FACULTY of AGRICULTURE Course Title InsecticidesDepartment Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 503 I (Fall) M.Sc. optional Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Asist. Prof. Dr. Cafer TURGUT
Instructor Information
Adnan Menderes University, Faculty of Agriculture, Dept of Plant Protection Aydin
Course Objective and brief Description
Insecticides are widely used to kill insects on the crops in agriculture. In this lecture, insecticides will explain very details. Properties and formulations, trade, registration, classification and mode of action and usage of insecticides will be described.
Textbook and Supplementary readings1 Ünal, G., Gürkan O. İnsektisitler. Ankara2 G. Copping., Hewitt, G. (1998): Chemistry and modes of action of crop protection agents. Royal Society of
Chemistry.3 Handa, S. K. (2004): Principles of pesticide chemistry. Agrobios.4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction
2 History of insecticides
3 Residue of insecticides
4 Modes of Action of Insecticides
5 Chlorinated hydrocarbons
6 Organophorous insecticides
7 Carbamate insecticides
8 EXAM
9 Pyrethroids
10 Dinitrophenols
11 Fumigants
12 Inorganic insecticides
13 Botanical insecticides
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title EcotoxicologyDepartment Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 505 I (Fall) M.Sc. optional Turkish 2 2 3 10Course Prerequisites None
Name of Instructors
Asist. Prof. Dr. Cafer TURGUT
Instructor Information
Adnan Menderes University Faculty of Agriculture Dept of Plant Protection 09100 [email protected]
Course Objective and brief Description
Stand and importance of ecotoxicology in modern environmental sciences and use of ecotoxicology in environmental chemistry, toxicology, ecology. The source of environmental pollution with consideration of agricultural pollution and their direct and indirect effect on organisms from individual to ecosystem. The interaction of organisms with their habitus in environment.
Textbook and Supplementary readings1 Satake, M., Mido, Y., Sethi, M. S. Iqbal, S. A. Yasuhisa, H., Taguchi, S. (2006): Environmental Toxicology.
Discovery Publishing. ISBN 81-7141-350-12 Connell, D., Lam, P. (1999): Introduction to Ecotoxicology. Blackwell Science3 Oehlmann, J., Markert, B. (1997): Humantoxikologie. Wissenschaftliche Verlagsgesellchaft.4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction Basic ecotoxicological procedures in lab
2 Interaction of ecotoxicology with environmental chemistr Basic calculation methods in ecotoxicology
3 General principles of ecotoxicology Standard solvent preparation
4 Effect of biological uptake factors to ecotoxicology Dose calculation
5 Fate of environmental chemicals in organisms Dose response curves
6 Ecotoxicological experimental methods and test systems Evaluation of statistical results in lab
7 Bioaccumulation Introduction to microtox system
8 Exam
9 Molecular effect mechanisms and effect on cells Bioassay in microtox with a low toxicity pesticide
10 Effect on individual and population Bioassay in microtox with a middle toxicity pesticide
11 Effect on habitate and ecosystem Bioassay in microtox with a high toxicity pesticide
12 Practical approach of ecotoxicology Evaluation of results
13 Risk assessment EC50 calculations
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Morphology and physiology of insectDepartment Plant protectionDivision in the Dept. Entomology
Code Term Level Type Language Credit hours/weekLecture Lab Credit ECTS Credit
ZBK-507 I Master Opt. Turkish 2 2 3 10Course Prerequisites None
Name of Instructors Prof.Dr. Tülin AKŞİTInstructor Information
University of Adnan Menderes, Faculty of Agriculture Department of Plant Protection, 09100 Aydın, [email protected]
Course Objective and brief Description
Aim of course is to teach the principles of morphology and physiology of insect body (body wall, head, neck, thorax , legs, wings, abdominal segments and the abdominal appendages, the alimentary canal and excretion organs, the alimentary canal and excretion organs, the nervous system and sense organs, the reproduction organs and secretion glands, the development of embryonic and post embryonic in insects).
Textbook and Supplementary readings1 Chapman, R.F.,1972.The Insects Structure and Function.The English Universities Press Ltd., London, 819 pp.2 Gillott, C.1980. Entomology. Plenum Press, Newyork,729 pp.3 Snodgrass, R.E., 1935. Principles of Insect Morphology. Mc Graw-Hill Book Comp.Inc.,Newyork,667 pp.4 Kornoşor, S., 1986. Morphology of Arthropod. Ç.Ü. Faculty Of Agriculture Lecture Note, No:,BK-352,Adana, 254
COURSE CALENDER/SCHEDULE
Week Lecture topics laboratory1 Structure of the body wall, Morphological features of the body wall2 Morphology and structure of insect head and the head appendages Antennae and mouth parts3 Mouth parts of insects Mouth structure types4 Structure of neck, thorax and legs of insects Structure of thorax and legs5 The wings, flight and the wing movements of insects The wings6 General structure of the abdominal segments and the abdominal
appendages of insectsAbdominal segments and the abdominal appendages
7 Quiz8 The alimentary canal and excretion organs in insects Alimentary canal9 The organs of circulation and respiratory system in insects The organs of circulation and
respiratory system10 The nervous system and sense organs of insects The nervous system 11 The reproduction organs and secretion glands of insects The reproduction organs 12 Embryonic development in insects The egg, larva and pupae13 Post embryonic development in insects The egg, larva and pupae14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on the instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE
Course Title Urban EntomologyDepartment Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK511 I(Fall) Master Optional Turkish 2 0 2 8Course Prerequisites None
Name of Instructors
Asist.Prof.Dr. Mehmet KARAGÖZ
Instructor Information
A.D.Ü Ziraat Fakültesi Bitki Koruma Bölümü Güney kampusü [email protected]
Course Objective and brief Description
Home, office, hospital, store etc.
Textbook and Supplementary readings1 Özcel,M.A.,ve N.Daldal,1997.Parazotolojide Artropod Hastalıkları Vektörler.Türkiye Parazotoloji Derneği Yayın
No:13,527s.2 Robinson, W. H., 1996. Urban Entomology. ChapmanHall, London, 430 pp.
Ecevit, O., 1998. İnsan ve Hayvan Zararlısı Arthropod (Arthropoda)’lar. O.M.Ü. Zir. Fak. Ders Kitabı No.28, 296 s.COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1 Introduction 2 Introduction (Human environment and urbanization3 Pests in human environment and economic control4 Flies, vectors and protection (DİPTERA)5 Louse, vectors and protection (ANOPLURA)6 Pireler, vectors and protection (SİPHONAPTERA)7 Mites and tickes in human and animals8 Exam9 Cockroaches (DİCTYOPTERA)10 COLEOPTERA,LEPİDOPTERA;HYMENOPTERA Pests11 Xxxxxxxxxxx (HEMİPTERA,Cimicidae)12 Poisonously arthropods13 Control of arthropods in human and animals14 Control of arthropods in human and animals
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Laboratory Techniques of Plant Pathogenic FungiDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 513 I Fall Master Optional Turkish 2 2 3 10Course Prerequisites None
Name of Instructors Prof. Dr. M. Timur DökenInstructor Information
Address: Adnan Menderes Üniversitesi, Ziraat Fakültesi, Bitki Koruma Bölümü, Güney Kampüsü 09100 AYDIN - TÜRKİYETel: 0 256 772 70 22-23-24 / 1201 e-mail: [email protected] - [email protected]
Course Objective and brief Description
The course covers the fundamental techniques and methods used in the studies of plant pathogenic fungi. These include sampling, isolation, identification, cultivation, inoculation and assesment . The aim is to equip the students with basic knowledge and practice which sufficient to begin studies on plant pathogenic fungi.
Textbook and Supplementary readings1 Kelman, A., C. W. Boothroyd, H. D. Benjamin, I. W. Deep, S. Diachun, J. P. Fulton, J. W. Hendrix, J. E. Mıtchell,
J. H. Owen, W. H. Sill Jr. R. B. Stevens and R. Zabel, 1967. Sourcebook of Laboratory Exercises in Plant Pathology. W.H. Freeman and Company, San Francisco and London. 387 pp.
2 Onkar D. D. and J. B. Sinclair,1985. Basic Plant Pathology Methods.CRC Pres, Inc.Boca Raton, Florida. 355 pp.3 İren S., Z. Katırcıoğlu, 1989. Uygulamalı Mikoloji. Ankara Üniversitesi Ziraat Fakültesi Yayınları Ankara No:
1126. 136 pp.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Sampling and preserving of specimens Specifications of basic laboratory apparatus
2 Aseptic techniques Practice for operating the equipment used for sterilization
3 Microscope parts and specifications and techniques Practice for applying various microscopy techniques
4 Techniques of slide preparations, microscopic measurements by using micrometer Slide preparation and microscobic examination
5 Nutritional requirements of fungi and composition of media
Practice for measuring the dimensions of various fungal spores by micrometer under light microscope
6 Methods of preparation of solid and liquid media Media preparation
7 Isolation methods of phytopathogenic fungi from various sources Isolation from soil
8 Mid Term Exam Isolation from leaves and wood
9 Single spore isolation methods Single spore isolation
10 Inoculum preparation and determination of spore concentration by using hemocytometer
Inoculum preparation and determination of spore concentration
11 Basic inoculation methods Inoculation of plants
12 Maintenance of fungi Assesment of fungal diseases
13 Staining techniques to determine fungal presence and growth in plant tissues Practice for staining fungi in leaf and seed tissues
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Laboratory Techniques in Phytobacteriology IDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 519 I (Fall) MS Optional Turkish 2 2 3 10Course Prerequisites None
Name of Instructors Prof. Dr. Kemal BENLİOĞLU
Instructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 AydınTel: 256 7727023 [email protected]
Course Objective and brief Description
The course aims to enable students to acquire, develop their practical skill and knowledge in thebasic principles of laboratory techniques of classical bacteriology that include pathogenicity andbiochemical tests, culturing, isolation and inoculation methods.
Textbook and Supplementary readings1 Saygılı, H., Fitobakteriyoloji, Ege Üniv. Zir. Fak. Doğruluk Matbaası, 1995, İzmir.2 Klement, Z. K. Rudolph, D. C. Sands (1990) Methods in Phytobacteriology, Akademiai Kiado, Budapest, ISBN-
963-05-4955-7.3 Schaad, N. W. J. B. Jones, W. Chun, Laboratory Guide for Identification of Plant Pathogenic Bacteria, APS Press,
St. Paul, Minnesota, ISBN-0-89054-263-54 Singleton P., and D. Sainsbury, Introduction to Bacteria, John Wiley and Sons Ltd, USA, ISBN-0-471-10035
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Characteristics of plant pathogenic bacteria and symptomatology Knowledge on laboratory equipments
2 Culture media and ingredients Preparation of general and selective media
3 Isolation methods Isolations from diseased plant tissue
4 Patogeniciy tests Obtaining pure culture and examiningbacterial colonies
5 Counting bacteria Preparing dilution series andspectrophotometric measurement
6 Cell and colony morphology of plant pathogenic bacteria Colony counting
7 Mounting and Staining Gram Staining and KOH test
8 Quiz
9 Inoculum production and inoculation methods Inoculation techniques
10 Biochemical tests OF, levan, oxydase, fluorescence tests
11 Biochemical tests Nitrate reduction, arginine dehydrolase
12Biochemical tests Potato soft rot, tobacco
hypersensitivity and carbohydrate utilization tests
13 Identification of bacterial genera by using identification keys Evaluation of tests
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these
FACULTY of AGRICULTURECourse Title Introduction to BiotechnologyDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-521 I (Fall) MSc Elective Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Prof. Dr. Kemal BENLİOĞLU
Instructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 AydınTel: 256 7727023 [email protected]
Course Objective and brief Description
Course aims to introduce students broad view of biotechnology, historical developments, keyconcepts in molecular biology and modern topics including recombinant DNA technology andgene transfer methods. Students also consider specific examples of the use of gene cloningtechniques and transgenic organisms in agricultural, environmental and industrial biotechnology.
Textbook and Supplementary readings1 William J. T., M. A. Palladino, W. Thieman, 2003. Introduction to Biotechnology, Benjamin Cummings, ISBN:
0805348255.2 Barnum, S. R. 2004. Biotechnology: An Introduction. Brooks Cole, ISBN: 05344929673 Babaoğlu, M., E. Gürel, S. Özcan, 2002. Bitki Biyoteknolojisi, Cilt I, Doku Kültürü ve Uygulamaları. Selçuk
Üniversitesi Yayınevi, Konya.4 Özcan, S., E. Gürel, M. Babaoğlu, 2004. Bitki Biyoteknolojisi, Cilt II, Genetik Mühendisliği ve Uygulamaları.
Selçuk Üniversitesi Yayınevi, Konya.
COURSE CALANDER / SCHEDULEWeek Lecture topics
1 Applications in biotechnology and historical development
2 Biotechnology in the world and Turkey
3 Tissue and cell culture methods and their applications
4 Isolation of DNA, cloning and manipulation techniques
5 Cloning vectors
6 Application of cloning in gene analysis
7 Studying gene, genome structure and gene expression
8 Quiz
9 Polymerase chain reaction techniques in biotechnology
10 Production of protein from cloned genes
11 Introduction of DNA into living cells
12 Recombinant DNA tecniques in plants
13 Recombinant DNA tecniques in animals
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title FungicidesDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-523 I (Fall) MS Optional Turkish 2 0 2 8Course Prerequisites
Name of Instructors
Prof. Dr. Seher Benlioğlu
Instructor Information
Adnan Menderes University, Agricultural Faculty, Plant Protection Dept., [email protected]
Course Objective and brief Description
Course aims at introducing basic information on fungicides according to mode of actions and biological activities. The contents of course also include formulations and activity spectrum of commercially used fungicides.
