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Modern Crop Protection Compounds (3 Volume set) PDF

1348 Pages·2007·27.85 MB·English
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ModernCropProtection Compounds Editedby WolfgangKra¨merand UlrichSchirmer ModernCropProtectionCompounds. EditedbyW.Kra¨merandU.Schirmer Copyright82007WILEY-VCHVerlagGmbH&Co.KGaA,Weinheim ISBN:978-3-527-31496-6 Modern Crop Protection Compounds Edited by Wolfgang Kra¨mer and Ulrich Schirmer Volumes 1 - 3 TheEditors 9 AllbookspublishedbyWiley-VCHare carefullyproduced.Nevertheless,authors, Dr.WolfgangKra¨mer editors,andpublisherdonotwarrantthe Rosenkranz25 informationcontainedinthesebooks, 51399Burscheid includingthisbook,tobefreeoferrors. Germany Readersareadvisedtokeepinmindthat statements,data,illustrations,procedural Dr.UlrichSchirmer detailsorotheritemsmayinadvertentlybe Berghalde79 inaccurate. 69126Heidelberg Germany LibraryofCongressCardNo.:appliedfor BritishLibraryCataloguing-in-PublicationData Acataloguerecordforthisbookisavailable fromtheBritishLibrary. Bibliographicinformationpublishedby theDeutscheNationalbibliothek TheDeutscheNationalbibliothekliststhis publicationintheDeutscheNational- bibliografie;detailedbibliographicdatais availableintheInternetathhttp://dnb.d-nb.dei. 82007WILEY-VCHVerlagGmbH&Co. KGaA,Weinheim Allrightsreserved(includingthoseof translationintootherlanguages).Nopartof thisbookmaybereproducedinanyform– byphotoprinting,microfilm,oranyother means–nortransmittedortranslatedinto amachinelanguagewithoutwritten permissionfromthepublishers.Registered names,trademarks,etc.usedinthisbook, evenwhennotspecificallymarkedassuch, arenottobeconsideredunprotectedbylaw. PrintedintheFederalRepublicofGermany Printedonacid-freepaper Composition AscoTypesetters,HongKong Printing betz-druckGmbH,Darmstadt Bookbinding Litges&DopfGmbH, Heppenheim CoverDesign AdamDesign,Weinheim WileyBicentennialLogo RichardJ.Pacifico ISBN 978-3-527-31496-6 V Contents Volume1 Preface XIX ListofContributors XXI I Herbicides 1 Overview 3 WolfgangKra¨merandUlrichSchirmer 1 HRACClassificationofHerbicidesandResistanceDevelopment 5 HubertMenneandHelmutKo¨cher 1.1 Introduction 5 1.2 HRACClassificationSystemofHerbicides 5 1.3 HerbicideResistance 9 1.3.1 BiochemistryofHerbicideResistance 13 1.3.1.1 Target-siteResistance 13 1.3.1.2 Nontarget-siteResistancebyEnhancedMetabolicDetoxification 19 1.3.1.3 Nontarget-siteResistancebyAlteredHerbicideDistribution 22 1.3.1.4 MultipleResistance 23 References 24 2 AcetohydroxyacidSynthaseInhibitors(AHAS/ALS) 27 2.1 BiochemistryoftheTargetandResistance 27 MarkE.Thompson 2.1.1 AcetohydroxyacidSynthase(AHAS) 27 2.1.2 HerbicidesthatTargetAHAS 32 2.1.3 BindingSiteforAHAS-inhibitingHerbicides 33 2.1.4 MolecularBasisforResistancetoAHASInhibitors 38 2.1.5 ResistancetoAHAS-inhibitingHerbicidesinWeeds 40 References 42 ModernCropProtectionCompounds. EditedbyW.Kra¨merandU.Schirmer Copyright82007WILEY-VCHVerlagGmbH&Co.KGaA,Weinheim