8 ATTEMPTS TO GENERATE CROP SELECTIVITY FOR GLUFOSINATE 432 9.3.8.1 GENETIC APPROACHES TO GENERATE GLUFOSINATE-SELECTIVITY IN CROPS: TARGET-BASED APPROACHES 431 9.3.8.2 CROP SELECTIVITY BY EXPRESSION OF PHOSPHINOTHRICIN ACETYL TRANSFERASE 432 9.3.8.3 BAR AND PAT GENES IN PLANT BREEDING 433 9.3.9 THE USE OF N-ACETYL-PHOSPHINOTHRICIN AS A PROHERBICIDE 434 9.3.10 CONCLUSIONS 435 REFERENCES 435 IMAGE 11 CONTENTS XV 10 MICROTUBULIN ASSEMBLY INHIBITORS (PYRIDINES) 439 DARIN W. LICKFELDT, DENISE P. CUDWORTH, DANIEL D. LOUGHNER, AND LOWELL D. MARKLEY 10.1 INTRODUCTION 439 10.2 BIOLOGY OF THE MICROTUBULIN ASSEMBLY INHIBITORS (PYRIDINES) 439 10.2.1 DITHIOPYR 439 10.2.2 THIAZOPYR 440 10.3 ENVIRONMENTAL FATE OF MICROTUBULIN ASSEMBLY INHIBITORS (PYRIDINES) 442 10.3.1 DITHIOPYR 442 10.3.2 THIAZOPYR 441 10.4 TOXICOLOGY OF MICROTUBULIN ASSEMBLY INHIBITORS (PYRIDINES) 442 10.5 MODE OF ACTION OF MICROTUBULIN ASSEMBLY INHIBITORS (PYRIDINES) 442 10.6 SYNTHESIS OF DITHIOPYR AND THIAZOPYR 443 REFERENCES 445 11 ACETYL-COA CARBOXYLASE INHIBITORS 447 JEAN WENGER, THIERRY NIDERMAN, AND CHRIS MATHEWS 11.1 INTRODUCTION 447 11.2 BIOCHEMISTRY 447 11.2.1 OVERVIEW 447 11.2.2 MODE OF ACTION OF ACCASE INHIBITORS 450 11.2.3 RESISTANCE 453 11.2.4 DETECTION OF RESISTANCE 454 11.3 CHEMISTRY OF ACCASE INHIBITORS 455 11.3.1 ARYLOXYPHENOXYPROPIONATES (AOPPS OR FOPS) 455 11.3.2 CYCLOHEXANEDIONES (CHDS OR DIMS) 455 11.3.3 ARYL-L,3-DIONES(DENS) 460 11.3.3.1 DISCOVERY OF 2-ARYL-L,3-DIONES 460 11.3.3.2 SYNTHESES 461 11.4 STRUCTURE-ACTIVITY RELATIONSHIPS 465 11.4.1 PROCIDE STRUCTURE-ACTIVITY RELATIONSHIPS 466 11.4.2 DIONE STRUCTURE-ACTIVITY RELATIONSHIPS 466 11.4.3 PHENYL STRUCTURE-ACTIVITY RELATIONSHIPS 467 11.4.3.1 2,4,6-TRISUBSTITUTED PHENYL STRUCTURE-ACTIVITY RELATIONSHIPS 467 11.4.3.2 2,5-DISUBSTITUTED PHENYL STRUCTURE-ACTIVITY RELATIONSHIPS 468 11.5 PINOXADEN 469 11.5.1 CHARACTERISTICS 469 11.5.2 TECHNICAL SYNTHESIS 470 11.5.3 BIOLOGY 470 11.5.4 METABOLISM AND SELECTIVITY 471 11.6 SUMMARY AND OUTLOOK 473 IMAGE 12 XVI CONTENTS ACKNOWLEDGMENTS 474 REFERENCES 474 12 PHOTOSYNTHESIS INHIBITORS: REGULATORY ASPECTS, RE-REGISTRATION IN EUROPE, MARKET TRENDS, AND NEW PRODUCTS 479 MARTYN GRIFFITHS, KARL-WILHELM MUENKS, AND KLAUS-HELMUT MUELLER 12.1 INTRODUCTION 479 12.2 THE RE-REGISTRATION PROCESS IN THE EUROPEAN UNION 482 12.3 MAIN CHANGES IN GUIDELINES REGARDING EU RE-REGISTRATION 488 12.3.1 GOOD LABORATORY PRACTICE 488 12.3.2 PHYSICAL AND CHEMICAL PROPERTIES OF ACTIVE SUBSTANCES 489 12.3.3 STORAGE STABILITY 489 12.3.4 PHYSICAL AND CHEMICAL CHARACTERISTICS OF PREPARATION 489 12.3.5 OPERATOR EXPOSURE DATA REQUIREMENTS 490 12.3.6 RESIDUE DATA REQUIREMENTS 490 12.3.7 ESTIMATION OF DIETARY INTAKES OF PESTICIDES RESIDUES 490 12.3.8 FATE AND BEHAVIOR OF AGRICULTURAL PESTICIDES IN THE ENVIRONMENT 492 12.3.8.1 CONCENTRATION OF CHEMICAL IN THE RELEVANT ENVIRONMENTAL COMPARTMENT 492 12.3.8.2 BIOAVAILABILITY OF THE CHEMICAL 491 12.3.8.3 NATURE OF THE SYSTEM