Textbook and Supplementary readings1 Hewitt, H.G., 1998..Fungicides in Crop Protection, CAB International, 221p.2 Pflanzenschutz Nachrichten, Bayer 3 http://npic.orst.edu/RMPP/rmpp_ch15.pdf4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 The Global Fungicides Market
2 Global Fungicides Markets by Crop and Regions
3 Formulation types of fungicides
4 Classification of fungicides according to their modes of action
5 Fungicides disrupted of cell function (Inorganics)
6 Fungicides disrupted of cell function (Organics)
7 Fungicides disrupted of membrane function
8 Quiz
9 Fungicides disrupted of membrane function
10 Fungicides disrupted of nuclear processes
11 Fungicides affects on cell wall function, inhibition of protein synthesis
12 Fungicides inhibited of respiration, disruption of cell membrane integrity
13 Undefined mode of action
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Research Methods in Weed ScienceDepartment Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 527 Fall MS Optional Turkish 2 2 3 10
Course Prerequisites No
Name of Instructors
Assoc.Prof.Dr. Özhan BOZ
Instructor Information
University of Adnan Menderes, Faculty of Agriculture, Department of Plant Protection, 09100 Aydın/Turkey. Phone. + 90 256 7727023 (1203), [email protected]
Course Objective and brief Description
Students will learn both basic and advance methods commonly being used in weed science. Students will practice both in laboratory and field to gain experience in weed science experimental studies.
Textbook and Supplementary readings1 Camper, N.D., 1986. Research Methods in Weed Science. Southern Weed Science Society, 485p.2 Uygur, F.N., 1991. Herbolojide Araştırma Yöntemleri, Ç.Ü. Fen Bil. Ens. Yardımcı Ders Notu3 Anonymous, 1996. Zirai Mücadele Standart İlaç Deneme Metodları (Cilt 3) T.C. Tarım ve Köyişl Bak. Tarımsal
araştırmalar Gen. Müd. Ankara.4 Anonymous, 2004. Manual for Field Trials in Crop Protection, Syngenta. 444p.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Techniques in herbarium preparation Practice and Theory
2 Methods of the determination of weed species, their frequency and coverages
Practice and Theory
3 Experimental design techniques in weed science Practice and Theory
4 Germination and dormancy tests of weed species Practice and Theory
5 Assesment of ecological factors effecting competition Practice and Theory
6 Practices in economical threshold levels Practice and Theory
7 Exam
8 Studies on critical periods in weed science Practice and Theory
9 Introduction to Chromatographic techniques Practice and Theory
10 Studies on Allelopathy Practice and Theory
11 Assesment of effects of herbicides Practice and Theory
12 Rules on the use of herbicides Practice and Theory
13 General wiev of the determination effects of herbicides on cell components
Practice and Theory
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title HerbicidesDepartment Plant ProtectionDivision in the Dept. Phytopathology (Weed Science)
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ETSC CreditZBK 529 Fall MS Optional Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Dr. M. Nedim DOĞAN
Instructor Information
ADÜ, Ziraat Fak., Aydin-Turkey, [email protected]
Course Objective and brief Description
In this lecture following information will be supplied to students: Herbicides used in agricultural areas, classification and mode of action of herbicides, herbicide resistance, factors influencing herbicide efficacy, Selectivity, principles of herbicide use in IWM, herbicides used in Turkey, their use strategy.
Textbook and Supplementary readings1 Principles of Weed Science2 Herbicide Handbook 3 Herbizide4 Unkrautbekaempfung
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction (Histroy of herbicides, herbicide use in the world and in Turkey)
2 Herbicide clasification
3 Site of Action: Aminocacid inhibitors, Seedling growth inhibitore
4 Site of Action: Growth regulators, Photosynthesis inhibitors
5 Retention, uptake and translocation
6 Retention, uptake and translocation
7 Exam
8 Selectivity
9 Factors influencing herbicide efficacy
10 Herbicide resistance
11 Strategies for herbicide use in IWM
12 Herbicides in novel crops and strategies for use
13 Herbicides in novel crops and strategies for use
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Mushroom Diseases and PestsDepartment Plant ProtectionDivision in the Dept. Phytopathology, Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 531 I Autumn Master Optional Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Prof. Dr. M. Timur Döken, Dr. İbrahim ÇakmakInstructor Information Address: Adnan Menderes Üniversitesi, Ziraat Fakültesi, Bitki Koruma Bölümü, Güney Kampüsü
09100 AYDIN - TÜRKİYETel: 0 256 772 70 22-23-24 / 1201 e-mail: [email protected] - [email protected] , iç[email protected]
Course Objective and brief Description
The course provides students with a knowledge of mushroom diseases caused by various pathogenic agents and pests , besides some basic information on mushroom cultivation. Mainly the diseases and pests which effect the mushroom production in Turkey are handled. Throughout the course the diseases are studied under the topics of symptoms, agents, disease cycles and control measures. The topics of the pests include description, biology, damage and control .
Textbook and Supplementary readings1 Fletcher, J.F., P.F. White and R.H. Gaze, 1989. Mushrooms: Pest and Disease control. Atheanaeum Press, Newcastle upon Tyne.
173 p.2 Günay A.,1995. Mantar Yetiştiriciliği. İlke Kitapevi. 477 p.3 Bora T., S., Toros and H. Özaktan, 1996. Kültür Mantarı: Hastalıkları, Zararları ve Savaşımı. AFA Matbaacılık, İstanbul. 137 p.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction ( mushroom cultivation in the world and in Turkey and problems during production) -
2 Isolation ,spawn production, cultivation and harvest -
3 Hygiene during cultivation and harvest -
4 Abiotic disorters (distortion, waterlogging, pinning disorders, carbodioxide damage, dirty mushrooms, rosecomb, browning, scaling, crypto-mummy disease) -
5 Virus diseases and their control (Mushroom viruses) -
6 Bacterial diseases and their control (Bacterial blotch or Brown blotch, Ginger blotch, Mummy disease, Pit, Drippy gill) -
7 Fungal diseases and their control (Wet bubble or Mycogone, Dry bubble or Verticillium, Cobweb or Dactylium, False truffle or truffle) -
8 Mid Term Exam -
9 Fungal diseases and their control (, Trichoderma diseases, Shaggy stipe, Gill mildew, Aphanocladium cap spotting, Hormiactis cap spot) -
10 Moulds in mushroom crops and their control -
11 Mushroom flies (Sciaridae, Phoridae, Cecidomiidae) -
12 Mites (Tarsonemidae, Acaridae, Pyemotidae, Histiomidae) -
13 Mushroom nematodes and other pests (Collembole, Myriapoda, Mollusca, Rodentia) -
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title AcarologyDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-533 I (Fall) Master Obligatory Turkish 3 0 3 8Course Prerequisites None
Name of Instructors Asst. Prof.Dr. İbrahim ÇAKMAK
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 772 70 24 [email protected]
Course Objective and brief Description
Systematic position, morphology and anatomy, life stages, habits and habitats of the Acari were given. Collection, storage and preparation of the Acari are taught.
Textbook and Supplementary readings1 Ecevit, O. 1981. Akarolojiye Giriş. Ondokuz Mayıs Üniversitesi, Ziraat Fakültesi yayınları No:2, Samsun, 259 s.2 Krantz, G.W. 1978. A Manual Acarology. Oregon State University, Corvallis, Oregon 509p.34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction
2 Systematic position of the Acari
3 Morphology (Cuticle, body parts and segmentation)
4 Morphology (legs and sensory structures)
5 Anatomy (Digestion, excretion and circulatory systems)
6 Anatomy (Muscle, respiratory, nervous, reproduction systems)
7 Life stages (embryonic and postembryonic development)
8 Ara Sınav
9 Habits and habitats
10 Habits and habitats
11 Classification of Acari
12 Collection and storage of Acari
13 Preparation for study
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title MycologyDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-535 I(Fall) MS Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Seher Benlioğlu
Instructor Information
Adnan Menderes University, Faculty of Agriculture , Plant Protection Depart., [email protected]
Course Objective and brief Description
Course aims at identification of plant pathogenic fungi depending on taxonomical characteristics. General characteristics of fungi, life cycles and important microscopic features for identification is also thought by means of laboratory techniques.
Textbook and Supplementary readings1 Turhan, G., 1980. Mikolojiye Giriş, Türkiye Fitopatoloji Derneği Yayınları, 128s., Bornova2 George,L.B., 1983. The Genera of Hyphomycetes from Soil, Robert,E. Krieger Publishing Company, Malabar,
Florida, 364p.3 Hanlin, R.T., 1997. Illustrated Genera of Ascomycetes, Vol. I, APS Pres, St. Paul Minnesota, 263p.4 Hanlin, R.T., 2000. Illustrated Genera of Ascomycetes, Vol. II, APS Pres, St. Paul Minnesota, 258p.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Broad view of mycology and historical development Introducing laboratory equipment2 Taxonomical features of fungi Preparation of culture media
3 Vegetative and generative structures of fungi Examination on microscop
4 Life cycle of plant pathogenic fungi Examination on microscop
5 Oomycota (Pythiales) Examination of Pythium spp. and Phytophthora spp.
6 Oomycota (Peronosporales) Introducing some important genus of Peronosporales
7 Zygomycota Examination of Rhizopus spp.
8 Quiz
9 Ascomycota Introducing some important genus of Erysiphales
10 Ascomycota Introducing some important genus of Erysiphales
11 Ascomycota Introducing some important genus of Hypocreales
12 Basidiomycota Examination of Puccinia spp.
13 Basidiomycota Examination of Ustilago spp. ve Tilletia spp.
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture
Course Title Biometry in Plant ProtectionDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-537 Fall MS Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief Description
General principles on planning trials, obtaining and processing data.
Textbook and Supplementary readings1 Shurtleff, M. C. and Averre, C. W., 2000. Diagnosing Plant Diseases Caused by Nematodes. APS Press, 189 pages.2 Aytan-Ediz, S., 1978. Bitki Paraziti Nematodlar. T.C. Gıda-Tarım ve Hayvancılık Bakanlığı, Zirai Mücadele ve
Zirai Karantina Müdürlüğü. Mesleki Eserler Serisi. No: 37, 143 s. 34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction and general definitions
2 Data in Plant Protection and handling of data, types of experimental design
3 Descriptive satatistics (Arithmetic mean, other means, the radian, the mod,)
4 Binomial and poisson distributions Parcelling in trial fields
5 The normal probability distribution Data processing
6 Evaluation of percent value Problem solution
7 Arasınav
8 Estimation and hypothesis testing
9 Correlation and regression Problem solution with obtained data
10 t-test Problem solution with obtained data
11 F-test (= analysis of variance) Problem solution with obtained data
12 X2-test Problem solution with obtained data
13 Analsis of frequency Problem solution with obtained data
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Insect SystematicsDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 539 Fall MS Optional Turkish 2 0 2 8Course Prerequisites
Name of Instructors
Associate Prof. Dr. İbrahim Gencsoylu
Instructor Information
Adnan Menderes University Faculty of Agriculture, Dept. Of Plant Protection, AYDIN, e-mail: [email protected]
Course Objective and brief Description
Identification of insect. With this aim, nomination, techniques and principles of systmetics in some insect orders.
Textbook and Supplementary readings1 Taksonomi ilkeleri, Feyzi Önder, Ege Üniversitesi, 1998.87s.2 The science of Entomology, W. S. Romoser and J. G. Stofolano, C. Brown Publishers, Oxford, England. 532p.3 Insect Systematics, Prof. Dr. Osman Ecevit, OMU Faculty of Agriculture,487p. Samsun4 Web Sites related to Insect Systematics
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction to systematics
2 Categories
3 Characteristics of Taxonomy
4 Identification, Taxonomic papers
5 Types and rules of nomination
6 Identification keys of orders, Apterygota
7 Diptera
8 Mid-Term exam
9 Identification key of Lepidoptera families
10 Identification key of Orthoptera families
11 Identification key of Heteroptera families
12 Identification key of Homoptera families
13 Identification key of Coleoptera families
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Retrieval to information sources and techniques of writing a scientific paper
Department Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-545 I (Fall) Master Obligatory Turkish 2 2 3 10Course Prerequisites None
Name of Instructors Asst. Prof.Dr. İbrahim ÇAKMAK
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 772 70 24 [email protected]
Course Objective and brief Description
In this lecture, information sources, retrieval of literature, recording information from the literature and writing a scientific paper were given.
Textbook and Supplementary readings1 Day, R. 1996. How to Write and Publish a Scientific Paper. (Çev. G. A. Altay), Tübitak Yayınları Ankara, 233 s.2 Lodos, N. 1978. Bilimsel Araştırma Yapma ve Yazı Yazma Tekniği. Ege Bölge Zirai Araştırma Enstitüsü Müd.
Yayınları No: 12, Menemen, 78 s.34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Basic information sources
2 Retrieval way to information sources
3 Act of finding information from subscription databases (ScienceDirect, SpringerLINK vs.)
4 Retrieval to data and request a copy of papers from Ulakbim
5 Searching literature from Web of Science
6 Searching literature from Cab Abstract
7 Create search alerts, volume/issue alerts and citation alerts in favorite journals
8 Ara Sınav
9 What is scientific writing? Origins of scientific writing.
10 How to write a scientific paper?
11 How to write a scientific paper?
12 How to write a thesis?
13 How to write a thesis?
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL
Course Title VirologyDepartment Plant PathologyDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 553 I (Fall) Master Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Serap AÇIKGÖZ
Instructor Information
Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 [email protected]
Course Objective and brief Description
Brief history of plant virology, economic importance of virus diseases of plants, how plants get sink, physico-chemical properties of plant viruses, nomenclature classification, origins and evolotion, replication , transmission and movement, effect on plant metabolism, detection and diagnosis methods and plant virus disease control are explained.