ISBN:978-3-527-31496-6 VI Contents 2.2 NewerSulfonylureas 45 OswaldOrt 2.2.1 Introduction 45 2.2.1.1 HistoryandDevelopment 48 2.2.1.2 Synthesis 51 2.2.2 AgriculturalUtility 52 2.2.2.1 Cereals 52 2.2.2.2 Rice 63 2.2.2.3 Maize 70 2.2.2.4 OtherCrops 73 2.2.3 MetabolicFateandBehaviorintheSoil 76 2.2.4 ConcludingRemarks 77 References 78 2.3 ImidazolinoneHerbicides 82 DaleL.Shaner,MarkStidham,andBijaySingh 2.3.1 Overview 82 2.3.2 HistoryofDiscovery 83 2.3.3 PhysicalChemicalProperties 84 2.3.4 StructuralFeaturesofHerbicidalImidazolinones 85 2.3.5 ModeofActionofImidazolinones 86 2.3.6 Imidazolinone-tolerantCrops 87 2.3.7 CommercialUsesoftheImidazolinoneHerbicides 88 2.3.8 MechanismsofSelectivity 89 2.3.9 Conclusion 91 References 91 2.4 Triazolopyrimidines 93 TimothyC.Johnson,RichardK.Mann,PaulR.Schmitzer,RogerE.Gast, andGerritJ.deBoer 2.4.1 Introduction 93 2.4.2 N-Triazolo[1,5-c]pyrimidineSulfonanilides 93 2.4.2.1 Synthesis 93 2.4.2.2 Biology 95 2.4.2.3 MechanismofCropSelectivity 96 2.4.2.4 EnvironmentalDegradation,EcotoxandTox 98 2.4.3 N-Triazolo[1,5-c]pyrimidineSulfonamides 99 2.4.3.1 Synthesis 99 2.4.3.2 Biology 100 2.4.3.3 PenoxsulamCropUtility 102 2.4.3.4 PenoxsulamMechanismofCropSelectivity 103 2.4.3.5 PenoxsulamEnvironmentalDegradation,EcotoxandTox 103 Contents VII 2.4.4 N-Triazolo[1,5-a]pyrimidineSulfonamides 104 2.4.4.1 Synthesis 104 2.4.4.2 Biology 104 2.4.4.3 DE-742CropUtility 105 2.4.4.4 DE-742MechanismofCropSelectivity 106 2.4.4.5 DE-742EnvironmentalDegradation,EcotoxandTox 107 2.4.5 OtherSystems 108 2.4.5.1 Synthesis 108 2.4.5.2 Biology 109 2.4.6 Conclusion 112 References 112 2.5 Pyrimidinylcarboxylates 114 FumitakaYoshida,YukioNezu,RyoHanai,andTsutomuShimizu 2.5.1 Introduction 114 2.5.2 DiscoveryofthePyrimidinylcarboxylates 114 2.5.3 Structure–ActivityRelationships 117 2.5.3.1 EffectsofBenzeneRingSubstituentsintheO-Pyrimidinylsalicylic Acids 117 2.5.3.2 EffectofaBridgeAtominthePyrimidinylsalicylates 118 2.5.3.3 Pyrimidinylglycolates 118 2.5.3.4 CommercializedPCHerbicides 121 2.5.4 ‘‘Pyrithiobac-sodium’’–CottonHerbicide 122 2.5.4.1 Discovery 122 2.5.4.2 Synthesis 123 2.5.4.3 Biology 123 2.5.5 ‘‘Bispyribac-sodium’’–HerbicideinDirect-seededRice 123 2.5.5.1 Discovery 123 2.5.5.2 Synthesis 125 2.5.5.3 Biology 125 2.5.6 ‘‘Pyriminobac-methyl’’–RiceHerbicide 126 2.5.6.1 Discovery 126 2.5.6.2 Synthesis 129 2.5.6.3 Biology 129 2.5.7 ‘‘PyribenzoximandPyriftalid’’–RiceHerbicides 130 2.5.8 ModeofActionofthePCHerbicides 131 2.5.9 ModeofSelectivityofthePCHerbicidesinCrops 132 2.5.10 PC-resistantPlantsandtheirMutatedALSGenes 132 2.5.11 UseoftheMutatedALSGenesforGeneticTransformation ofPlants 134 2.5.12 UseoftheMutatedALSGenesforResistanceManagement ofALS-inhibitingHerbicides 135 References 136 VIII Contents 2.6 Sulfonylaminocarbonyl-triazolinones 138 Klaus-HelmutMu¨ller 2.6.1 Introduction 138 2.6.2 DiscoveryoftheActiveIngredients 138 2.6.3 OptimizationoftheLeadStructure 140 2.6.4 Synthesis 143 2.6.4.1 SulfonylComponents 