DOCSLIB.ORG

Course Catalogue Postgraduate Programme

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Course Catalogue Postgraduate Programme Publication No. CSKHPKV/DPGS/2012-2 COURSE CATALOGUE POSTGRADUATE PROGRAMME A COMPREHENSIVE PICTURE OF PG PROGRAMMES PGS Dr. K. K. Katoch DEAN, POSTGRADUATE STUDIES CSK HIMACHAL PRADESH KRISHI VISHVAVIDYALAYA PALAMPUR-176062 (HP) http://www.hillagric.ac.in/ P u b l i c a t i o n N o . C S K H P K V / D P G S / 2 0 1 2 - 2 Compilation assistance: Dr. Vidyasagar, Professor & Head, Department of Vegetable Science & Floriculture College of Agriculture, CSKHPKV Dr. N.K.Gupta,Professor & Head, Department of Biology & Environmental Sciences, College of Basic Sciences, CSKHPKV Dr. Neena Vyas, Associate Professor (Home Science) Department of Agricultural Engineering, CSKHPKV Dr. Adarsh Kumar, Associate professor Department of Veterinary Surgery Dr. GCN College of Veterinary & Animal Sciences, CSKHPKV PREFACE Education is a key for human beings to prosper and proliferation of the educational institutions is an outcome of the same. Elementary, secondary and higher educations are its various forms which make a man suitable for different levels of his acceptance in the society and ultimately type of livelihood. Specialized knowledge of a subject is essential to support the society in real time in terms of innovations and their upgradation. The main aim of educational institutions is to generate a good quality human resource. Himachal Pradesh Krishi Vishvavidyalaya came into existence in the year 1978, under the policy of Government of India to have at least one Agricultural University in each state to cater the needs in agricultural education, research and extension. Presently, the University has four colleges i.e. College of Agriculture, Dr. G. C. Negi College of Veterinary and Animal Sciences, College of Home Science and College of Basic Science. The University has a strong postgraduate programme with Masters’ Programmes in 32 disciplines: 12 in Agriculture, 13 in Veterinary and Animal Sciences, three in Home Science, and four in Basic Sciences. Likewise, doctoral programme is run in 19 disciplines: 8 in Agriculture, 8 in Veterinary and Animal Sciences, 1 in Home Science and 2 in Basic Science. University is following the semester system and each student plans his own programme of work in consultation with an Advisory Committee. As per ICAR’s 4 th Deans’ Committee recommendations for Uniform Course Curricula in agriculture throughout the country, this University has also adopted new pattern for different programmes. With the implementation of recommendations, the course contents of each course have been revisited and upgraded to meet the present day needs of the state with uniformity at national level. To promote inter institutional interaction amongst students an MoU has been signed with Punjab Agricultural University, Ludhiana and CSKHPKV, Palampur under which Ph.D. students of one University in the disciplines of Agricultural Economics, Food Science & Nutrition, and Vegetable Science will study during the 1 st semester of their degree programmes at the other University. The contents of the courses were finalized after discussion at various fora and approval by the Academic Council of the University. I thank all the Deans and Heads of Departments and faculty, who made whole-hearted efforts in preparing / revising the course contents. Special thanks are due to Drs. Vidyasagar, N.K. Gupta, Adarsh Kumar and Neena Vyas for facilitating the job of compilation at University level. I place on record special thanks to Dr. S.K. Sharma, Hon’ble Vice-Chancellor for constant encouragement and support. Thanks are due to all staff members in my office for assistance. Hope this course catalogue will certainly help faculty in teaching the various postgraduate courses prudently and students will perform par-excellent at National and International Fora of competitions. Place : Palampur Date : November 11, 2012 (Dr.K.K.Katoch) Dean, Postgraduate Studies CSKHPKV, Palampur TABLE OF CONTENTS A. AGRICULTURE 3 AGRICULTURAL BIOTECHNOLOGY ................................................................................................ 4 AGRICULTURAL ECONOMICS, EXTENSION EDUCATION & RURAL SOCIOLOGY .............. 13 A. AGRICULTURAL ECONOMICS ............................................................................................. 15 B. EXTENSION EDUCATION ...................................................................................................... 25 C. SOCIOLOGY ............................................................................................................................. 32 AGRICULTURAL ENGINEERING ..................................................................................................... 34 AGRONOMY, FORAGES & GRASSLAND MANAGEMENT .......................................................... 39 AGRONOMY ......................................................................................................................................... 41 CROP IMPROVEMENT: PLANT BREEDING & GENETICS ........................................................... 50 ENTOMOLOGY .................................................................................................................................... 69 HORTICULTURE (FRUIT SCIENCE) ................................................................................................. 83 PLANT PATHOLOGY .......................................................................................................................... 92 SEED SCIENCE & TECHNOLOGY ................................................................................................... 102 SOIL SCIENCE .................................................................................................................................... 