Textbook and Supplementary readings1 Matthews R.E.F.1981 Plant Viroloji, Academic Press Inc, London897s2 Agrios 1998 Plant Pathology 563s3 Bos L. 1983 Introduction to Plant Virology Longman London and New York 153s4 Stevens W.A. 1983 Virology of Flowering Plants Blackie Glosgow and London 175s
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1What is a virus, definition of a virus, brief history of plant virology, nomenclature classification, origins and evolution, the groups of plant viruses
İntroduction of Virus lab. and prevention of undesirable infection
2 Symptoms of plant virus ınfection Growth cember and contamination,soil sterilization,
3 How plants get sink Propagation of host plant
4 Effect of plant metabolism Propagation of host plant
5 Transmission of plant viruses Storage of viruses
6 Transmission of plant viruses Symptoms of plant virus diseases
7 Isolation Symptoms of plant virus diseases
8 Plant virus structure, biochemistry of plant virus, virus architecture İnoculum
9 Replication and movement Mecanical inoculation
10 Varıabılıty, ınactivation Mekanikal inoculation problems
11 Serology and electron microscopy Virus architecture, electron microscopy
12 Detection and diagnosis Detection and diagnosis methods
13 Economic importance, ecology and plant virus diseases control
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title Methods in Molecular Biology
Department Plant PathologyDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-555 I(Fall) Master Optional Turkish 2 0 2 8Course Prerequisites
Name of Instructors Serap AÇIKGÖZInstructor Information
Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 AYDIN [email protected]
Course Objective and brief Description
Brief of history of molecular biology, relation with other science, cell and biomoleculs, cell cycles and molecular organization of cells. Nucleic asid, structural features of nucleic asid, cellular localization and roles of , chemical properties of nucleic asid , physical properties of nucleic asid , DNA biosynthesis, RNA biosynthesis. DNA replication and repair, transcription and the genetic code and translation, protein biosynthesis, mutation, recombinant DNA tecnology. Furtermore the course covers the whole of general using methods on molecular biology
Textbook and Supplementary readings1 Erkan S. 1992, Moleküler Biyoloji Doğruluk Mat. İzmir 140s.2 Dilsiz N. 2004 Moleküler Biyoloji Palme Yayıncılık, Ankara, 220s.3 Smith and Wood 1991,Molecular Biology and Biotechnology Chapman and Hall London 247s4 Temizkan G ve N. Arda 1999, Moleküler Biyolojide Kullanılan Yöntemler Nober Tıp Kitabevleri 236s.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 History of molecular biology, relation with other science
2 Cell and biomoleculs, cell cycles
3 Nucleic asid, structural features of NA, cellular localization and roles of NA, chemical properties of NA, physical properties of NA
4 DNA biosynthesis, RNA biosynthesis
5 DNA replication and repair
6 Transcription and the genetic code and translation
7 Protein biosynthesis
8 Mutation, Recombinant DNA tecnology
9 General methods on molecular biology lab.
10 İsolation RNA and DNA, DNA transformation, Polimerase chain reaction
11 RNA/DNA hybridization
12 RNA /DNA analysis
13 Protein isolation and analysis
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title Chromatographic pesticide analysis
Department Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 557 I (Fall) MS Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors Asist. Prof. Dr. Cafer TURGUTInstructor Information
Adnan Menderes University Faculty of Agriculture Dept. of Plant Protection 09100 AYDIN [email protected]
Course Objective and brief Description
Introduction to pesticide groups, basic principles of pesticide analysis, extraction methods, general principles of chromatography, chromatographic techniques, gas chromatography, high performance liquid chromatography
Textbook and Supplementary readings1 Handa, S. K. (2004): Principles of pesticide chemistry. Agrobios.234
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction General principles of laboratory use
2 Introduction of pesticide groups Preparation of standards
3 Introduction of pesticide groups Preparation of standards
4 Extraction methods of pesticides Extraction studies
5 Extraction methods of pesticides Rapid extraction techniques
6 Extraction methods of pesticides Rapid extraction techniques
7 EXAM
8 Introduction of chromatographic pesticide analysis Kramatografik cihazların tanıtımı
9 Gas Chromatography/Mass Spectrometry GC injection methods and methods developmet
10 Gas Chromatography/Mass Spectrometry Anaytical methods and evaluation
11 High performance liquid chromatograpy HPLC injection methods and methods development
12 High performance liquid chromatograpy Analytical methods and evaluation
13 Evaluation of results Calculation o f the results
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Entomophagous insectsDepartment Plant protectionDivision in the Dept. Entomology
Code Term Level Type Language Credit hours/weekLecture Lab Credit ECTS Credit
ZBK-559 I M. Sc Opt. Turkish 3 0 3 8Course Prerequisites None
Name of Instructors Prof. Dr. Tülin AKŞİTInstructor Information
University of Adnan Menderes, Faculty of Agriculture Department of Plant Protection, 09100 Aydın, [email protected]
Course Objective and brief Description
In this course is aim to teach some terminology of parasitoids, morphology and physiology of parasitoids and predators, behaviour of insect parasitoids and predators and explain the effects to natural enemies of the host’s food plant, the relations between natural enemies, some biological characteristics of parasitoids and predators, the families of parasitoid and predator arthropods.
Textbook and Supplementary readings1 Grenier,S.,P.D.Greany and A.C.Cohen,1994.Potential for mass release of insect parasitoids and predators through
development of artificial culture techniques(.Ed.:Rosen, D.,F.D.Bennett,J.L.Capinera), 1994. 2 Uygun, N., 1981. Türkiye Coccinellidae (Col.) Faunası Üzerinde Taksonomik Çalışmalar. Ç.Ü. Zir. Fak. Yay. No:
157, Bilimsel Araştırma ve İnceleme Tezleri No: 48, Adana.3 Clausen, C.P., 1962. Entomophagous Insects. Hafner Publishing Co., Inc., New York4 Van Driesche, R. and Jr. Bellows, T.S., 1996. Biological Control. An International Thomson Publishing Company,
Florence.5 Quicke, D.L.J., 1997. Parasitic Wasps. Chapman and Hall, London, UK.6 Grenier,S.,P.D.Greany and A.C.Cohen,1994.Potential for mass release of insect parasitoids and predators through
development of artificial culture techniques(.Ed.:Rosen, ,F.D.Bennett,J.L.Capinera), 1994.
COURSE CALENDER/SCHEDULE
Week Lecture topics1 Some terminology of parasitoids2 Morphology and physiology of parasitoid and predator insects3 Behaviours of insect parasitoids and predators (host/prey finding)4 Behaviours of insect parasitoids and predators (feeding)5 The effects to natural enemies of the host’s food plant. The relations with each other of natural enemies6 Some biological characteristics of parasitoids and predators 7 QUİZ8 Some biological characteristics of parasitoids and predators9 Effected factors on fecundity, longevity, growth and development10 Host defence reactions11 Parasitoid Arthropods12 Parasitoid Arthropods13 Predator Arthropods14 FİNAL EXAM
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on the instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Integrated Pest Management Department Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 502 Spring M.Sc. Optional Turkish 2 0 2 8Course Prerequisites
Name of Instructors
Associate Prof. Dr. İbrahim Gencsoylu
Instructor Information
Adnan Menderes University Faculty of Agriculture, Dept. Of Plant Protection, AYDIN, e-mail: [email protected]
Course Objective and brief Description
The courses cover the principles and methods of Integrated pest management in some fields
Textbook and Supplementary readings1 Entomology and Pest Management, L. P. Pedigo, Iowa State University, Macmillan Publishing Campany, 1989
646p.2 Technical Reports on Entegrated Pest Management Ministry of Agriculture, Ankara3 Web Sites related to IPM4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction to Integrated Pest Management (IPM)
2 The aim of IPM
3 Principles of IPM
4 Surveillance and Sampling
5 Advantags of IPM and disadvantage of chemicals in Management
6 Economic decision levels for insec populations
7 Pes Management theory and practice
8 Mid-term exam
9 Insect pest mangament in lo-value, moderate-value and high-value production systems
10 Ipm in corn fields
11 Ipm in vitis fields
12 Ipm in vegetables fields
13 Ipm in cotton fields
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Application TechniqueDepartment Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 504 Spring MS Optional Turkish 2 2 3 10Course Prerequisites No
Name of Instructors
Assoc.Prof.Dr. Özhan BOZ Assoc.Prof.Dr. İbrahim GENÇSOYLU
Instructor University of Adnan Menderes, Faculty of Agriculture, Department of Plant Protection, 09100
Information Aydın/Turkey. Phone. + 90 256 7727023, [email protected], igenç[email protected] Objective and brief Description
The course covers pesticide applicationtechnique and methods in different fields
Textbook and Supplementary readings1 Mathews, G.A., E.C. Hislop, 1993.Application Technology for Crop protection. 357p.2 Anonymous, 1996. Zirai Mücadele Standart İlaç Deneme Metodları (Cilt 1-4) T.C. Tarım ve Köyişl Bak. Tarımsal
araştırmalar Gen. Müd. Ankara.3 Ege Üniv. Fen Bil. Enst. İlaçlama Tekniği Ders Notları.4 Öncüer, C., 1996. Tarımsal Zararlılarla Savaş Yöntemleri ve İlaçları. Ege Üniversitesi Basımevi, 333 s + xxx s.5 Anonymous, 2004. Manual for Field Trials in Crop Protection, Syngenta. 444p.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Evoluation of pesticide using in worldwide Theory
2 Structure of pesticide, formülation and features, dose, tolerance etc. of pesticide
Practice and Theory
3 Technique of pesticide producing and packing Practice and Theory
4 Pesticide sprayers equipment and some features Practice and Theory
5 Calibration Practice and Theory
6 General cases on establishing experiment Practice and Theory
7 Exam
8 Drift and measuring methods Practice and Theory
9 Seed spraying techniques Practice and Theory
10 Pesticide application technique in field, planted areas and greenhouse Practice and Theory
11 Chemigation technique Practice and Theory
12 Aerial application techniques of pesticides Practice and Theory
13 Pesticide application technology instore and house Practice and Theory
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title Identification of InsectsDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-506 Spring MS Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief
Identification of insects having importance in plant protection in family level, morphological, biological and ecological features in order and family levels, identification of families using id
Description key. Textbook and Supplementary readings
1 Borrer, D.J. and D.M. DeLong, 1970. An Introduction to the Study of Insects. 812 pp.234
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 General information on insects: Morphological, biological and ecological features of insects in Order level
2 Id keys and their use Lab Works on samples
3 General information on Ephemeroptera and Orthoptera, and identification of their families
Lab Works on samples both from collection and fields
4 General information on Homoptera , and identification of the families Lab Works on samples both from collection and fields
5 General information on Heteroptera , and identification of the families Lab Works on samples both from collection and fields
6 General information on Neuroptera , and identification of the families Lab Works on samples both from collection and fields
7 Mid-term exam
8 General information on Coleoptera , and identification of the families Lab Works on samples both from collection and fields
9 General information on Coleoptera , and identification of the families Lab Works on samples both from collection and fields
10 General information on Lepidoptera , and identification of the families Lab Works on samples both from collection and fields
11 General information on Lepidoptera , and identification of the families Lab Works on samples both from collection and fields
12 General information on Diptera , and identification of the families Lab Works on samples both from collection and fields
13 General information on Hymenoptera, and identification of the families Lab Works on samples both from collection and fields
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE Course Title Plant Disease Forecasting and Early WarningDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-508 Spring MS Optional Turkish 2 2 3 10Course Prerequisites None
Name of Instructors
Yrd. Doç. Dr. Ömer Erincik
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 [email protected]
Course Objective and brief
The objectives and importance of plant disease forecasting and early warning systems in integrated disease management will be emphasized in the introduction. Using of disease triangle
Description
variables such as pathogen, host and environment in developing disease forecasting systems will be studied. Monitoring of host, pathogen and environmental variables will be taught. Students will learn how to develop a disease forecasting model and collect data. Examples of important forecasting systems using in the world and our country will be introduced in case studies. Students will also learn about recent developments and new technology in disease forecasting and early warning.
Textbook and Supplementary readings1 Campbell C. L. And Madden L. V. 1990. İntroduction to Plant Disease Epidemiology. A Wiley- Interscience
Publication. New York2
Jones, D.G. 1998. The Epidemiology of Plant Diseases.3 Francl, L. F. and Deborah, N. A. 1997. Exercise in plant Disease Epidemiology 4 http://www.ento.okstate.edu/classes/plp3344/forecast.html5 Madden L. V. And Ellis M.A How to develop Plant Disease Forecasters
COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1 Introduction to plant disease forecasting and early warning (description, history, objectives, benefits of forecasting and early warning)
2 Factors effecting disease development (pathogen, host and environment). Using of these factors in disease forecasting.
3 Monitoring of pathogen and host 4 Monitoring of environment (sensors, weather stations)
5 Developing of disease forecasting and early warning systems Developing of disease forecasting models I
6 Developing of disease forecasting models II
7 Disease forecasting and early warning systems based on host variables Phenologic models
8 Disease forecasting and early warning systems based on pathogen variables 9 Mid Term10 Disease forecasting and early warning systems based on environmental variables I11 Disease forecasting and early warning systems based on environmental variables II12 Forecasting and early warning systems using in Turkey. 13 Recent development and new technology in plant disease forecasting and early warning 14 Final exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Mass productions of insectsDepartment Plant protectionDivision in the Dept. Entomology
Code Term Level Type Language Credit hours/weekLecture Lab Credit ECTS Credit
ZBK-510 II Master Opt. Turkish 2 2 3 10Course Prerequisites None
Name of Instructors Assoc. Prof.Dr. Tülin AKŞİTInstructor Information
University of Adnan Menderes, Faculty of Agriculture Department of Plant Protection, 09100 Aydın, [email protected]
Course Objective and brief Description
In this course, the methods and techniques of mass rearing of insects, needed tools and equipments and preparation of insect diets, mass rearing of phytophagous and entomophagous insects species are explained separately. Besides descriptions and controls of important pests and diseases that cause problems in mass rearing were also mentioned.
Textbook and Supplementary readings1 Singh P. and R.F.Moore (Ed.),1985.Handbook of Insect Rearing Vol.I.Elsevier Science Publishers B.V. Amsderdam,
488 pp.2 Singh P. and R.F.Moore (Ed.),1985.Handbook of Insect Rearing Vol.II. Elsevier Science Publishers B.V.
Amsderdam, 514 pp.3 Grenier,S.,P.D.Greany and A.C.Cohen,1994.Potential for mass release of insect parasitoids and predators through
development of artificial culture techniques(.Ed.:Rosen, D.,F.D.Bennett,J.L.Capinera), 1994.
COURSE CALENDER/SCHEDULE
Week Lecture topics1 The preparation of insects rearing systems2 Rearing, colony maintenance and genetic variations of insects3 Diets ( multiple species rearing diets)4 Artificial diets5 Artificial diets6 Natural foods7 QUIZ8 Rearing of various phytophagous species on artificial diets9 Rearing of parasitoids and predators on the natural host 10 General problems in rearing of entomophagous insects11 Disease recognition in laboratory colonies12 Contaminant control in laboratory colonies13 Quality control in laboratory-reared insects14 FİNAL EXAM
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on the instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE Course Title Plant Protection in Ecological AgricultureDepartment Plant ProtectionDivision in the Dept. Phytopathology, Entomology, Herbology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-512 Spring MS Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR, Doç. Dr. Ozhan BOZ, Yrd. Doç. Dr. Ömer ERİNCİK
Instructor Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 AYDIN
Information Prof. Dr. Hüseyin BAŞPINAR .......... [email protected]ç. Dr. Ozhan BOZ ................... ..... [email protected]. Doç. Dr. Ömer ERINCIK ........... [email protected]
Course Objective and brief Description
Definition and importance of ecological agriculture will be explained. Role of plant protection in ecological agriculture will be emphasized and rules in ecological agriculture and certification regulations will be introduced. Ecological factors causing pests, pathogen and weeds populations to increase and limit will be studied. Control methods which are used in ecological agriculture systems for controlling pests, pathogens and weeds will be covered in details.