OR ORGANISM 492 12.3.9 SPECIFIC GUIDANCE REGARDING WATER LIMITS ACCORDING TO ANNEXES OF THE AUTHORIZATIONS DIRECTIVE 492 12.3.10 ECOTOXICOLOGY REQUIREMENTS 492 12.3.10.1 EPPO RISK-ASSESSMENT SCHEMES 493 12.3.10.2 BUFFER ZONES AND LERAPS 494 12.3.10.3 HONEYBEE RISK ASSESSMENT 494 12.3.10.4 RISK TO NONTARGET ARTHROPODS 494 12.3.10.5 RISK FOR SOIL NONTARGET MICROORGANISMS 494 12.4 NEW REGULATIONS IN EUROPE 494 12.4.1 MRL REGULATION 494 12.4.2 NEW PPP REGULATION (TO REPLACE DIRECTIVE 91/414) 495 12.4.2.1 DOSSIER 495 12.4.2.2 EFFICACY 495 12.4.2.3 METABOLITES 496 12.4.2.4 COMPOSITION 496 12.4.2.5 METHODS OF ANALYSIS 496 12.4.2.6 IMPACT ON HUMAN HEALTH 496 12.4.2.7 FATE AND BEHAVIOR IN THE ENVIRONMENT 497 12.4.2.8 ECOTOXICOLOGY 497 12.4.2.9 RESIDUE DEFINITION 498 12.4.2.10 FATE AND BEHAVIOR CONCERNING GROUNDWATER 498 12.4.2.11 CANDIDATE FOR SUBSTITUTION 498 12.4.2.12 LOW-RISK ACTIVE SUBSTANCES 498 IMAGE 13 CONTENTS XVII 12.5 SITUATION OF PS II INHIBITORS IN THE EC MARKETS 499 12.6 CURRENT MARKET SHARE OF PS II COMPOUND GROUPS 500 12.7 A NEW HERBICIDE FOR CORN AND SUGARCANE: AMICARBAZONE * BAY MKH 3586 510 12.7.1 INTRODUCTION 510 12.7.2 PHYSICO-CHEMICAL PROPERTIES OF AMICARBAZONE 521 12.7.3 DISCOVERY OF THE ACTIVE INGREDIENT 512 12.7.4 SYNTHESIS 514 12.7.4.1 FINAL PRODUCT 514 12.7.5 BIOLOGICAL BEHAVIOR 515 12.7.6 METABOLITES 516 12.8 CONCLUSIONS 527 REFERENCES 527 13 NEW ASPECTS OF PLANT REGULATORS 523 HANS ULRICH HAAS 13.1 INTRODUCTION 523 13.2 PLANT GROWTH REGULATORS 523 13.3 PGRS IN MODERN AGRICULTURE 526 13.3.1 GROWTH INHIBITION 526 13.3.2 FRUITING AND GROWTH 528 13.3.3 FRUIT STORAGE AND RIPENING 528 13.3.4 SPROUT INHIBITION 529 13.3.5 STRESS DEFENSE 530 13.4 CONCLUSIONS AND DEVELOPMENTS 532 REFERENCES 532
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spelling	Modern crop protection compounds 1 [Herbicides] edited by Wolfgang Krämer [und weiteren] 2., rev. and enl. ed. Weinheim Wiley-VCH 2012 XXXVII, 534 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Kraemer, Wolfgang edt Jeschke, Peter 1956- (DE-588)1181831407 edt (DE-604)BV022395385 1 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024630554&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Modern crop protection compounds
title	Modern crop protection compounds
title_auth	Modern crop protection compounds
title_exact_search	Modern crop protection compounds
title_full	Modern crop protection compounds 1 [Herbicides] edited by Wolfgang Krämer [und weiteren]
title_fullStr	Modern crop protection compounds 1 [Herbicides] edited by Wolfgang Krämer [und weiteren]
title_full_unstemmed	Modern crop protection compounds 1 [Herbicides] edited by Wolfgang Krämer [und weiteren]
title_short	Modern crop protection compounds
title_sort	modern crop protection compounds herbicides
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024630554&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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