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ZOO VOLUNTEER REPORTpnhzp.gov.in/publication/zoo volunteer report.pdf · on a slide. Hence, (1) a...
Transcript of ZOO VOLUNTEER REPORTpnhzp.gov.in/publication/zoo volunteer report.pdf · on a slide. Hence, (1) a...
Himanshu Damle PNHZP, DARJEELING
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ZOO VOLUNTEER REPORT
Submitted by Himanshu Umesh Damle
4th YEAR B.V.Sc & A.H, BOMBAY VETERINARY COLLEGE, MUMBAI.
Submitted to Mr. Piar Chand, IFS
DIRECTOR, PADMAJA NAIDU HIMALAYAN ZOOLOGICAL PARK,
DARJEELING
Duration of work: 3rd January, 2016 to 16th January, 2016.
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ACKNOWLEDGMENT
Thanks to Dr. Uttam M. Pradhan, Mr. Vikas Chhetri, Mr. Shiromani
Syangden, Mr. Bhupen Roka, Mr. Purna Ghising, Mr. Deepak Roka, Mr.
Pradeep Singh and all the zoo staff for always being there to answer
my questions and helping me throughout my internship. Thanks to
Miss Upashna Rai for being an amazing internship director, guiding me
throughout the duration and explaining me every step of the work.
Finally I would like to thank the DIRECTOR Mr. Piar Chand, IFS for
allowing me to work at the PNHZP & CBC, DARJEELING, and to make of
this internship an unforgettable experience.
Date: 16th January, 2016 Himanshu Umesh Damle
4th YEAR B.V.Sc & A.H,
BOMBAY VETERINARY COLLEGE,
MUMBAI, MAHARASHTRA.
EMAIL: [email protected]
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TABLE OF CONTENTS
1. HIGH ALTITUDE HERBIVORE HAIR KEY
2. MATERIAL AND METHODS
3. RESULTS AND DISCUSSION
4. CONCLUSION
5. REFERENCES
6. RECOMMENDATIONS
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HIGH ALTITUDE HERBIVORE HAIR KEY
Mammalian hair is the best source to solve the biological problems like species identification
and diet analysis of endangered large carnivores because it is difficult to examine the intestinal
contents of the large carnivores. Mammalian hair has the three basic parts cuticle, cortex and
medulla. These parts undergo labs for the mounting technique. In mounting technique hairs are
placed on glass slide and mount is pasted on them then observed under photomicroscope to
examine hair cuticle and medullary structure under the high magnification. 100x to 400x
magnification is considered best for hair mounting technique. Take the sketch under
photomicroscope then compare it with reference book. This technique can be applied on large
and small carnivores, rodents and birds. By this study we can explore not only diet but species
identification, habitat analysis, predator-prey relationship and human-carnivores conflict can
also be assessed. Hair identification is not only employed solely by forensic scientists but is also
an important tool used by wildlife biologists, archeologists, anthropologists, and textile
conservators. Many researchers have investigated the morphological characteristics of hair,
devised keys, and reviewed the science of animal-hair identification (Appleyard, 1960; Day,
1966; Mathiak, 1938; Mayer, 1952; Moore, 1974; Oyer, 1939; Stains, 1958, 1962; Wildman,
1954, 1961; Williams, 1938). These works have aided in ecological studies, food-habit studies,
and law enforcement investigations by providing descriptions, keys, and photographs of the
microscopic characteristics of animal hairs. Hair characters used in the respective study are scale
length, scale width, hair length, and scale forms (Benedicts, 1957; Elgmork and Riiser, 1991).
There are some example from the literature i.e. (Brown, 1942) attempted to develop a
technique for identifying hairs and wools from various types of materials recovered from
archeological works. Hausman (1930) used hair examination in his laboratory to perform
archeological work, examine stomach remains, identify fur, and conduct legal proceedings.
Animal-hair studies also have been conducted within the field of forensic science. Peabody et al.
(1983) determined that the medullary fraction could be used to reliably distinguish between
dogs and cats. Hicks (1977), Deedrick and Koch (2004) described the microscopic characteristics
that can be used to discriminate between animal hairs that are most likely to be encountered in
forensic casework. The purpose of the present study is to use various method to identify the
animal hair of different high altitude herbivore species.
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MATERIAL AND METHODS
Study Area: Padmaja Naidu Himalayan Zoological Park, Darjeeling, West Bengal.
Duration of study: 03.01.2016- 15.01.2016
Sample Type: Hair
Hair samples were collected for the back portion of the following herbivores; HIMALAYAN GORAL, BLUE SHEEP, HIMALAYAN TAHR and MARKHOR and stored in Zip-lock plastic bags. Method:
1. Slide Preparation: Dry and Wet Mount. For the laboratory analysis dry mount is more convenient for preparation of slides. However, degree of curl and twist cannot be observed due to constraints in the mounting process.
2. Exterior texture and the overall colour of the hair was observed. This observation may be useful before the wet mount.
3. Several hairs were placed in parallel on the slide, to observe their texture and color so that they can be compared easily.