108 TEA HUSBANDRY AND AGROFORESTRY ................................................................................... 117 VEGETABLE SCIENCE AND FLORICULTURE ............................................................................. 122 B. BASIC SCIENCES BIOLOGY AND ENVIRONMENTAL SCIENCES ............................................................................ 130 A. BIOLOGY ................................................................................................................................. 131 B. ENVIRONMENTAL SCIENCES ............................................................................................ 141 C. PLANT PHYSIOLOGY ........................................................................................................... 146 CHEMISTRY AND BIOCHEMISTRY ............................................................................................... 151 A. CHEMISTRY ........................................................................................................................... 151 B. BIOCHEMISTRY ..................................................................................................................... 154 GEO-INFORMATICS .......................................................................................................................... 160 MICROBIOLOGY ............................................................................................................................... 161 PHYSICAL SCIENCES AND LANGUAGES .................................................................................... 168 1 CSKHPKV PG Course Catalogue 2012 C. HOME SCIENCE 173 FAMILY RESOURCE MANAGEMENT ............................................................................................ 174 FOOD SCIENCE AND NUTRITION .................................................................................................. 181 HOME SCIENCE EXTENSION & COMMUNICATION MANAGEMENT .................................... 191 HUMAN DEVELOPMENT ................................................................................................................. 194 D. VETERINARY & ANIMAL SCIENCES 200 ANIMAL GENETICS AND BREEDING........................................................................................... 201 ANIMAL NUTRITION ........................................................................................................................ 208 ANIMAL REPRODUCTION, GYNAECOLOGY & OBSTETRICS ................................................. 216 VETERINARY ANATOMY AND HISTOLOGY .............................................................................. 222 VETERINARY MEDICINE ................................................................................................................ 227 VETERINARY MICROBIOLOGY ..................................................................................................... 233 VETERINARY PARASITOLOGY ..................................................................................................... 242 VETERINARY PATHOLOGY ............................................................................................................ 247 VETERINARY PHARMACOLOGY AND TOXICOLOGY .............................................................. 251 VETERINARY PHYSIOLOGY AND BIOCHEMSITRY .................................................................. 255 A. VETERINARY PHYSIOLOGY............................................................................................... 256 B. VETERINARY BIOCHEMISTRY .......................................................................................... 263 VETERINARY PUBLIC HEALTH AND EPIDEMIOLOGY ............................................................ 268 VETERINARY SURGERY & RADIOLOGY ..................................................................................... 272
Load more

Recommended publications
  • Lipid Analysis of CO2-Rich Subsurface Aquifers Suggests an Autotrophy-Based Deep Biosphere with Lysolipids Enriched in CPR Bacteria
    The ISME Journal (2020) 14:1547–1560 https://doi.org/10.1038/s41396-020-0624-4 ARTICLE Lipid analysis of CO2-rich subsurface aquifers suggests an autotrophy-based deep biosphere with lysolipids enriched in CPR bacteria 1,2 3,4 1,3 3 3 Alexander J. Probst ● Felix J. Elling ● Cindy J. Castelle ● Qingzeng Zhu ● Marcus Elvert ● 5,6 6 1 7,9 7 Giovanni Birarda ● Hoi-Ying N. Holman ● Katherine R. Lane ● Bethany Ladd ● M. Cathryn Ryan ● 8 3 1 Tanja Woyke ● Kai-Uwe Hinrichs ● Jillian F. Banfield Received: 20 November 2018 / Revised: 5 February 2020 / Accepted: 25 February 2020 / Published online: 13 March 2020 © The Author(s) 2020. This article is published with open access Abstract Sediment-hosted CO2-rich aquifers deep below the Colorado Plateau (USA) contain a remarkable diversity of uncultivated microorganisms, including Candidate Phyla Radiation (CPR) bacteria that are putative symbionts unable to synthesize membrane lipids. The origin of organic carbon in these ecosystems is unknown and the source of CPR membrane lipids remains elusive. We collected cells from deep groundwater brought to the surface by eruptions of Crystal Geyser, sequenced 1234567890();,: 1234567890();,: the community, and analyzed the whole community lipidome over time. Characteristic stable carbon isotopic compositions of microbial lipids suggest that bacterial and archaeal CO2 fixation ongoing in the deep subsurface provides organic carbon for the complex communities that reside there. Coupled lipidomic-metagenomic analysis indicates that CPR bacteria lack complete lipid biosynthesis pathways but still possess regular lipid membranes. These lipids may therefore originate from other community members, which also adapt to high in situ pressure by increasing fatty acid unsaturation.