Textbook and Supplementary readings1 Powers, L., and McSorley R. 1999. Ecological Principles of Agriculture 2 Gliessman, S. R. 1997. Agroecology: Ecological Processes in Sustainable Agriculture 3 Hakansson, S. Weeds and weed Management on Arable Land. An ecological Approach4 Altieri , A. M. 1981. Agroecology: The scientific Basis of Alternative Agriculture.5 Unwin, R. 1990. Crop Protection in organic and low imput Agriculture.6 Gold, M. V. 1999. Sustainable Agriculture: Definitions and Terms
http://www.nal.usda.gov/afsic/AFSIC_pubs/srb9902.htm#term4a7 Anonymous. 2006. Organic Agriculture at FAO. http://www.fao.org/organicag/frame5-e.htm
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction (Definition, History, Importance, ecological agriculture in the world and in Turkey)
2 Ecological and agroecological systems, effect of plant protection practices on these two systems
3 Principles of ecological agriculture, International and national organizations and instutitions, Certifications
4 Ecological agriculture and biodiversity, significance of biodiversity in sustainable agriculture and plant protection
5 Factors causing pests, pathogen and weed populations to increase in ecological agricultural lands
6 Factors causing pests, pathogen and weed populations to limit in ecological agricultural lands 7 Midterm8 Plant disease control methods in ecological agriculture I 9 Plant disease control methods in ecological agriculture II10 Plant pest control methods in ecological agriculture I 11 Plant pest control methods in ecological agriculture II12 Weed control methods in ecological agriculture I 13 Weed control methods in ecological agriculture II14 Final exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE Course Title PhytoclinicDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-514 Spring MSc Opt. Turkish 2 2 3 10Course Prerequisites None
Name of Instructors
Prof. Dr. Kemal BENLİOĞLU, Yrd. Doç. Dr. İbrahim ÇAKMAK, Yrd. Doç. Dr. ÖmerERİNCİK
Instructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 [email protected], [email protected], [email protected]
Course Objective and brief Description
Course aims to analyze and identify microscopic and macroscopic images of agricultural plantsand plant parts showing symptoms of abiotic and biotic disorders by means of computer. Coursealso provides basic and technical information on the collection of samples and data necessary toconduct management of assays in plant protection, and evaluation of data by means of computer
Textbook and Supplementary readings1 Russ, J. C. The Image Processing Handbook, CRC Press, ISBN: 0849325323 2 http://www.ohio-distinctive.com/galleries/insects/3 Nilsson, H. 1995. Remote Sensing and Image Analysis in Plant Pathology, Annual Review of Phytopathology
33:489-528.4 http://www.diagnosis.co.nz/get.htm
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Analyzing of symptoms caused by plant pathogens inselected plants
Collecting images samples from field
2Analyzing of symptoms caused by plant pests in selectedplants
Collecting images samples from stereo andcompound microscopes
3 Analyzing of symptoms caused by abiotic factors inselected plants
Transferring images to computer
4 Image analysis software Analyzing images by means of computer5 Image analysis software Analyzing images by means of computer6 Survey methods Field applications
7 Determination of incidence, prevalence and level ofdamage
Field applications
8 Quiz9 Sampling methods Collecting samples in the field10 Collecting, preparation and mailing of specimens Evaluation of samples
11 Data loggers (Hobo, Watchdog, GPS) Using data loggers in the field and greenhouse
12 Learning data visualization software Analyzing data by means of computer13 Remote sensing in plant protection Analyzing images by means of computer14 Final exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Weed Systematics and IntroducedDepartment Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 516 Spring M. Sc. Optional Turkish 2 2 3 10Course Prerequisites No
Name of Instructors
Assoc.Prof.Dr. Özhan BOZ
Instructor University of Adnan Menderes, Faculty of Agriculture, Department of Plant Protection, 09100
Information Aydın/Turkey. Phone. + 90 256 7727033 (1203), [email protected]
Course Objective and brief Description
Principles of weed systematics and monitoring of the growth stages of certain weed plants having importance in agricultural areas in Turkey will be introduced. All the growth stages of weeds starting from cotyledon formation through fruit and seed development will be covered. In addition, charecteristics of certain plant families comprising important weed species found widespread in Turkey.
Textbook and Supplementary readings1 Davis, P.H., 1967-1984. Flora of Turkey and the East Aegean Islands. Vol 1-10. Edinburg.2 Seçmen, Ö., Y. Gemici, E, Leblebici, G. Görk ve L. Bekat, 1989. Tohumlu Bitkiler Sistematiği, Ege Üniversitesi,
Fen Fakültesi Kitaplar Serisi, No:116. İzmir. 396s3 Zeybek, N., H. Güner, M. Öztürk, Ö. Seçmen, Süleyman Tokur, Merih Kıvanç ve Ayşen Özdemir, 1991. Bitki
sistematiği ve Biyolojisi, Anadolu Üniversitesi, Yayın No:427. 292s.4 Altınayar, G., 1987. Bitkibilimi Terimleri Sözlüğü, T.C. Bayındırlık ve İskan Bakanlığı, Devlet Su İşleri Genel Müd.
Yayınları.308s.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 General plant systematics Practice and Theory
2 Differences in Monocotyledon and Dicotyledon weeds Practice and Theory
3 Charecteristics of Poaceae (Graminea) Practice and Theory
4 Charecteristics of Brassicaceae (Cruciferae) Practice and Theory
5 Charecteristics of Asteraceae (Compositae) Practice and Theory
6 Charecteristics of Fabaceae (Leguminosae) Practice and Theory
7 Exam
8 Charecteristics of Orobanchaceae and Convolvulaceae Practice and Theory
9 Charecteristics of Apiaceae (Umbelliferae) Practice and Theory
10 Charecteristics of Cyperaceae Practice and Theory
11 Charecteristics of Rubiaceae Practice and Theory
12 Charecteristics of Papaveraceae Practice and Theory
13 Charecteristics of Amaranthaceae and Scrophullariaceae Practice and Theory
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE
Course Title Biological Control Of PestsDepartment Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK518 Spring M. Sc. Optional Turkish 2 2 3 10
Course Prerequisites None
Name of Yrd.Doç.Dr. Mehmet KARAGÖZ
InstructorsInstructor Information
A.D.Ü Ziraat Fakültesi Bitki Koruma Bölümü Güney kampusü [email protected]
Course Objective and brief Description
Principles of biological control, importance and application within other control methods, natural enemies in biologial control and their interactions with other pents. Biological organisms as a pent, and application of biological control in Turkey as well as in the world.
Textbook and Supplementary readings1 Öncüer,C.,Tarımsal Zararlılarla Biyoloji Çalışmalar.Anan Menderes Üniversitesi Yayınları No:1,93s.2
Rest of the materials will be provided by instructor.
COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1 Introduction (Biological control and importance2 General information in biological control)3 Methods and applications of biological control against pests4 Biological control agents5 Predator insect, mites, invertebrates6 Predator insect, mites, invertebrates7 Exam8 Parasitoids insects9 Parasitoids insects10 Pathogens (Bacteria, viruses, fungi etc.11 Examples of biological control applications in the world12 Examples of biological control applications in the world13 Examples of biological control applications in the Turkey14 General evaluation of all weeks.
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE Course Title Biological Control of Plant DiseasesDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK520 II (Spring)
MSc Opt. Turkish 2 2 3 10
Course Prerequisites None
Name of Prof. Dr. Kemal BENLİOĞLU
InstructorsInstructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 AydınTel: 256 7727023 [email protected]
Course Objective and brief Description
The course focuses on student understanding of the basic principles of biological control of plantdiseases and its role in plant protection. The major biocontrol mechanisms, which includeantibiosis, competition, colonization, lyzis, PGPR, SIR and hypovirulence, are demonstrated by invitro and in vivo assays.
Textbook and Supplementary readings1 Bora,T., H. Özaktan, H. 1998. Bitki Hastalıklarıyla Biyolojik Savaş. - Prizma Matbaası, İzmir. 2 Cook, R. J. K. F. Baker, 1983. The Nature and Practice of Biological Control of Plant Pathogens, APS Press,
ISBN:0-89054-053-53 Tjamos E. C. C., R. J. Cook, G. C. Papavizas, 1992. Biological Control of Plant Diseases, Plenum Publishing
Corporation, ISBN: 03064423024 http://helios.bto.ed.ac.uk/bto/microbes/control.htm
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction to plant pathology and microbial ecology Isolation of biocontrol agents
2 Historical background and methodology of biological control
Determination of in-vitro antagonisticeffect
3 Agricultural practice and biological control seed coating and seedling applications4 Biocontrol mechanisms in-vivo assays with antagonistic bacteria
5 Effect of biocontrol agents on plant growth and diseaseresistance
in-vivo assays with antagonistic fungi
6 Biocontrol of foliar diseases Assay for storage diseases7 Biocontrol of diseases of roots Assay for storage diseases8 Quiz9 Biocontrol of diseases of roots Determination of IAA and ACC10 Biocontrol of storage diseases Siderophore test11 Biocontrol of diseases of seeds and seedlings Determination of enzymatic activity12 Formulations of biocontrol agents Determination of enzymatic activity13 Biocontrol and integrated pest menagement (IPM) Evaluation of assays14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Laboratory Techniques In Entomology Department Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-522 II (Spring) Master Obligatory Turkish 2 2 3 10Course Prerequisites None
Name of Asst. Prof.Dr. İbrahim ÇAKMAK
InstructorsInstructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 772 70 24 [email protected]
Course Objective and brief Description
Textbook and Supplementary readings1 Düzgüneş, Z. 1980. Küçük Arthropodların Toplanması, Saklanması ve Mikroskopik Preparatlarının Hazırlanması.
T.C. Gıda-Tarım ve Hayvancılık Bakanlığı, Zirai Karantina Genel Müdürlüğü, Ankara, 77 s. 2 Ecevit O. ve Mennan S. 2000. Entomoloji’de Laboratuvar Yöntemleri. Ondokuz Mayıs Üniversitesi, Ziraat Fakültesi
Ders Kitabı No:35 Samsun, 196 s. 34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1Tools and devices used in laboratory Demonstration and maintenance of
microscopes and other laboratory equipments
2 Sample collection and extraction methods of Nematoda Demonstration of some extraction methods and tools and devices
3 Examination and mounting techniques in Nematoda Temporary and permanent mounting
4 Collection and storage in Acari Demonstration of tools and media
5 Examination and mounting techniques in Acari Preparation
6 Collection and labeling of insects Coollection of insects in nature
7 Preparation of leg, antenna, wing etc. of insects Preparation
8 Ara Sınav
9 Collection and preparation of Aphidoidea Temporary and permanent mounting
10 Collection and preparation of Aleyrodidae Preparation
11 Collection and preparation of Diaspididae and Coccidae Preparation
12 Collection and preparation of Thrips Preparation
13 Labeling of Nematoda, Acari ve Insecta Labeling
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture
Course Title Insect Ecology and EpidemiologyDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-524 Spring M.S. Optional Turkish 2 0 2 8Course Prerequisites
Name of Prof. Dr. Hüseyin BAŞPINAR
InstructorsInstructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief Description
Understanding of insects and their relations with biotic and abiotic factors, effecting factors on the distribution and population of insects, epidemiy and their steps, control of epidemy.
Textbook and Supplementary readings1 Önder, F., 2004. Bitki Zararlılarının Ekolojisi ve Epidemiyolojisi. ISBN 975-98739-0-7. Bornova, İzmir, 81 s.2 Price, P. W., 1997. Insect Ecology. John Wiley&Sons Inc., New York, 868 pp.3 Kocataş, A., 1994. Ekoloji ve Çevre Biyolojisi. E.Ü. Fen Fakültesi Ders Kitapları Serisi No: 142.4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 General principles
2 Factors effecting insect distribution and populations
3 Abiotic factors : Temperature
4 Abiotic factors : Water and humidity
5 Abiotic factors : Light, wind, atmosferic gases, gravity and soil
6 Biotic factors: Food
7 Mid-term exam
8 Biotic factors: Competition
9 Biotic factors: Predation and parasitition
10 Effects of agricultural practices on insects
11 Effects of industry on insects
12 Reasons of insect epidemy and steps
13 Control of insect epidemy
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Pesticide pollution and controlDepartment Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 526 II (Spring) M.Sc. optional Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Asist. Prof. Dr. Cafer TURGUT
Instructor Information
Adnan Menderes University, Faculty of Agriculture, Dept of Plant Protection Aydin
Course Objective and brief Description
History, use and necessary of pesticide from the first use to nowadays. Classification and application fields of pesticides in the agriculture. The effect of chemical and physical properties of pesticides on environmental pollution, risk and risk assessment. Critical points of pesticides for causing pollution from production in the factory to the application in the field and mechanisms for control of them. Process and residual risk after application on the field and control mechanism with help of models.
Textbook and Supplementary readings1 Kışlalıoğlu, M., Berkes, F. (2003) Çevre ve Ekoloji. Remzi Kitabevi2 Karpuzcu, M. (1996): Çevre Kirliliği ve Kontrolü. Kubbealtı Neşriyatı3 Handa, S. K. (2004): Principles of pesticide chemistry. Agrobios.4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 General Introduction
2 History, use and classification of pesticides
3 Pesticide registration
4 Transport, movement and factors to residues
5 Residues properties and classification
6 Degradation and dissipation of pesticides in the environment
7 Exam
8 Distribution of pesticides to environment
9 Water polution of pesticides and control
10 Soil pollution of pesticides and control
11 Air pollution of pesticides and control
12 Factors of Long range transport and ways
13 Uptake and transport in organisms
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Plant Disease Epidemiology
Department Plant Protection
Division in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 528 II Spring Master Optional Turkish 2 - 2 8Course Prerequisites None
Name of Instructors Prof. Dr. M. Timur Döken
Instructor Address: Adnan Menderes Üniversitesi, Ziraat Fakültesi, Bitki Koruma Bölümü, Güney Kampüsü
Information 09100 AYDIN - TÜRKİYETel: 0 256 772 70 22-23-24 / 1201 e-mail: [email protected] - [email protected]
Course Objective and brief Description
The aim of the course is focused on understanding and quantification of plant diseases on population scale and evaluation of this information to determine the appropriate methods and strategies of disease management. The main topics of the course include seasonal carry-over of pathogens; inoculum release, dispersal and deposition; the spread of pathogens within crop areas; the factors which influence the spread of pathogens within crop areas and disease forcasting.