144 2.6.4.2 TriazolinoneSynthesis 145 2.6.5 Biology 147 2.6.6 Conclusion 148 References 148 3 Protoporphyrinogen-IX-oxidaseInhibitors 153 GeorgeTheodoridis 3.1 Introduction 153 3.2 HistoricalDevelopment 154 3.2.1 DiphenylEther 154 3.2.2 PhenylRingAttachedtoHeterocycle 157 3.2.3 PhenylTetrahydrophthalimide 159 3.3 Non-classicalProtoxChemistries 162 3.3.1 N-PhenylHeterocycle–NewHeterocyclicSystems 163 3.3.2 PhenoxyphenylandBenzyloxyphenylAttachedtoHeterocycle 166 3.3.3 BenzoheterocyclicAttachedtoHeterocycle 169 3.3.4 BenzylAttachedtoHeterocycle 172 3.3.5 ReplacementofPhenylRingwithPyrazole 173 3.4 RecentDevelopments 174 3.5 Toxicology 181 3.6 Summary 182 References 182 4 HerbicideswithBleachingProperties 187 4.1 PhytoeneDesaturaseInhibitors 187 GerhardHamprechtandMatthiasWitschel 4.1.1 Introduction 187 4.1.2 CarotenoidBiosynthesisandPhytotoxicEffectsofBleaching Herbicides 187 4.1.2.1 TargetsforBleachingHerbicides 187 4.1.2.2 Carotenoids–PropertiesandFunction 188 4.1.2.3 CarotenoidBiosynthesisinHigherPlants 189 4.1.3 PrimaryTargets 191 4.1.3.1 InhibitionofPhytoeneDesaturaseandz-CaroteneDesaturase 191 4.1.3.2 InhibitionofLycopeneCyclase(LCC) 191 Contents IX 4.1.3.3 GeneticEngineeringofHerbicideResistancebyModification oftheCarotenogenicPathway 193 4.1.4 ChemicalStructureandActivitiesofPDSInhibitors 193 4.1.4.1 EnzymeActivity,PhysicalDataandAcuteOralToxicity ofCommercialPDSHerbicides 193 4.1.4.2 Phenoxybenzamides 193 4.1.4.3 Phenoxypyridincarbonamides 193 4.1.4.4 PhenoxypyridineEthers 196 4.1.4.5 Phenylfuranones 196 4.1.4.6 Phenylpyridazinones 196 4.1.4.7 Phenylpyridinones 198 4.1.4.8 Phenylpyrrolidinones 199 4.1.4.9 Phenyltetrahydropyrimidinones 199 4.1.4.10 StructuralOverlayforDiarylHeterocyclePDSInhibitorsand NewerDevelopments 200 4.1.4.11 ModelsoftheActiveSite–StructuralRequirements 201 4.1.5 BiologyandUsePattern 205 4.1.6 MajorSyntheticRoutesforPhytoeneDesaturaseInhibitors 208 References 208 4.2 HydroxyphenylpyruvateDioxygenase(HPPD)–theHerbicideTarget 211 TimothyR.Hawkes References 220 4.3 HydroxyphenylpyruvateDioxygenase(HPPD)Inhibitors:Triketones 221 AndrewJ.F.Edmunds 4.3.1 Introduction 221 4.3.2 Discovery 222 4.3.3 ModeofAction 223 4.3.4 SynthesisofTriketones 224 4.3.5 Structure–ActivityRelationships 225 4.3.6 ReviewofthePatentLiterature 227 4.3.7 CommercializedTriketoneHerbicides 234 4.3.8 Summary 239 References 240 4.4 HydroxyphenylpyruvateDioxygenase(HPPD)Inhibitors: Heterocycles 243 AndreasvanAlmsick 4.4.1 Introduction 243 4.4.2 MarketProducts 245 4.4.2.1 Pyrazolynate(Pyrazolate) 245 4.4.2.2 Pyrazoxyfen 247

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The increase in agricultural productivity has been and continues to be generated by the use of chemicals. This is achieved by assisting growth using artificial fertilizers and plant growth regulators that replace the nutrients in the soil extracted by plants as they grow, as well as by minimizing at
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