    [Show full text]
  • And Wildlife, 1928-72
    Bibliography of Research Publications of the U.S. Bureau of Sport Fisheries and Wildlife, 1928-72 UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF SPORT FISHERIES AND WILDLIFE RESOURCE PUBLICATION 120 BIBLIOGRAPHY OF RESEARCH PUBLICATIONS OF THE U.S. BUREAU OF SPORT FISHERIES AND WILDLIFE, 1928-72 Edited by Paul H. Eschmeyer, Division of Fishery Research Van T. Harris, Division of Wildlife Research Resource Publication 120 Published by the Bureau of Sport Fisheries and Wildlife Washington, B.C. 1974 Library of Congress Cataloging in Publication Data Eschmeyer, Paul Henry, 1916 Bibliography of research publications of the U.S. Bureau of Sport Fisheries and Wildlife, 1928-72. (Bureau of Sport Fisheries and Wildlife. Kesource publication 120) Supt. of Docs. no.: 1.49.66:120 1. Fishes Bibliography. 2. Game and game-birds Bibliography. 3. Fish-culture Bibliography. 4. Fishery management Bibliogra­ phy. 5. Wildlife management Bibliography. I. Harris, Van Thomas, 1915- joint author. II. United States. Bureau of Sport Fisheries and Wildlife. III. Title. IV. Series: United States Bureau of Sport Fisheries and Wildlife. Resource publication 120. S914.A3 no. 120 [Z7996.F5] 639'.9'08s [016.639*9] 74-8411 For sale by the Superintendent of Documents, U.S. Government Printing OfTie Washington, D.C. Price $2.30 Stock Number 2410-00366 BIBLIOGRAPHY OF RESEARCH PUBLICATIONS OF THE U.S. BUREAU OF SPORT FISHERIES AND WILDLIFE, 1928-72 INTRODUCTION This bibliography comprises publications in fishery and wildlife research au­ thored or coauthored by research scientists of the Bureau of Sport Fisheries and Wildlife and certain predecessor agencies. Separate lists, arranged alphabetically by author, are given for each of 17 fishery research and 6 wildlife research labora­ tories, stations, investigations, or centers.
    [Show full text]
  • Full Proposal
    FUNDING APPLICATION FOR YOUNG RESEARCH TEAMS - PN-II-RU-TE-2014-4 This document uses Times New Roman font, 12 point, 1.5 line spacing and 2 cm margins. Any modification of these parameters (excepting the figures and their captions), as well as exceeding the maximum number of pages set for each section will lead to the automatic disqualification of the application. The imposed number of pages does not contain the references; these will be written on additional pages. The black text must be kept, as it marks the mandatory information and sections of the application. CUPRINS B. Project leader ................................................................................................................................. 3 B1. Important scientific achievements of the project leader ............................................................ 3 B2. Curriculum vitae ........................................................................................................................ 5 B3. Defining elements of the remarkable scientific achievements of the project leader ................. 7 B3.1 The list of the most important scientific publications from 2004-2014 period ................... 7 B3.2. The autonomy and visibility of the scientific activity. ....................................................... 9 C.Project description ....................................................................................................................... 11 C1. Problems. ................................................................................................................................