Textbook and Supplementary readings1 Van Der Plank, J.E., 1963. Plant Diseases: Epidemics and Control. Academic Press, New York and London. 349 pp.2 Tarr, S.A.J., 1972. Principles of Plant Pathology. The Macmillan Pres, 632 pp.3 Campbell, C.L.and L. V. Madden, 1990. Introduction to Plant Disease Epidemiology. Wiley-Interscience. 532 pp.4 Jurgen K. J., 2002. Comparative Epidemiology of Plant Diseases. CPL Scientific Publishing Services Ltd. 206 pp.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction, definition and scope of epidemiology, terminology -
2 Seasonal carry-over of pathogens (perennial infection and infected crop residues) -
3 Seasonal carry-over of pathogens (alternate host plants, crop residues) -
4 Seasonal carry-over of pathogens (soil-borne inoculum and inoculum from other sources) -
5 Dispersal of plant pathogens by air -
6 Dispersal of plant pathogens by water -
7 Dispersal of plant pathogens by insects, mites, nematodes, other animals and by man -
8 Mid Term Exam -
9 Simple and compound interest diseases, -
10 Epiphytotics -
11 Long term relation between pathogens and their host plants -
12 The influence of plant, pathogen, biotic and enviromental factors on epidemics -
13 The forecasting of plant diseases -
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL
Course Title Plant virus and Viroid DiseasesDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 530 II (Spring) Master Optional Turkish 2 0 2 8Course Prerequisites
Name of Instructors Serap AÇIKGÖZInstructor Information
Adres: Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 AYDIN sacikgoz @a du.edu.tr tel: 0256 7727417 Fax: 0256 772 7233
Course Objective and brief Description
What are differences of virus and viroid. The discovery of viroids and definition of viroid. Natural plant viroid and virus diseases. Nomenclature and classification of viruses. The groups of plants viruses. The symptoms, host plants, transmission ways, controls, physical and chemical properties of plants viruses are explained.
Textbook and Supplementary readings1 Smith K.M.A 1972, Textbook of Plant Virus DiseasesAcademic Pres New York684p2 Agrios 1998 Plant Pathology Academic Press 563s3 Diener T.O.1979 Viroids and Viroid Disease 251p4 Yılmaz M.A,Baloğlu S.ve Özarslan M,1995 Bitki Virus Hastalıkları Çukurova Üniv. Ders Kitabı No:128 Adana
200s
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1The discovery of viroidsEvidence for existence of viroidsPlant diseases caused by viroids
2 Natural plant viroid diseases Tomato bunchy top disease, Chrysanthemum chlorotic mottle viroid
3 Potato spindle tuber disease,Citrus exocortis disease, Coconut cadang-cadang disease, Hop stunt disease, cucumber pale fruit
4 Transmission, replication, identification, purification of viroids
5 Phsical and chemical properties of viroids
6 Viroid-host interaction
7 Plant virus diseases: Virus disease on citrus
8 Virus disease on grapevine
9 Virus disease on stone fruit crops
10 Virus disease on apple
11 Virus disease on gren plant (vegetable), Virus disease on beans
12 Virus disease on potato , Virus disease on beet and tobacco
13 Virus disease on gramines
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title Serology of Plant VirusesDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 532 II (Spring) Master Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors Serap AÇIKGÖZInstructor Information
Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 [email protected]
Course Objective and brief Description
The purpose of this course is to explain the antigenic properties of plant viruses. Because of that ımmune response, ımmunology, ımmunoglobulin and antigenic reaction, antibody molecules, antibody response, antigens and antigenic determinants, immunizing anımals are described. Moreover polyclonal and monoclonal (hibridoma tecniques ) antibodies, virus purification, preparation of antisera and purification of antibodies , antigen-antibody ınteraction, serological techniques (presipitation, diffusion, immunoblotting, immunoelectrophoresis, immunoelectromicroscopy ,ELISA)and Immunochemical studies of plant viruses are clarified.
Textbook and Supplementary readings1 Van Regenmortel M.H.V. 1982 Serology and immunochemistry of Plant Viruses, Academic Pres New York 267p2 Harlow E. And Lane D. 1988 Antibodies A Laboratory Manual CSH Lab.3 Hill S.A.1984 Methods in Plant Virology Blackwell S.P. London 165p4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1Immune response , Immunology
2 Immunoglobulin and antigenic reaction
3 Antibody molecules
4 Antibody- antigen interaction
5 Antibody response
6 Immunızations, pure antigens
7 Immunizing animals
8 Polyclonal and Monoclonal antibodies
9 Virus purification
10 Preparation of antisera and purification of antibodies
11 Serological techniques: presipitation, diffusion, immunoelectrophoresis, immunoelectromicroscopy
12 Immunoblotting, ELISA
13 Immunochemical studies of plant viruses
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title Collecting and Sampling Methods of Insects and Their Collections Department Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 534 Spring M.S. Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief Description
Principles and importance of collecting of insects and insect sampling methods and maintenance of the collections
Textbook and Supplementary readings1 Borror, D.J. and White, R.E. (1970). A Field Guide to the Insects of America North of Mexico. OU Press.2 Borrer, D.J. and D.M. DeLong, 1970. An Introduction to the Study of Insects. 812 pp.34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Importance of insect collecting, sampling and the collections
2 Collecting of insects Information on collecting tools
3 Seperation, preparation and labelling of insects for the collection Lab works
4 Features of collection boards and boxes Lab works
5 Importance and use of collections in entomology Lab works
6 Preserving of insects and maintenance of colections Lab works
7 Mid-term exam
8 Samplings: timing, number and intervals of sampling Field works
9 Samplings on annual, perennial and greehouse plants Field works
10 Sampling methods according to features of insects Field works
11 Effects of biology and damage on sampling
12 Faults in sampling and efecting factors, and statistics in sampling
13 Use of computer in sampling Works on computer use
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Mycorrhizae Plant Health RelationshipsDepartment PLANT PROTECTIONDivision in the Dept. PHYTOPATHOLOGY
Code Term Level Type Language Credit hours/week
ZBK 536
Spring Ms.c. Optional Turkish Lecture Lab Credit ECTS Credit2 2 3 10
Course Prerequisities
No
Name of Instructors Ass.Prof.Dr. Ayhan YILDIZInstructor Information [email protected]
Course Objective and brief Description
The students will learn the definition and classification of Mycorhizal fungi in this course. The structure and function of mycorrhizal fungi will be covered in detail. The mechanisms of host pathogen interactions, their effect on plant growth, mycorrhizae-plant health relationships, and their roles in biological control of some plant pathogens will be studied. Both inoculum production and inoculation techniques will be demonstrated in the laboratory. In addition to these, their potential use in crop production and several commercial products will be evaluated.
Textbook and Supplementary Readings1 Vesicular-Arbuscular Mycorrhizae Manegement (1991)2 Methods and Principles of Mycorrhizal Research (1991)3 The Ecology of Mycorrhizae (1991), Current Advences in Mycorrhizae (2000) 4 Mycorrhizae and plant Health (1994),
COURSE CALENDER/SCHEDULEWeek Lecture topics Practice/Lab/Field1 Introductıon Collection and preparation of soil samples from
different plants2 The bıology and morpholgy of mycorrhizal fungı Crushing of dried plant samples into powders
and planting of trap plants. Regular monitoring of plant growth.
3 Taxonomy of mycorrhizal fungı Preparations techniques and root preparation.
4 Constructıon of mycorrhizal ınteractıon of mycorrhizal fungı and plant
Investigation of already-prepared miycorrhizae samples.
5 Constructıon of mycorrhizal ınteractıon of mycorrhizal fungı and plant
Preparation of samples from Miycorrhizal rood and investigation of miycorrhizal structures.
6 EctomycorrhızaeThe hosts of the ectmycorhizal fungiSellection of ectomycorrhizal fungiInokulum sources of ectomycorrhizal fungi
Monitoring of trap plant growth.
7 EndomycorrhızaeThe hosts of the endomycorhizal fungiSellection of endomycorrhizal fungiInokulum sources of endomycorrhizal fungiThe effects of endomycorrhizal fungi on plant diseases
Techniques for isolation of miycorrhizal fungi from roots.
8 Exam9 The effects of cultural applıcatıon and pestıcıdes on
mycorrhızal fungıRooting of trap plants and root preparation for evaluation.
10 The effects of cultural applıcatıon and pestıcıdes on mycorrhızal fungı
Isolation and observation of miycorrhizal fungi from roots.
11 Interactıon of mycorrhıza and plant healthThe effect of endomycorrhize on plant feding and growth
Isolation of spores, wet sieving and spore counting of the soil where trap plants are grown.
12 The effects of Endomycorrhize on plant diseases Isolation of spores, wet sieving and spore counting of the soil where trap plants are grown
13 The effects of Endomycorrhize on plant diseases Evaluation of plant growth and mycorrhizal relation between plant and fungi.
14 Final ExamCourse assessment will be weighed 40% for one quiz and 60% for the final exam. Depending on instructor,s prefrence, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title Alternative Weed Control methodsDepartment Plant ProtectionDivision in the Dept. Phytopathology (Weed Science)
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 538 Spring M.S. Opt. Turkish 2 0 2 8Course Prerequisites None
Name of Instructors
Dr. M. Nedim DOĞAN
Instructor Information
ADÜ, Ziraat Fak., Aydin-Turkey, [email protected]
Course Objective and brief Description
The purpose of the lecture is to give informations about non-chemical weed control methods within the frame of IWM. Especially the role of some growing practices, such as crop rotation, soil tillage, sowing date, as well as some other mechanical and physical methods will be discussed. The use of herbicides in integrated apprachs will also be discussed in the lecture.
Textbook and Supplementary readings1 Principles of Weed Science2 Herbicide Handbook 3 Herbizide4 Unkrautbekaempfung
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction (importance of weeds, yield losses etc.)
2 General aspects of weed control
3 Evaluation of chemical weed control (advantages and disadvantages)
4 Strategies of alternative weed control
5 Preventive Methods: Crop rotation and its importance in weed control
6 Preventive Methods: Tillage and its importance in weed control
7 Other preventive methods
8 Exam
9 Physical measurements
10 Mechanical weed control
11 Biological weed control
12 Combination of methods
13 Herbicide use in effective minimum rates
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Honey Plants
Department Plant Protection
Division in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK 540 Spring M. Sc. Optional Turkish 2 2 3 10
Course Prerequisites No
Name of Instructors Assoc.Prof.Dr. Özhan BOZInstructor Information University of Adnan Menderes, Faculty of Agriculture, Department of Plant Protection, 09100
Aydın/Turkey. Phone. + 90 256 7727033 (1203), [email protected]
Course Objective and brief Description
Students will learn honey plant species which are commonly used in apiculture. Different honey plant species will be covered in terms of their honey production potential, nectar and polen capacity, type of nectar secretion organs. In addition to these, factors effecting nectar production., different nectar sources, poisonous honey plants, will also teach in course. In the practice part of the course, students will learn herbarium preparation techniques for honey plants
Textbook and Supplementary readings1 Ekim, T., 1980. Arıcılıkta Önem Taşıyan Bitkiler ve Bunların Yurdumuzdaki Durumu. Türkiye I. Arıcılık Kongresi. 22-24 Ocak
1980-Ankara. 53-64.2 Doğaroğlu, M., 1992. Arıcılık Ders Notları (3. Basım). Trakya Üniversitesi, Tekirdağ Ziraat Fakültesi, Yayın No: 42, Ders Notu
No:36. Tekirdağ.3 Nemli, Y., Ballı Bitkiler Ders Notlar. Celal Bayar Üniv., Alaşehir Meslek Yüksek Okulu Ders Notları. İzmir. 4 Gürkan, B., 1995. Çam Pamuklu Koşnili (Marchaline hellenica). Türkiye II. Teknik Arıcılık Kongresi. 134-145. Ankara.5 Sorkun, K., 1995. Türkiye’nin Önemli Nektar Kaynağı Olan Kültür Bitkileri ve Bal Potansiyelleri. Türkiye II. Teknik Arıcılık
Kongresi. 134-145. Ankara.6 Sönmez, R., 1984. Arıcılık Ders Kitabı. Ege Üniv. Ziraat Fakültesi Yayınları. 253 s.7 Ballı bitkilerle ilgili bildiriler
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Role of honey bees in crop production, pollination of plants by honeybee Theory
2 Techiques in preparation herbarium for honey plants Practice and Theory
3 Flower morphology of angiosperm and gymnosperm Practice and Theory
4 The importance of honey plants of mobile apiculturee honey capacity of plant species Theory
5 Nectar and polen sources, classification of nectar, secretion organs in plants Practice and Theory
6 Factors effecting nectar production and nectar sources Practice and Theory
7 Exam
8 Introduce to honey plant species in apiculture Practice and Theory
9 Introduce to honey plant species in apiculture Practice and Theory
10 Introduce to honey plant species in apiculture Practice and Theory
11 Introduce to honey plant species in apiculture Practice and Theory
12 Introduce to honey plant species in apiculture Practice and Theory
13 Introduce to honey plant species in apiculture Practice and Theory
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title Weeds and their control in arable and horticultural cropsDepartment Plant ProtectionDivision in the Dept. Phytopathology (Weed Science)
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK 546 Spring M. Sc. Optional Turkish 2 2 3 10
Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. Özhan BOZ, Assoc. Prof. Dr. M. Nedim DOĞAN
Instructor Information
ADÜ, Ziraat Fak., Aydin-Turkey, [email protected]
Course Objective and brief Description
The lecture include the definitions of terms used in weed science, significance of weeds in agriculture, interactions between crops and weeds, parasitic weeds, weeds and their control in different arable and horticultural crops and herbicides to be used.
