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200 10$aBiological Control $eGlobal Impacts, Challenges and Future Directions of Pest Management
210  1$aCollingwood :$cCSIRO Publishing,$d2021.
210  4$dİ2021.
215   $a1 online resource (645 pages)
327   $aCover -- Half Title -- Dedication -- Title Page -- Copyright -- Contents -- Acknowledgements -- List of contributors -- Introduction -- HISTORY OF BIOLOGICAL CONTROL -- 1 The diversity of biological control agents -- 2 Conservation biological control -- 3 Importation biological control -- 4 Augmentative biological control -- 5 Unintentional biological control -- BIOLOGICAL CONTROL IN THE 21ST CENTURY -- 6 Benefits and risks of biological control -- 7 Regulatory challenges for biological control -- 8 Access and benefit-sharing and biological control -- 9 Biological control and climate change -- 10 Taxonomy and biological control -- SOCIOECONOMIC IMPACTS OF BIOLOGICAL CONTROL -- 11 Public perceptions of biological control -- 12 Economic impact of biological control -- 13 Uptake of biological control -- BIOLOGICAL CONTROL SUCCESSES AND FAILURES -- 14 Biological control successes and failures: Oceania region -- 15 Biological control successes and failures: African region -- 16 Biological control successes and failures: Eurasian region -- 17 Biological control successes and failures: Indo-Pacific/Oriental region -- 18 Biological control successes and failures: North American region -- Colour plates -- 19 Biological control successes and failures: Latin American region -- FUTURE PROSPECTS FOR BIOLOGICAL CONTROL -- 20 Integrating pest management with biological control -- 21 Biological control as a conservation science -- 22 An evolutionary ecology synthesis for biological control -- Index.
330   $aThe key challenges, successes and failures of global biological control, and future directions.
606   $aPests
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010   $a9786611758660
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200 00$aChemometric methods in molecular design /$fedited by Han van de Waterbeemd
210   $aWeinheim, Ger. ;$aNew York $cVCH$dc1995
215   $a1 online resource (380 p.)
225 1 $aMethods and principles in medicinal chemistry ;$vv. 2
300   $aDescription based upon print version of record.
311 08$a9783527300440 
311 08$a3527300449 
320   $aIncludes bibliographical references and index.
327   $aChernornetric Methods in Molecular Design; Preface; A Personal Foreword; Contents; 1 Introduction; 1.1 Quantitative Molecular Design; 1.2 Chemometrics; 1.3 The Hansch Approach; 1.4 Modern Chemometric Approaches in Molecular Design; 1.5 Software; 1.5.1 General Statistical Packages; 1.5.2 Specialized Software for SPC Studies; References; 2 Molecular Concepts; 2.1 Representations of Molecules; 2.1.1 Introduction; 2.1.2 Substituent Constants; 2.1.2.1 Electronic Substituent Constants; 2.1.2.2 The Hydrophobic Substituent Constant,p; 2.1.2.3 Partition Coefficient -  Log P
327   $a2.1.2.4 Steric Substituent Constants2.1.3 Whole Molecule Representations; 2.1.3.1 Topological Descriptions; 2.1.3.2 Electronic Whole Molecule Descriptors; 2.1.3.3 Geometric Descriptors; References; 2.2 Atom-Level Descriptors for QSAR Analyzes; 2.2.1 Introduction; 2.2.2 An Atom-Level Description of Structure; 2.2.2.1 The Field; 2.2.2.2 The Intrinsic State of an Atom; 2.2.2.3 The Field Effect on Each Atom; 2.2.3 Strategies for Use of E-State Indices; 2.2.4 Examples of E-State QSAR; 2.2.4.1 MAO Inhibition with Hydrazides; 2.2.4.2 Adenosine A, Inhibitors
327   $a2.2.4.3 Anesthetic Concentration of Haloalkanes2.2.4.4 Odor Sensitivity of Pyrazines; 2.2.5 Conclusions; References; 3 Experimental Design in Synthesis Planning and Structure-Property Correlations; 3.1 Experimental Design; 3.1.1 The Importance of Experimental Design in Medicinal Chemistry; 3.1.2 Strategy in Experimental Design; 3.1.3 Selected Methods for Experimental Design; 3.1.3.1 Methods for the Direct Optimization of Lead Compounds; 3.1.3.2 Methods for the Systematic Investigation of Parameter Space; 3.1.3.3 Choice of Molecular Descriptors; 3.1.4 Summary and Conclusion; References
327   $a3.2 Applications of Statistical Experimental Design and PLS Modeling in QSAR3.2.1 Introduction; 3.2.2 A Strategy for QSAR Development in Drug Design; 3.2.2.1 Formulation of Classes of Similar Compounds (Step 1); 3.2.2.2 Structural Description and Definition of Design Variables (Step 2); 3.2.2.3 Selection of the Training Set of Compounds (Step 3); 3.2.2.4 Biological Testing (Step 4); 3.2.2.5 QSAR Development (Step 5; 3.2.2.6 Validation and Predictions for Non-Tested Compounds (Step; 3.2.3 Examples of Design and PLS Modeling; 3.2.3.1 Bradykinin Potentiating Pentapeptides
327   $a3.2.3.2 Dipeptides (Inhibiting the Angiotensin Converting Enzyme)3.2.3.3 Dipeptides (Bitter Tasting); 3.2.3.4 Mimetics; 3.2.3.5 Haloalkanes; 3.2.3.6 Dibenzofurans; 3.2.3.7 Monosubstituted Benzenes; 3.2.3.8 Corrosive Carboxylic Acids; 3.2.4 Discussion and Conclusions; Software Used; Acknowledgements; References; 3.3 Total Response Surface Optimization; 3.3.1 Background; 3.3.2 Representation of a Response Surface; 3.3.3 Structure Descriptors from Chemical Graph Theory; 3.3.4 Examples; 3.3.4.1 Neurotoxicity of Fluorophosphorous Compounds
327   $a3.3.4.2 Bioconcentration of Chlorinated Phenyls and Biphenyls
330   $aThe statistical analysis of experimental and theoretical data lies at the heart of modern drug design. This practice-oriented handbook is a comprehensive account of modern chemometric methods in molecular design. It presents strategies for making more rational choices in the planning of syntheses, and describes techniques for analyzing biological and chemical data. Written by the world's experts, it provides in-depth information on* molecular concepts* experimental design in the planning of syntheses* multivariate analysis of chemical and biological data* statistical validation
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615  0$aDrugs$xDesign.
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