    [Show full text]
  • Carlson Udel 0060D 13047.Pdf
    SYNTHETIC CARBON FIXATION FOR IMPROVED MICROBIAL FERMENTATION YIELDS by Ellinor Dorothee Carlson A dissertation submitted to the Faculty of the University of Delaware in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Chemical Engineering Summer 2017 © 2017 Ellinor Dorothee Carlson All Rights Reserved SYNTHETIC CARBON FIXATION FOR IMPROVED MICROBIAL FERMENTATION YIELDS by Ellinor Dorothee Carlson Approved: __________________________________________________________ Abraham M. Lenhoff, Ph.D. Chair of the Department of Chemical & Biomolecular Engineering Approved: __________________________________________________________ Babatunde A. Ogunnaike, Ph.D. Dean of the College of Engineering Approved: __________________________________________________________ Ann L. Ardis, Ph.D. Senior Vice Provost for Graduate and Professional Education I certify that I have read this dissertation and that in my opinion it meets the academic and professional standard required by the University as a dissertation for the degree of Doctor of Philosophy. Signed: __________________________________________________________ Eleftherios T. Papoutsakis, Ph.D. Professor in charge of dissertation I certify that I have read this dissertation and that in my opinion it meets the academic and professional standard required by the University as a dissertation for the degree of Doctor of Philosophy. Signed: __________________________________________________________ Maciek R. Antoniewicz, Ph.D. Member of dissertation committee I certify that I have read this dissertation and that in my opinion it meets the academic and professional standard required by the University as a dissertation for the degree of Doctor of Philosophy. Signed: __________________________________________________________ Wilfred Chen, Ph.D. Member of dissertation committee I certify that I have read this dissertation and that in my opinion it meets the academic and professional standard required by the University as a dissertation for the degree of Doctor of Philosophy.
    [Show full text]
  • Sarcoptes Scabiei, Psoroptes Ovis
    Mounsey et al. Parasites & Vectors 2012, 5:3 http://www.parasitesandvectors.com/content/5/1/3 RESEARCH Open Access Quantitative PCR-based genome size estimation of the astigmatid mites Sarcoptes scabiei, Psoroptes ovis and Dermatophagoides pteronyssinus Kate E Mounsey1,2, Charlene Willis1, Stewart TG Burgess3, Deborah C Holt4, James McCarthy1,5 and Katja Fischer1* Abstract Background: The lack of genomic data available for mites limits our understanding of their biology. Evolving high- throughput sequencing technologies promise to deliver rapid advances in this area, however, estimates of genome size are initially required to ensure sufficient coverage. Methods: Quantitative real-time PCR was used to estimate the genome sizes of the burrowing ectoparasitic mite Sarcoptes scabiei, the non-burrowing ectoparasitic mite Psoroptes ovis, and the free-living house dust mite Dermatophagoides pteronyssinus. Additionally, the chromosome number of S. scabiei was determined by chromosomal spreads of embryonic cells derived from single eggs. Results: S. scabiei cells were shown to contain 17 or 18 small (< 2 μM) chromosomes, suggesting an XO sex- determination mechanism. The average estimated genome sizes of S. scabiei and P. ovis were 96 (± 7) Mb and 86 (± 2) Mb respectively, among the smallest arthropod genomes reported to date. The D. pteronyssinus genome was estimated to be larger than its parasitic counterparts, at 151 Mb in female mites and 218 Mb in male mites. Conclusions: This data provides a starting point for understanding the genetic organisation and evolution of these astigmatid mites, informing future sequencing projects. A comparitive genomic approach including these three closely related mites is likely to reveal key insights on mite biology, parasitic adaptations and immune evasion.