Textbook and Supplementary readings1 Uygur ve ark. 1984. Yabancı ot bilimine giriş2 Özer ve ark. 1996. Farklı külktürlerde sorun olan yabancı otlar ve kimyasal savaşımları3 Özer ve ark. 1988. herboloji4 Güncan, A. 2002. Yabancı otlar ve Mücadele prensipleri5 Rao, V.S. principles of Weed Science
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Definiton of weeds and their useful and harmful impacts
2 Weed biology and classification, parasitic weeds
3 Definition of terms allelopathy and competition
4 Weed Management
5 Chemical weed control (Classification of herbicides and application techniques)
6 Weeds and their control in cerelas
7 Exam
8 Weeds and their control in sugar beet, potatoe, sunflower and cotton
9 Weeds and their control in tobacco, peanut and soybean
10 Weeds and their control in Legume crops
11 Weeds and their control in nurseries and wein and fruit plantations
12 Weeds and their control in ornamentals and strawberry
13 Weeds and their control in vegetables grown in greenhouse and on field.
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture
Course Title BiosafetyDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 548 Spring Master Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Prof. Dr. Serap AÇIKGÖZ
Instructor Information
ADÜ Depertent of Plant Protection, Faculty of Agriculture, [email protected]
Course Objective and brief Description
Analyzing of updated biotechnological developments and biotechnological applications, Social and commercial echoes, Biosafety necessarily and importance, Biosafety-Bioengineering interaction, Information about basic biosafety and legal proceedings on historical progress, Risk in biotekhnology and risk managament mentality, Legal and organizational restructuring in word about biosecurity, Basic approaches and evoluations on national and indernational platforms.
Textbook and Supplementary readings1 Topal, Ş. 2006 Biyogüvenlik ve Biyoteknoloji Cemturan Ofset Matbaası 312s.2 Anonymous, 2004. GDO Gerçeği, Genetiği Değiştirilmiş Organizmalar ve Gıda Güvenliği Konferans Notları,
İstanbul, 144 s.3 Graham, L. E., J.M.Graham and L.W. Wilcox, 2005. Bitki Biyolojisi; Genetik Mühendisliği (Bölüm 18) ed. K. Işık,
Palme Yayıncılık, 497 s.4 Özcan, S., E. Gürel ve M. Babaoğlu, 2001. Bitki Biyoteknolojisi; Genetik Mühendisliği ve Uygulamaları, 456 s.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Analyzing of updated biotechnological developmets and biotechnological applications
2 Information about basic biosafety and legal proceedings on historical progress
3 Social and commercial echoes, Biosafety-Bioengineering interaction
4 Biosafety necessarily and importance,
5 Biosecurity and biotechnological assurence fact
6 Risk in biotechnology and risk managament mentality,
7 Risk in biotechnology and risk managament mentality
8 Biosecurty and ethic
9 Biosecurty and ethic
10 Legal and organizational restructuring in word about biosecurity,
11 Legal and organizational restructuring in word about biosecurity,
12 Biosecurity strategies in Turkey, its applications and legal restructions
13 Biosecurity strategies in Turkey, its applications and legal restructions
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title The relations of plant- phytophagous insectsDepartment Plant protectionDivision in the Dept. Entomology
Code Term Level Type Language Credit hours/weekLecture Lab Credit ECTS Credit
ZBK-550 II M. Sc. Opt. Turkish 3 0 3 8Course Prerequisites None
Name of Instructors Assoc. Prof.Dr. Tülin AKŞİTInstructor Information
University of Adnan Menderes, Faculty of Agriculture Department of Plant Protection, 09100 Aydın, [email protected]
Course Objective and brief Description
Aim of this course is to teach the host range and feeding types of phytophagous insects, the process of host-plant selection, the effects on insects of food and the features of plants as food, the effected factors to feeding behaviors of insects, the adaptations of insects to vegetable defences, specialization of insects on plants and plant parts, chemicals in plants.
Textbook and Supplementary readings1 Bernays, E.A. and R.F.Chapman, 1994.Host- plant selection by phytophagous insects. Chapman and Hall, 115 Fifth
Avenue, Newyork,312 s.2 Mitchell E.R. and Tingle F.C., 1996.Plant allelochemicals: a relatively unexplored territory in management of crop
insect pests (IN:Pest Management in the subtropics, Integrated Pest Management-a Florida Perspective) (Ed.:D.Rosen, F.D.Bennett, J.L.Capinera)Intercept Limited, United Kingdom, 578 s.
3 Chapman,R.F.1972.The Insects. The English Universities Press Ltd.,819 s.4 Painter,R.H.,1968.Insects resistance in crop plants. The Mac Millan Company, Newyork,520 s.
COURSE CALENDER/SCHEDULE
Week Lecture topics1 Host range and feeding types of phytophagous insects2 Taste, olfaction, vision and touching senses of insects3 The process of host-plant selection 4 The effects on insects of food and the features of plants as food5 The effected factors to feeding behaviors of insects6 Benefiting from food of insects, The adaptations of insects toward vegetable defences 7 QUIZ8 Insects resistance in plants9 Specialization of insects on plants and plant parts10 Chemicals in plants; Volatiles, surface waxes and other surface compounds11 Nutrients; Protein and aminoacids12 Carbohydrates and lipids13 Secondary metabolites, Phenolics Terpenoids ,Organic acids and Sulfur –containing compounds14 FINAL EXAM
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on the instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title Arthropod VectorsDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-601 Fall Ph.D. Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief Description
Importance of vectors in plant protection, mechanisms of transmittion, important arthropod vectors, role of mouth type in the transmittion, spesification to plant tissues, relationships among plants-diseases-vectors.
Textbook and Supplementary readings1 Carter, W., 1962. Insect in Relation to Plant Disease. Interscience Publishers, New York, 705 pp.2 Maramorosch, K. And Kaprowski, H., 1967. Methods in Virology. Academic Pres, New York, 570 pp.34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction and diseses transmittion by arthropod vectors
2 Transmittion types of bacterial and fungal diseases
3 Transmittion types of viral diseases
4 Mouth parts of vectors nad their importance in transmittion of diseases
5 Feding behavior and importance of spesification to plant tissues from epidemiology point of view.
6 Vector insects (Aphididae)
7 Mid-term exam
8 Vector insects (Cicadellidae)
9 Vector insects (Miridae, Aleyrodidae, Coccoidea, Orthoptera, Coleoptera, Thysanoptera)
10 Vector acari (Acarina)
11 Effects of diseases on vectors
12 Ecological aspects in transmittion of diseases
13 Control methods of vector arthropods and general review
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Biotechnique methods in agricultural managementDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 603 Fall PH.D. Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors
Associate Prof. Dr. İbrahim Gencsoylu
Instructor Information
Adnan Menderes University Faculty of Agriculture, Dept. Of Plant Protection, AYDIN, e-mail: [email protected]
Course Objective and brief Description
The course cover the use of biotechnique methods in managment programs against the pests
Textbook and Supplementary readings1 Pesticides and managments against pests in Agriculture, Cezmi Öncüer, ADÜ Ziraat Fakültesi, 2004. 424s2 Entomology and Pest Management, L. P. Pedigo, Iowa State University, Macmillan Publishing Campany, 1989
646p.3 Web Sites related to IPM4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 The place of insect growth regulators in pest management
2 Introduction to the Biotechnique methods
3 The importance of Biotechnique methods in pest management
4 The use of pheromon in pest management in worldwide and Turkey
5 Pheromone and insect behavior
6 Ovipostion detterrent
7 Mid-Term exam
8 Insect repellents
9 Insect repellents-contuined
10 Juvenil Hormon Analogs
11 Juvenil Hormon Analogs-contuined
12 Antifeedent
13 Insect steril method
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Fungus PhysiologyDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 605 I Fall Ph D Optional Turkish 2 0 2 8Course Prerequisites None
Name of Instructors Prof. Dr. M. Timur Döken
Instructor Address: Adnan Menderes Üniversitesi, Ziraat Fakültesi, Bitki Koruma Bölümü, Güney Kampüsü
Information 09100 AYDIN - TÜRKİYETel: 0 256 772 70 22-23-24 / 1201 e-mail: [email protected] - [email protected]
Course Objective and brief Description
The object of the course is profoundly to teach the concepts of fungal physiology in relation to their enviroments with emphasis on plant pathogenic fungi. Structure and function of fungal cells, nutrient acquisition and utilization, fungal metabolism, growth and development, sexuel and asexsuel reproduction constitude the main subjects of the course.
Textbook and Supplementary readings1 Cooke, R.C., 1993. Ecophysiology of Fungi. Blackwell Publishing. 352 pp.2 Jennings, D.H., 1995. The Physiology of Fungal Nutrition. Cambridge Press. 622 pp.3 Moore - Landecker, E.,1972. Fundementals of the Fungi.458 pp.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction and concept of physiology -
2 Structure and functions of fungal cell -
3 Nutritional requirements for growth (essential elements, vitamins, nutrient uptake) -
4 Physical requirements for growth (temperature, pH, moisture, light, aeration) -
5 Fungus metabolism (carbon) -
6 Fungus metabolism (nitrogen) -
7 Fungus metabolism (lipid ) -
8 Mid - Term Exam -
9 Nonsexuel reproduction -
10 Sexuel reproduction -
11 Nutritional and physical factors affecting reproduction -
12 Spore release and dispersal -
13 Spore dormancy and germination -
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title Molecular Plant PathologyDepartment Plant PathologyDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-607 I.Fall PhD Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors
Serap AÇIKGÖZ
Instructor Information
Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 [email protected]
Course Objective The contents encompass the modern molecular techniques in plant pathology. Genom
and brief Description
organization, genetic of the host-pathogen interaction, pathogenic determinants are defined. Identification of by RNA extraction-isolation, northern blot analysis DNA extraction-isolation, southern blot analysis DNA/RNA hybridization, dot-blot hybridization. Labelling and storage of nucleic asid probes. Nucleic acid amplification tecniques: polymerase chain reaction. Genome analysis by RFLP and RAPD, cloning and gene expression. Characterized defence response genes. Genetic modification of plants for pathogens resistance are discussed.
Textbook and Supplementary readings1 Goosen, T. And Debets, 1996. Molecular genetic analysis. In: Fungal Genetic: Principles and practce, Bos, C.J. (ed.)
Marcel Dekker, New York, pp.97-117.2 Berger S.L. Guide to Molecular Cloning Techniques Academic Pres3 Tower K.J. and A. Cockayne 1993. Molecular Methods for Microbial Identification and Typing. Chapman and Hall4 Gurr S.J. and D.J. Bowles 1992 Molecular Plant Pathology Volume I, II,A Practical Approarh, At Oxfort Univ.Press
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Causal agents of plant diseases: Pathogens
2 Reproductive biology of pathogens
3 Genome organization, Extrachromosomal ınheritance
4 Genetic of the host-pathogen interaction
5 Gene transformation in pathogens
6 Genetic variation
7 Molecular markers
8 Identification of pathogens: Nucleic acid izolation and hybridization techniques
9 Dot-blot hybridization, Gel electrophorosis, Electroelition
10 Southern , Northern blot hybridization
11 Identification of immunological materyal
12 Protein isolation and electrophorosis
13 Western blot hybridization
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Weed Ecology Department Plant ProtectionDivision in the Dept.
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 609 Fall Ph.D Optional Turkish 3 0 3 10Course Prerequisites No
Name of Instructors Assoc. Prof. Dr. Özhan BOZInstructor Information
University of Adnan Menderes, Faculty of Agriculture, Department of Soil Science, 09100 Aydın/Turkey. Phone. + 90 256 7727033 (1203), [email protected]
Course Objective and Ecological factors effecting germination and vegetative and generative growth of plants will
brief Description
be inroduced to the students. The effects of biotic and abiotic factors on interactions of weed and crops, dynamics of weed population, and population assesments will also covered in these course. In addition to these, adverse effects of herbicides to ecosystem, ecological factors playing significant role on herbicide side effects, development of alternative control methods in weed science will be studied. Importance of weed-insect-disease-culture plant interactions in ecology will be covered in details.
Textbook and Supplementary readings1 Çetik, A.R., 1973. Vejetasyon Bilimi. Ankara Üniv., Fen Fakültesi. 181s.2 Radosevich, S.R. and J.S. Holt, 1984. Weed Ecology Implications for Vegetation Management. 265p.3 Akman, Y. ve O. Ketenoğlu, 1992. Vejetasyon Ekolojisi ve Araştırma Metodları. Ankara Üniv., Fen Fakültesi. 271s.4 Booth, B.D., S.D. Murphy and C.J. Swanton, 2003. Weed Ecology in Natural and Agricultural Systems. CABI
Publishing. 303p.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Main concept of ecology Theory
2 Population ecology, the structure and dynamics of populations Theory
3 Environmental factors effecting weeds Theory
4 Sexual and asexual reproduction in weeds Theory
5 Growth stages from seed development through seedling (Germination, growing, aging and dying), dormansi and dispersal in weeds
Theory
6 Interactions of weeds-insect-diseases Theory
7 Exam
8 Plant communities Theory
9 A prediction method for weed infestation Theory
10 Critical periods in weed management, environmental factors effecting economical threshold level
Theory
11 Important of weed ecology in weed management Theory
12 Interactions among populations (Competition and allelopathy) Theory
13 Interactions among populations (Herbivory, parasitizim, and mutualism)
Theory
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Mites injurious to cultivated plantsDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-611 I (Fall) Ph.D. Obligatory Turkish 2 0 2 8Course Prerequisites None
Name of Instructors Asst. Prof.Dr. İbrahim ÇAKMAK
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 772 70 24 [email protected]
Course Objective and brief Description
Morphology, biology, damage of phytophagous mites, Prostigmata (Tetranychidae, Tenuipalpidae, Penthaleidae, Tarsonemidae, Eriophyidae) and Astigmata (Acaridae) and their control were given. However, the natural enemies (hastalık etmenleri, predatory mites and insects) of phytophagous are mentioned. In addition, dispersal of phytophagous mites is taught.
Textbook and Supplementary readings1 Jeppson, L.R., H.H. Keifer and E.W. Baker, 1975. Mites Injurious to Economic Plants. University of California.