    [Show full text]
  • Photosynthesis and Cellular Respiration
    Unit 4 - Photosynthesis and Cellular Respiration Topic Products and Reactants Best and Worst Colors for Photos nthesis " Light Dependent vs. Light Independent Reaction Organelles Responsible ADP VS. ATP Products and Reactants Photosynthesis Cellular Respiration Aerobic: C6H120 6 + O2 ~C02 + H20 + 36 ATP Anaerobic: Human: C6H1206~ CO 2 + lactic acid + 4ATP • Yeast: C6H1206~ CO 2 + ethyl alcohol + 4ATP Best and Worst • Colors for . Photosynthesis i Light Dependent vs. Light Independent Reaction Organelles Responsible ADP vs. AlP 8986 - 1 - Page 1 Nanre: _______________________________________ In animal cells, the energy to convert ADP to AlP comes directly from A) organic molecules C) sunlight B) inorganic molecules D) hormones 2) Which statement correctly describes part ofthe photosynthetic process in plants? A) Water is spili in the light reactions. B) Alcohol is produced by the light reactions. C) Oxygen is used in the dark reactions. D) Carbon dioxide is released in the dark reactions. 3) Which statement best describes one ofthe events taking p1ace in the ,chemical reaction represented below? ATPase H 0 + ATP --------~) ADP + P + energy 2 A) Photosynthesis is taking place, resulting in the storage ofenergy. B) Energy is being stored as a result ofaerobic respiratioIt C) Energy is being released fur metabolic activities. D) Fermentation is taking place, resulting in the synthesis ofAlP. 4) Which process results in muscle fatigue and cramping in humans? A) aerobic respiration C) lactic acid fermentation B) photosynthesis D) alcoholic fermentation
    [Show full text]
  • The Formation of a Gluconeogenesis System and Reductive Pentose Phosphate Pathway of CO2 Fixation in Ancient Hydrothermal Systems Sergey A
    : O tics pe ge n r A e c n c e Marakushev and Belonogova, Bioenergetics 2016, e o s i s B 5:2 Bioenergetics: Open Access DOI: 10.4172/2167-7662.1000141 ISSN: 2167-7662 Research Article Open Access The Emergence of Bioenergetics: The Formation of a Gluconeogenesis System and Reductive Pentose Phosphate Pathway of CO2 Fixation in Ancient Hydrothermal Systems Sergey A. Marakushev* and Ol’ga V. Belonogova Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, Moscow Region, Russia *Corresponding author: Marakushev SA, Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, Russia, Tel: 496-522-7772; E-mail: [email protected] Rec date: Apr 18, 2016; Acc date: Nov 08, 2016; Pub date: Nov 11, 2016 Copyright: © 2016 Marakushev SA et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Abstract The origin of phosphorus metabolism is one of the central problems in the context of the emergence of life on Earth. It has been shown that the C–H–O system can be transformed into a four- component C–H–O–P system with the formation of a gluconeogenesis path in a possible Archean hydrothermal condition under the influence of a phosphorus chemical potential. This system became the energy supply basis for protometabolism, and facilitated the formation of a new CO2 fixation cycle (the reductive pentose phosphate pathway). The modular design of central metabolism in the C–H–O–P system is derived from the parageneses (associations) of certain substances, and the emerging modules in turn associate with each other in certain physical and chemical hydrothermal conditions.
    [Show full text]
  • A Survey of Carbon Fixation Pathways Through a Quantitative Lens
    Journal of Experimental Botany, Vol. 63, No. 6, pp. 2325–2342, 2012 doi:10.1093/jxb/err417 Advance Access publication 26 December, 2011 REVIEW PAPER A survey of carbon fixation pathways through a quantitative lens Arren Bar-Even, Elad Noor and Ron Milo* Department of Plant Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel * To whom correspondence should be addressed. E-mail: [email protected] Received 15 August 2011; Revised 4 November 2011; Accepted 8 November 2011 Downloaded from Abstract While the reductive pentose phosphate cycle is responsible for the fixation of most of the carbon in the biosphere, it http://jxb.oxfordjournals.org/ has several natural substitutes. In fact, due to the characterization of three new carbon fixation pathways in the last decade, the diversity of known metabolic solutions for autotrophic growth has doubled. In this review, the different pathways are analysed and compared according to various criteria, trying to connect each of the different metabolic alternatives to suitable environments or metabolic goals. The different roles of carbon fixation are discussed; in addition to sustaining autotrophic growth it can also be used for energy conservation and as an electron sink for the recycling of reduced electron carriers. Our main focus in this review is on thermodynamic and kinetic aspects, including thermodynamically challenging reactions, the ATP requirement of each pathway, energetic constraints on carbon fixation, and factors that are expected to limit the rate of the pathways. Finally, possible metabolic structures at Weizmann Institute of Science on July 3, 2016 of yet unknown carbon fixation pathways are suggested and discussed.