Berkeley, California U.S.A., 614 pp.2
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction to Acarology
2 Phytophagous mites belongs to Tetranychidae
3 Phytophagous mites belongs to Tenuipalpidae
4 Control methods of phytophagous mites belongs to Tetranychidae ve Tenuipalpidae
5 Phytophagous mites belongs to Penthaleidae ve Tarsonemidae
6 Phytophagous mites belongs to Eriophyidae (Phyllocoptinae)
7 Phytophagous mites belongs to Eriophyidae (Eriophyinae)
8 Ara Sınav
9 Phytophagous mites belongs to Eriophyidae (Cecidophyinae, Nalepellidae)
10 Phytophagous mites belongs to Astigmata (Acaridae)
11 The natural enemies (pathogens) of phytophagous mites
12 The natural enemies (predatory mites and insects) of phytophagous mites
13 Dispersal of phytophagous mites
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture
Course Title Insect Population EcologyDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-613 Spring Ph.D. Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief
General aspects on factors affecting population changes in agricultural area. Distribution, population growth, population structure and population dynamics and affecting factors in
Description ecosystems. Textbook and Supplementary readings
1 Begon, M. And Mortimer, M., 1994. Population Ecology. Blackwell Scientific Publications, London, 220.2 Kocataş, A., 1994. Ekoloji ve Çevre Biyolojisi. E.Ü. Fen Fakültesi Ders Kitapları Serisi No: 142.34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction: General aspects and terminology
2 Describing populations
3 Models of single species population
4 Age distribution and pest population changes and pest control
5 Intraspesific and interspesific competition
6 Insect migrations
7 Arasınav
8 Life-history strategies
9 - sex ratio and impact on the population- Genetical diversity and surrouding factors
10 Parasitism and predation
11 Population regulation
12 Population dynamics of pest and beneficials in plant protection
13 Modelling of population
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURECourse Title BiopesticidesDepartment Plant protectionDivision in the Dept. Phytopathology
Code Term Level Type Language Credit hours/weekLecture Lab Credit ECTS Credit
ZBK-617 I (Fall) PhD Elective Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Prof. Dr. Kemal BENLİOĞLUInstructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 AydınTel: 256 7727023 [email protected]
Course Objective and brief Description
The objective of the course is to provide students with knowledge of biopesticides used forcommercial purposes in the world. It provides students basic knowledge of pesticides such as:spectrum of biopesticides, their mechanisms of action, formulations, application techniques,compatibility with chemical pesticides, applicability to IPM programs, possible effects onenvironment and human health and their registration procedures of biopesticides in the world
Textbook and Supplementary readings1 Hall, F. R and Menn J.J. Biopesticides, Humana Press, 1999, ISBN 0-89603-513-8 2 Burges, H. D. Microbial Control of Pests and Plant Diseases, 1970-1980, Academic Press, ISBN: 0121433609
3 http://www.epa.gov/pesticides/biopesticides/ingredients/index.htm4 http://www.nysaes.cornell.edu/ent/biocontrol/
COURSE CALENDER/SCHEDULE
Week Lecture topics1 Projections on opportunuties for biopesticides in crop protection 2 Bacterial insecticides3 Bacterial fungicides and bactericides4 Biofungicides5 Biofungicides6 Microbial pesticides (protozoa)7 Viral pesticides8 Quiz9 Bioherbicides and entomopathogenic nematodes10 Botanical pesticides, fermentation-derived insecticides11 Formulation and delivery systems of biopesticides12 Human health and environmental risk of biopesticides13 Registration of biopesticides14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on the instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE
Course Title Behaviour of insects Department Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 619 I (Fall) PhD Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Yrd.Doç.Dr. Mehmet KARAGÖZInstructor Information A.D.Ü Ziraat Fakültesi Bitki Koruma Bölümü Güney kampusü AYDIN
Course Objective and brief Description
Biological and genetical principles of insect behaviour, programs, coordination, meeting, feeding, chemical commnication, visual communication, mechanical communication, protection, breeding of insect behaviourBöcek davranışlarının biyolojik ve genetik esasları, davranışların programlanması ve koordinasyonu, toplanma, yayılış,beslenme, kimyasal haberleşme, görsel haberleşme, mekaniksel haberleşme, korunma, üreme davranışlarının esasları
Textbook and Supplementary readings1 ATKINS, M.D., 1980. Introduction to Insect Behavior.San Diego State University, New York, USA2 BORROR, D.J., D. M. LONG, C.A. TRIPLEHORNT, 1981.Study of Insect, the Ohio State Univ. Press. USA.
DEMİRSOY, A.,1990. Yaşamın Temel Kuralları. Hacettepe Üniversitesi, Biyoloji Bölümü, Ankara.COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1 Introduction
2 Sense organ in insects3 Sense organ in insects4 Behaviour of insects.5 Instinctual and complex behaviour in insects6 Behaviour periodicity in insects7 Exam8 Imhabiting in insects9 Immigration types of insects10 Tending activities in insects11 Communication of insects12 Communication of insects13 Alarm and assembly activities and host selection in social insects14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Plant resistance to insectsDepartment Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK 621 I (Fall) M.Sc. Opt. Turkish 3 0 3 10
Course Prerequisites
Name of Instructors
Asist. Prof. Dr. Cafer TURGUT
Instructor Information
Adnan Menderes University Faculty of Agriculture Dept of Plant Protection [email protected]
Course Objective and brief Description
History and importance of insect resistance in crop plants, mechanism of plant resistance, and telerance. Biochemical substances in host selection as attractants, repellents for oviposition and behavioural processes, plant resistance to insect vectors. Morphological basis of resistance. Ecological resistance. Role of genetic and environmental factors on stability and expression of resistance. Methods of investigating pest resistance in crop plants, and needs in host plant resistance studies. Use of resistant varieties in pest management.
Textbook and Supplementary readings1 Panda, N., Khush, G.S. (1995): Host plant resistance to insects. Cab International2 Michael Smith, C. (1989): Plant resistance to insects.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction
2 Crop plant and insect diversity
3 Secondary plant metabolites for insect resistance
4 Insect-plant selection
5 Mechanism of resistance
6 Factors affecting expression of resistance
7 Screening for insect resistance
8 Exam
9 Plant resistance and insect pest management
10 Genetics of resistance to insects
11 Breeding for resistance to insects
12 Transgenic crops for insect resistance
13 Resistance studies in the world and Turkey
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title DsRNA Genetic ElementsDepartment Plant PathologyDivision in the Dept. Phytopathology
Term Code Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 623 Fall PhD Optinal Turkish 3 0 3 10Course Prerequisites
Name of Instructors Prof. Dr. Serap AÇIKGÖZInstructor Information
Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 AYDIN [email protected]
Course Objective and brief Description
Current knowledge of dsRNA genetic factors from different biological systems are unified on this course. The course has cover that the nature, origin and biological roles of double-stranded RNA that are capable of replication in fungi, plants and animals. It has convey that dsRNA biology could allow us to create solutions for problems ranging from plant disease management. dsRNA are powerful means of modulating gene expression. Presence of small amounts of dsRNA elicits sequence-specific gene silencing, which may lead to the development of treatments aimed at silencing harmful genes causing serious diseases in animals and humans.
Textbook and Supplementary readings1 Tavantzis S.M. 2002. dsRNA Genetic Elements. CRC Pres, 304 pp2 Buck, K.W.1986. Fungal Virology- an overview. CRC Pres. Boca Raton, FL:pp. 1-843 Ghabrial, S.A. 1998. Origin, adaptation and evolutionary pathways of fungal viruses. Virus Genes 16,119-131.45
Ghabrial, S.A. and Hillman, B.I. 1999. dsRNA viruses New York: ElsvierGhabrial, S.A., 1980 Effects of fungal viruses on their hosts. Annual Rew. Of Phtophology
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 dsRNA genetic factors from different biological systems
2 dsRNA systems from yeast, fungi, plants and animals
3 dsRNA biology,
4 RNA ınterference
5 The RNAi revolution, RNAi based methods, RNAi and cosuppression: dsRNA as an agent of sequence specific genetic silencing in animals and plants
6 The dsRNA activated protein kinase PKR, RNA silencing
7 Significance of dsRNA genetic elements in plant pathogenic fungi
8 Mycoviruses and mycovirus taxonomy
9 Effect of dsRNA mycoviruses on host phenotypes
10 dsRNA associated with Hypovirulent strains of Cryphonectria parasitica
11 Transmitted diseased state in Ophiostoma ulmi
12 dsRNA viruses of Gaeumannonmyces graminis var. tiritici
13The viruses of Helminthosporium victorieEnharced virulence associated with dsRNALarge dsRNA genetic elements in plants and noval dsRNA associated with the 447 cytoplasmic male sterility in Vicia faba
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Resistance to insecticidesDepartment Plant ProtectionDivision in the Dept. Plant Protection
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 625 I (Fall) Ph. D Optional Turkish 2 0 2 8Course Prerequisites None
Name of Instructors
Asist. Prof. Dr. Cafer TURGUT
Instructor Information
Adnan Menderes University Faculty of Agriculture Dept of Plant Protection Aydin
Course Objective and brief Description
History of insecticide resistance, classification and mode of action of insecticides will be explained. The problem of insecticide resistance and situation of resistance. Resistance occuring according to insecticide classes and cause of insecticide residues. Basic and practical approach of insecticide resistance, molecular genetic, population, biology, resistance mechanisms and resistance problems will be described very details.
Textbook and Supplementary readings1 Ishaaya, I. (2001): Biochemical sites of insecticide action and resistance. Springer-Verlag2 Denholm, I. (1999): Insecticide resistance: from mechanisms to management. Cabi Publishing
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction
2 Classification of insecticides
3 Uptake of insecticide to insects bodies
4 Molecular mechanisms of resistance
5 Screening of resistance I
6 Screening of resistance II
7 Variety of insecticide resistance I (morphological)
8 Exam
9 Variety of insecticide resistance II (physiological)
10 Genetics of insecticide resistance
11 Insecticide resistance and integrated pest management
12 Insecticide resistance in Turkey
13 Control and management of insecticide resistance
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Plant Parasitic NematodesDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-627 Fall Ph.D. Optional Turkish 2 2 3 10Course Prerequisites
Name of Instructors
Prof. Dr. Hüseyin BAŞPINAR
Instructor Information
Adnan Menderes University Faculty of Agriculture Department of Plant Protection, AYDINEmail: [email protected]
Course Objective and brief Description
Importance of plant parasitic nematodes in plant protection, general information and features of nematodes, plant parasitic nematodes and their control
Textbook and Supplementary readings1 Shurtleff, M. C. and Averre, C. W., 2000. Diagnosing Plant Diseases Caused by Nematodes. APS Press, 189 pages.2 Aytan-Ediz, S., 1978. Bitki Paraziti Nematodlar. T.C. Gıda-Tarım ve Hayvancılık Bakanlığı, Zirai Mücadele ve
Zirai Karantina Müdürlüğü. Mesleki Eserler Serisi. No: 37, 143 s. 34
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 General information and systematics of nematodes
2 Morphology and anatomy of nematodes Observation on slides in lab
3 Biological features of nematodes Field works
4 Natural enemies of nematodes Observation on slides in lab
5 Relationship between nematodes and soil microorganisms Field works
6 Control methods of plant parasitic nematoes Investigation on solarization in fields
7 Mid-term exam
8 Sampling and analysis Field and lab works
9 Preparation technics Lab works
10 Plant parasitic nematodes:A. Meloidogyne spp., Heterodera spp., Pratylenchus spp.
Lab Works on slides
11 B. Helicotylenchus spp., Aphelenchus spp., Tylenchulus semipenetrans, Ditylenchus spp., Anguina spp.
Lab Works on slides
12 C. Hemicycliophora spp., Tylenchorynchus spp., Dolicodorus spp., Belonolaimus spp.
Lab Works on slides
13 D. Rodopholus spp., Xyphinema spp., Longidorus spp., Trichodorus spp.
Lab Works on slides
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Soilborne Phytopathogen FungiDepartment Plant ProtectıonDivision in the Dept. Phytopathology
Code Term Level Type Language Credit hours/week
ZBK 602
Spring Ph.D. Opt. Turkish Lecture Lab Credit ECTS Credit2 2 3 10
Course Prerequisities
No
Name of Instructors
Assist. Prof.Dr. Ayhan YILDIZ
Instructor Information
Course Objective and brief Description
Classification of soilborne fungal agents, conditions that effect their growth (plant rhisosphere population of microbial population, spermosphere, antibiotics, hyperparasites, competition, soil, air, pH), and host-pathogen interactions will be explained (effect and plant defence mechanisms). Soilborne fungal diseases and possibilities of control methods will be described.
Textbook and Supplementary Readings1 Methods for Research Soilborne Pathogenic Fungi,19922 Phytophthora Diseases Worldwide,19963 Principles and Practice of Managing Soilborne Plant Pathogens,19964 Advances in Verticillium Research and Disease Manegement,1997; Fusarium Species An Illustrated Manual for
Identification, 1983COURSE CALENDER/SCHEDULE
Week Lecture topics Practice/Lab/Field1 Introduction Isolation Techniques of Soilborne Fungi From
Soil2 The Soilborne Fungal Diseases In Turkey Characteristics and Structures of Soilborne
Fungi3 Verticillium Diseases Identification Techniques of Soilborne Fungi4 Fusarium Diseases Isolation Techniques Of Verticillium spp.
From soil5 Mechanisms Of Wilt Identification Techniques of Fusarium spp.6 Mechanisms Of Wilt Identification Techniques of Fusarium spp.7 Rhızoctonia spp. and AGs Identification Techniques of Rhizoctonia spp.
AGs.8 Exam9 Phytophthora Diseases Isolation of spores wet and dry sieving
method from soil 10 Colletotrichum Diseases Inoculum Production Techniques of Soilborne
Fungi11 Other Soilborne Fungal Diseases Inoculation Techniques and Inoculation of
diffrent fungi to the plants12 Control Methods Evaluation of inoculated plant and reisolation.13 Control Methods Evaluation of inoculated plant and reisolation.14 Final ExamCourse assessment will be weighed 40% for one quiz and 60% for the final exam. Depending on instructor’s prefrence, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURE Course Title Plant Disease ResistanceDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-604 Spring PhD Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Yrd. Doç. Dr. Ömer Erincik
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 [email protected]
Course Objective and brief Description
Plant disease resistance and its importance in plant disease management will be explained to the students. The types of plant disease resistance and plant and host interactions in mechanisms of plant disease resistance will be covered in details. Plant disease resistance genes and their structures and funtions will be studied by giving examples on different plant-host interactions. Techniques of developing disease resistant plants and varieties and use of disease resistant varieties in agriculture will be taught the students .
Textbook and Supplementary readings1 FRASER, R.S.S. Mechanisms of resistance to plant diseases. Kluwer Academic Publishers, Dordrecht, Boston and
London. 19852
VAN DER PLANK, J.E. Disease resistance in plants. Academic Press, New York, London. 1968. 3 Hammond-Kosack .K. E. and Jones, J. D. G. 1997. Plant Disease Resistance Genes. Annu. Rev.PlantPhysiol.
PlantMol. Biol. 1997. 48:575–6074 Leong S. A., Allen, C., and Triplett, E. W. Biology of Plant-Microbe Interactions Vol.3
COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1 Introduction to plant disease resistance; plant and host interactions; types of plant disease resistance
2 Genetics of plant disease resistance; gene for gene theory; (avr genes, resistant genes, vertical resistance, horizontal resistance)
3 Disease resistance genes, structure and functions I4 Disease resistance genes, structure and functions II5 Disease resistance genes, structure and functions III6 Disease resistance genes, structure and functions IV7 Methods for developing of disease resistance plants 8 Midterm9 Breeding for plant disease resistance 10 Gene transformation for disease resistance11 Breaking of plant disease resistance, new races of pathogens12 Systemic acquired resistance (SAR); Induced systemic resistance (ISR)13 Use of plant disease resistance in plant disease management 14 Final exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE
Course Title Mite TaxonomyDepartment Plant ProtectionDivision in the Dept. Entomology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ETSC CreditZBK-606 I (Spring) Ph.D. Obligatory Turkish 2 2 3 8Course Prerequisites None
Name of Instructors Assoc. Prof.Dr. İbrahim ÇAKMAK
Instructor Information
Adnan Menderes Üniversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 772 70 24 [email protected]
Course Objective and brief Description
Some important species of families in the subclass Acari and their general taxonomical features and the identification characteristics will be mentioned.
Textbook and Supplementary readings1 Jeppson, L.R., H.H. Keifer and E.W. Baker, 1975. Mites Injurious to Economic Plants. University of
California. Berkeley, California U.S.A., 614 pp.2 Krantz, G.W. 1978. A Manual Acarology. Oregon State University, Corvallis, Oregon 509p.3 Krantz, G.W. & Walter, D.E. 2009. A Manual of Acarology, 3rd edn. Texas Tech University Press,
Lubbock, TX.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction to Acarology
2 Discrimination features of the subclass Acari in the class of Arachnida and classification of order and superorder in the subclass Acari
3 General taxonomic characteristics of orders in the superorder Parasitiformes
4 Taxonomical features of order Mesostigmata
5 Taxonomical features and the identification characteristics in the Cohort Gamasina
6 Taxonomical features and the identification characteristics in the superfamilies Ascoidea and Dermanyssoidea
7 Taxonomical features and the identification characteristics in the superfamily Phytoseioidea
8 midterm exam
9 General taxonomic characteristics of orders in the superorder Acariformes
10 Taxonomical features of the important superfamilies in the order Trombidiformes
11 Taxonomical features and the identification characteristics in the Cohort Raphignathina
12 Taxonomical features of the important superfamilies in the order Sarcoptiformes
13 Taxonomical features and the identification characteristics in the Cohort Astigmatina
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
ZİRAAT FAKÜLTESİ
FACULTY of AGRICULTURE Course Title Fungus - Plant InteractionsDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK 614 II Spring Ph D Optional Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Prof. Dr. M. Timur Döken
Instructor Information
Address: Adnan Menderes Üniversitesi, Ziraat Fakültesi, Bitki Koruma Bölümü, Güney Kampüsü 09100 AYDIN - TÜRKİYETel: 0 256 772 70 22-23-24 / 1201 e-mail: [email protected] - [email protected]
Course Objective and brief Description
The course is designed to instruct the interactions between fungi and higher plants which involved during the occurrence and development of plant diseases. Major themes include the mechanisms used by fungi to penetrate and infect plants; effects of infection on plant physiology and mechanisms employed by plants to respond invasion.
Textbook and Supplementary readings1 Isaac, S., 1992. Fungal - Plant Interactions. Chapman and Hall, London, New York, Tokyo, Melbourne, Madras,
418 pp.2 Leong, S. A., C. Allen and E. W. Triplett, 2002. Biology of Plant-Microbe interactions Vol: 3. APS press, 376 pp.
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Inital contact between fungus and plant -
2 Fungal invasion (mechanism of penetration) -
3 Fungal invasion (host plant colonisation) -
4 Mechanism of disease resistance (mechanical barriers) -
5 Mechanism of disease resistance (biochemical resistance mechanisms) -
6 Effects of fungal invasion (changes in respiration of host plant) -
7 Effects of fungal invasion (changes in photosynthesis of host plant) -
8 Mid Term Exam -
9 Effects of fungal invasion (changes in water transportation of host plant) -
10 Effects of fungal invasion (changes in carbohydrate metabolism and translocation of host plant) -
11 Effects of fungal invasion (changes in nucleic acid and protein metabolism of host plant) -
12 Pathogen-induced changes in membrane permeability -
13 Effects of invasion on plant growth -
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Biotechnology and Plant ProtectionDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-620 II Spring PhD Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors Prof. Dr. Kemal BENLİOĞLU, Prof. Dr. Hüseyin BAŞPINAR, Doç. Dr. M. Nedim DOĞAN
Instructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 Aydın Tel: 256 [email protected]@[email protected]
Course Objective and brief Description
Course provides information on advances in application of agricultural biotechnology to controldiseases, pests and weeds of important crops. Genes involved in plant protection, commerciallyavailable transgenic plants in the World, advantages and disadvantages of transgenic crops andgood agricultural practices for genetically modified plants are also mentioned.
Textbook and Supplementary readings1 Gatehouse, A. M. R., V. A. Hilder and Boulter D. Plant Genetic Manipulation for Crop Protection, C.A.B.
International, 1992. ISBN 0-85198-707-9 2 Babaoğlu, M., E. Gürel, S. Özcan, 2002. Bitki Biyoteknolojisi, Cilt I, Doku Kültürü ve Uygulamaları. Selçuk
Üniversitesi Yayınevi, Konya.3 Özcan, S., E. Gürel, M. Babaoğlu, 2004. Bitki Biyoteknolojisi, Cilt II, Genetik Mühendisliği ve Uygulamaları.
Selçuk Üniversitesi Yayınevi, Konya.4 Donald D. Bills, D. D., 2006. Biotechnology and Plant Protection, Shain-Dow Kung Books, ISBN: 9810218338
COURSE CALANDER / SCHEDULEWeek Lecture topics
1 Introduction to Agricultural Biotechnology
2 Basic information on molecular techniques and gene transfer
3 Genes involved in plant protection
4 Transgenic microorganisms and agricultural practices
5 Genes for resistance to plant diseases and genetically modified plants
6 Genes for resistance to agricultural pests and genetically modified plants
7 Agricultural practices to control pests and genetically modified plants
8 Quiz
9 Advantages and disadvantages of GMOs resistant to pests
10 General information on herbicides and genes for resistance to herbicides
11 Agricultural practices to control weeds and GMOs
12 Advantages and disadvantages of GMOs resistant to herbicides
13 Regulations on GMOs in Turkey and the world
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Modern Diagnostic Techniques in PhytobacteriologyDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-622 II Spring PhD Opt. Turkish 2 2 3 10Course Prerequisites To be graduated from Plant Protection Dept.
Name of Instructors Prof. Dr. Kemal BENLİOĞLU
Instructor Information
Adnan Menderes Ünversitesi Ziraat Fakültesi 09100 AydınTel: 256 7727023 [email protected]
Course Objective and brief Description
The course aims at teaching the students to apply serological (double diffusion, ELISA,immunofluorscens) and molecular (PCR, BioPCR, RepPCR, Realtime PCR) diagnostictechniques for detection and identification of phytopathogenic prokaryotes in symptomatic andsymptomless plant propagating material and pure cultures.
Textbook and Supplementary readings1 Schaad, N. W. J. B. Jones, W. Chun, Laboratory Guide for Identification of Plant Pathogenic Bacteria, APS Press,
St. Paul, Minnesota, ISBN-0-89054-263-5 2 Gülmezoğlu E., S. Ergüven, 1994. İmmünoloji, Hacettepe Taş Kitapçılık, Ankara ISBN:975-7731-12-93 Maniatis, T. A., E. F. Fritsch, J. Sambrook, 1982. Molecular Cloning: A Laboratory Manual. Cold Spring Harbor
Laboratory, NY.4 http://www.seedtest.org/en/home.html
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Use of diagnostic and identification tests forPhytopathogenic prokaryotes Sample preparation
2 Serology Preparation of reagents for serological tests
3 Classical serological tests (Double diffusion, slideagglutination) Classical serological assays
4 Immunofluorescens Immunofluorescent staining
5 ELISA ELISA
6 Immunoelectrophoresis Immunoelectrophoresis
7 Bacteriophages and diagnostic assays Bacteriophage assays
8 Quiz
9 Molecular techniques DNA extraction
10 Polymerase Chain Reaction PCR assay
11 Rep, PCR, Box-PCR, BioPCR PCR assay
12 RealTime PCR Bio PCR assay
13 Advantages and disadvantages of assays and their practialuses Evaluation of assays
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRICULTURE Course Title Fungicide ResistanceDepartment Plant ProtectionDivision in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-624 II (Spiring) PhD Opt. Turkish 2 0 2 8Course Prerequisites Fungicides (ZBK-523) should be taken.
Name of Instructors
Prof. Dr. Seher Benlioğlu
Instructor Information
Adnan Menderes University, Faculty of Agriculture , Plant Protection Depart., [email protected]
Course Objective and brief Description
Course aims to give information on fungicide resistance. Course also contains basic information on fungicide groups, their mechanism of actions and risk of resistance.Countmeasures for avoiding fungicide resistance and effective usage strategies of fungicides are also mentioned by giving examples in the field of plant protection.
Textbook and Supplementary readings1 Dekker, J. and S.G. Georgopoulos, 1982. Fungicide resistance in crop protection, Wageningen, 264 p.2 Dekker, J., L.C. Davidse, A. J. Gielink, J.G. M. van Nistelroy, M. A. de Waard, 1982. Fungicide resistance in crop
protection, Practical course, Wageningen,3 http://www.pesticides.gov.uk/uploadedfiles4
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Chemical control of fungal diseases
2 Socio-economic impact of fungicide resistance
3 Detection of fungicide resistance
4 Mechanism of action of fungicides, cross-resistance
5 Resistance to benzimidazole compounds
6 Resistance to dicarboximide fungicides
7 Resistance to ergosterol- biosynthesis inhibitors
8 Quiz
9 Resistance to ergosterol- biosynthesis inhibitors
10 Resistance to acylalanines
11 Estimation of the fungicide resistance
12 Fungicide resistance and microbial balance
13 Countmeasures for avoiding fungicide resistance
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of Agriculture Course Title Plant-Herbicide InteractionsDepartment Plant ProtectionDivision in the Dept. Phytopathology (Weed Science)
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditZBK-640 II PhD Opt. Turkish 3 0 3 10Course Prerequisites None
Name of Instructors
Dr. M. Nedim DOĞAN
Instructor Information
ADÜ, Ziraat Fak., Aydin-Turkey, [email protected]
Course Objective and brief Description
The lecture concerns the physiological processes occurring after herbicide application, mode and site of action of herbicides, retention, absorption and metabolisation of herbicides, herbicide selectivity based on herbicide groups.
Textbook and Supplementary readings1 Principles of Weed Science2 Weed management 3 Integrierte Pflanzenschutz4 Unkrautbekaempfung
COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field
1 Introduction
2 Techniques of herbicide application
3 Relationhsips between plant morphology and herbicide efficacy
4 Relationships between physichochemichal properties of herbicides and efficacy
5 Factors influencig deposition and retention
6 Factors influencing uptake and translocation
7 Factors influencing metabolisation
8 Exam
9 Uptake, translocation and metabolisation of different herbicide groups
10 Uptake, translocation and metabolisation of different herbicide groups
11 Site of herbicide action and selectivity
12 Site of herbicide action and selectivity
13 Site of herbicide action and selectivity
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of AGRİCULTURAL Course Title Plant Virus Disease Control
Department Plant Pathology
Division in the Dept. Phytopathology
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
ZBK 644 II (spring) PhD Optional Turkish 3 0 3 10Course Prerequisites
Name of Instructors Serap AÇIKGÖZ
Instructor Information Adnan Menderes University Agricultural Faculty Plant Protection Department 09100 [email protected]
Course Objective and brief Description
The lesson has cover that genetically engineered virus resistant plants, besides classical control methods as a propagation of virus eliminated plant, exclusion of plant viruses, vector control to prevent of transmission, cross protection and breeding for resistance to plant virus. For this aim that biochemistry of resistance to plant viruses and mechanisms of resistance are explained. However coat protein , antisense RNA , replicase mediated resistance, ribozyme mediated resistance, satellite RNA mediated resistance and gene inactivation and alternative strategies for engineering virus resistance in plants are expressed.
Textbook and Supplementary readings1 Hadidi A., Khetarpal R.K. and Koganezawa H., Plant Virus Disease Control APS Pres St. Paul, Minnesota2 Agrios, G.N. 1990 Plant Diseasea Caused by Viruses ,Chapter fourteen in:Plant Pathology34
COURSE CALANDER / SCHEDULE
Week Lecture topics Practice/Lab/Field
1Economic importance, strategies of control Quarantine and certification ,exclusion of plant viruses
2 Biochemistry of resistance to plant viruses
3 Virus elimination by meristem tip culture and tip micrografting
4 Breeding for resistance to plant viruses
5 Control of plant virus disease by cross-protection
6 Control of vectors to prevent of transmission
7 Advanced Diagnostic tool as an aid to controlling plant virus diseases
8 Mechanisms of resistance to plant viruses
9 Coat protein and replicase mediated resistance to plant viruses
10 Antisense RNA and Ribozyme mediated resistance to plant viruses
11 Satellite RNA and defective RNA mediated resistance to plant viruses
12 Movement protein mediated resistance to plant virus
13 Alternative strategies for engineering virus resistance in plants
(Gene silencing, host resistance gene, antibody mediated to resistance plant virus)
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
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