    [Show full text]
  • Evolution of the First Metabolic Cycles
    Proc. Natl. Acad. Sci. USA Vol. 87, pp. 200-204, January 1990 Evolution Evolution of the first metabolic cycles (chemoautotrophy/reductive citric acid cycle/origin of life/pyrite) GUNTER WACHTERSHAUSER 8000 Munich 2, Tal 29, Federal Republic of Germany Communicated by Karl Popper, October 12, 1989 (received for review February 28, 1989) ABSTRACT There are two alternatives concerning the genobacter thermophilus (13), and Desulfobacter hydro- origin of life: the origin may be heterotrophic or autotrophic. genophilus (14) and also in the sulfur-associated archaebac- The central problem within the theory of an autotrophic origin teria Thermoproteus neutrophilus (15) and, partly demon- is the first process of carbon fixation. I here propose the strated, in Sulfolobus brierleyi (16). As suggested by Kandler hypothesis that this process is an autocatalytic cycle that can be and Stetter (16) and previously by Hartmann (17), it may be retrodictively constructed from the extant reductive citric acid considered to be of great antiquity and the evolutionary cycle by replacing thioesters by thioacids and by assuming that precursor ofthe oxidative Krebs cycle. It is here conjectured the required reducing power is obtained from the oxidative to be the extant candidate for the reconstruction of the formation of pyrite (FeS2). This archaic cycle is strictly archaic autocatalytic cycle of carbon fixation. chemoautotrophic: photoautotrophy is not required. The cycle The presently accepted form of the extant reductive citric is catalytic for pyrite formation and autocatalytic for its own acid cycle is shown in Fig. 1 in a somewhat unusual repre- multiplication. It is a consequence of this hypothesis that the sentation, twisted in an 8.
    [Show full text]
  • The Blood Sucking Lice (Phthiraptera: Anoplura) of Croatia: Review and New Data
    Turkish Journal of Zoology Turk J Zool (2017) 41: 329-334 http://journals.tubitak.gov.tr/zoology/ © TÜBİTAK Short Communication doi:10.3906/zoo-1510-46 The blood sucking lice (Phthiraptera: Anoplura) of Croatia: review and new data 1, 2 Stjepan KRČMAR *, Tomi TRILAR 1 Department of Biology, J.J. Strossmayer University of Osijek, Osijek, Croatia 2 Slovenian Museum of Natural History, Ljubljana, Slovenia Received: 17.10.2015 Accepted/Published Online: 24.06.2016 Final Version: 04.04.2017 Abstract: The present faunistic study of blood sucking lice (Phthiraptera: Anoplura) has resulted in the recording of the 4 species: Hoplopleura acanthopus (Burmeister, 1839); Ho. affinis (Burmeister, 1839); Polyplax serrata (Burmeister, 1839), and Haematopinus apri Goureau, 1866 newly reported for the fauna of Croatia. Thirteen species and 2 subspecies are currently known from Croatia, belonging to 6 families. Linognathidae and Haematopinidae are the best represented families, with four species each, followed by Hoplopleuridae and Polyplacidae with two species each, Pediculidae with two subspecies, and Pthiridae with one species. Blood sucking lice were collected from 18 different host species. Three taxa, one species, and two subspecies were recorded on the Homo sapiens Linnaeus, 1758. Two species were recorded on Apodemus agrarius (Pallas, 1771); A. sylvaticus (Linnaeus, 1758); Bos taurus Linnaeus, 1758; and Sus scrofa Linnaeus, 1758 per host species. On the remaining 13 host species, one Anoplura species was collected. The recorded species were collected from 17 localities covering 17 fields of 10 × 10 km on the UTM grid of Croatia. Key words: Phthiraptera, Anoplura, Croatia, species list Phthiraptera have no free-living stage and represent Lice (Ferris, 1923).
    [Show full text]
  • Current Knowledge of Turkey's Louse Fauna
    212 Review / Derleme Current Knowledge of Turkey’s Louse Fauna Türkiye’deki Bit Faunasının Mevcut Durumu Abdullah İNCİ1, Alparslan YILDIRIM1, Bilal DİK2, Önder DÜZLÜ1 1 Department of Parasitology, Faculty of Veterinary Medicine, Erciyes University, Kayseri 2 Department of Parasitology, Faculty of Veterinary Medicine, Selcuk University, Konya, Türkiye ABSTRACT The current knowledge on the louse fauna of birds and mammals in Turkey has not yet been completed. Up to the present, a total of 109 species belonging to 50 genera of lice have been recorded from animals and humans, according to the morphological identifi cation. Among the avian lice, a total of 43 species belonging to 22 genera were identifi ed in Ischnocera (Philopteridae). 35 species belonging to 14 genera in Menoponidae were detected and only 1 species was found in Laemobothriidae in Amblycera. Among the mammalian lice, a total of 20 species belonging to 8 genera were identifi ed in Anoplura. 8 species belonging to 3 genera in Ischnocera were determined and 2 species belonging to 2 genera were detected in Amblycera in the mammalian lice. (Turkiye Parazitol Derg 2010; 34: 212-20) Key Words: Avian lice, mammalian lice, Turkey Received: 07.09.2010 Accepted: 01.12.2010 ÖZET Türkiye’deki kuşlarda ve memelilerde bulunan bit türlerinin mevcut durumu henüz daha tamamlanmamıştır. Bugüne kadar insan ve hay- vanlarda morfolojik olarak teşhis edilen 50 cinste 109 bit türü bildirilmiştir. Kanatlı bitleri arasında, 22 cinse ait toplam 43 tür Ischnocera’da tespit edilmiştir. Amblycera’da ise Menoponidae familyasında 14 cinste 35 tür saptanırken, Laemobothriidae familyasında yalnızca bir tür bulunmuştur. Memeli bitleri arasında Anoplura’da 8 cinste 20 tür tespit edilmiştir.
    [Show full text]
  • Chewing and Sucking Lice As Parasites of Iviammals and Birds
    c.^,y ^r-^ 1 Ag84te DA Chewing and Sucking United States Lice as Parasites of Department of Agriculture IVIammals and Birds Agricultural Research Service Technical Bulletin Number 1849 July 1997 0 jc: United States Department of Agriculture Chewing and Sucking Agricultural Research Service Lice as Parasites of Technical Bulletin Number IVIammals and Birds 1849 July 1997 Manning A. Price and O.H. Graham U3DA, National Agrioultur«! Libmry NAL BIdg 10301 Baltimore Blvd Beltsvjlle, MD 20705-2351 Price (deceased) was professor of entomoiogy, Department of Ento- moiogy, Texas A&iVI University, College Station. Graham (retired) was research leader, USDA-ARS Screwworm Research Laboratory, Tuxtia Gutiérrez, Chiapas, Mexico. ABSTRACT Price, Manning A., and O.H. Graham. 1996. Chewing This publication reports research involving pesticides. It and Sucking Lice as Parasites of Mammals and Birds. does not recommend their use or imply that the uses U.S. Department of Agriculture, Technical Bulletin No. discussed here have been registered. All uses of pesti- 1849, 309 pp. cides must be registered by appropriate state or Federal agencies or both before they can be recommended. In all stages of their development, about 2,500 species of chewing lice are parasites of mammals or birds. While supplies last, single copies of this publication More than 500 species of blood-sucking lice attack may be obtained at no cost from Dr. O.H. Graham, only mammals. This publication emphasizes the most USDA-ARS, P.O. Box 969, Mission, TX 78572. Copies frequently seen genera and species of these lice, of this publication may be purchased from the National including geographic distribution, life history, habitats, Technical Information Service, 5285 Port Royal Road, ecology, host-parasite relationships, and economic Springfield, VA 22161.
    [Show full text]