The wet mount is essential in hair analysis because of the refractive index of
XYLENE is close to that of the keratin in the hair. If the dry mount provides a view
of texture and color, wet mount provides the interior structure of the hair, such as
inclusion and pigment granules. Because the refractive index of mounting medium
plays the most significant role in viewing internal details.
Whole mount method: In whole mount method (1) several strands of hair were
placed in parallel on a microscope slide. (2) Two drops of XYLENE were added over
the hairs in order to clear the hair. (3)A cover slip was placed over the hairs and
they were scanned along their length at 100x, 200x and 400x under a compound
microscope to observe the morphological characteristics of the cuticle and
medulla, and the distribution of pigment in the cortex.
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MARKHOR
BLUE
SHEEP
HIMALAYAN
GORAL
HIMALAYAN
TAHR
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RESULTS AND DISCUSSION
1. HIMALAYAN GORAL (Nemorhaedus goral)
Cuticular pattern: Smooth at shaft and evenly crenate at tip. Cortex is thick.
Medulla characteristics: Multicellular composition, partially filled amorphous structure,
continuous pattern at shaft and fragmental pattern at tip and irregular margins.
The hair is variably pigmented along the length but densely at the tip.
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2. BLUE SHEEP (Pseudois nayaur)
Cuticular pattern: Smooth at shaft and evenly crenate all thoughout the shaft and tip.
Cortex is very thin all throughout the length of the hair.
Medulla characteristics: Multicellular composition, multiseriate partially filled towards
shaft and tip and filled lattice structure, continuous pattern at shaft and fragmental at
root and tip.
The hair possess nodes at certain sites along the shaft.
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3. HIMALAYAN TAHR (Hemitragus jemlachius)
][
Cuticular pattern: Smoth at shaft and densely serrated throughout the rest of the hair.
Cortex is moderately thick.
Medullary pattern: Multicellular composition, multiseriate partially filled lattice
structure in shaft region and amorphous partially filled lattice at tip and root,
continuous pattern along the whole root and shaft and fragmental at tip, smooth
margin at root and tip and irregular in shaft.
Pigmentation varies along the length of the hair with root usually non pigmented.
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4. MARKHOR (Capra falconeri)
Cuticular pattern: Smoot in root and tip region and evenly serrated in shaft region.
Cortex is thin.
Medullary pattern: Multicellular composition, multiseriate partially filled lattice
structure along the shaft and amorphous partially filled structure at root and tip,
continuous pattern along the shaft and fragmented at the tip, medullary margin is
variable along the length of the shaft ranging from irregular, straight and scalloped.
Pigmentation varies along the length of the hair but generally root is non pigmented.
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CONCLUSION
The current study was undertaken with the objective of developing rapid morphological
markers for differentiation of species based on their hair pattern that can be used in
forensic investigations as well as predator scat analysis. Poor to Moderate amount of
variation was found in studied hair parameters between species. Traits like colour &
cuticular pattern showed a good variation species but medullary pattern & cortex varied
very less between Himalayan Tahr, Bharal and Markhor. These findings indicates that it is
very hard to differentiate between related species based on any one trait of hair, instead
all the characters must be considered, it also underscores a need to further investigate
hair patterns in same & related species on a much larger scale, covering different
geographical areas to document the variations within hair patterns, so that definitive
markers could be established. Similar studies are essential for other species such as
Carnivores and species in trade. Other methods of microscopic analysis of Hair should be
undertaken like:
“Scale replicate method: It may be necessary to make a scale cast of the hair specimen in order to see the scale pattern more clearly, particularly in the identification of some animal hairs. It is often very difficult to directly observe scale patterns from hair strands on a slide. Hence, (1) a cast was made using nail polish to obtain the impression of the scales. (2) A thin layer of nail polish was spread on a microscope slide and a hair was placed in the middle of the slide. (3) It was allowed to stand for 15 minutes so that the nail polish could harden and the hair was then gently removed using forceps, (4) the scale pattern was observed under a compound microscope at 100x and 400x. Cuticular scale patterns were observed on casts (Day, 1966; David and Katz, 2005). Casts can be made by placing hairs over a thin layer of vinyl adhesive on a slide and left until the adhesive became dry (approximately 30 min). Then the hair was removed leaving a visible pattern of cuticular scale (Gurini, 1985).”
- HAIR MOUNTING TECHNIQUE: HELPFUL IN CONSERVATION OF CARNIVORES : SOHAIL ARIF CHATTHA, KHALID MAHMOOD ANJUM, MUHAMMAD ALTAF AND MUHAMMAD ZUBAIR YOUSAF.
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REFERENCES
APPLEYARD, H.M. (1960). GUIDE TO THE IDENTIFICATION OF ANIMAL FIBRES. WOOL INDUSTRIES RESEARCH ASSOCIATION, LEEDS, ENGLAND, PP. 188.
BENEDICT, F.A. (1957). HAIR STRUCTURE AS A GENERIC CHARACTER IN BATS. UNIVERSITY OF CLIFORNIA PUBLICATIONS IN ZOOLOGY 59: 285-548.
BROWN, F.M. (1942). THE MICROSCOPY OF MAMMALIAN HAIR FOR ANTHROPOLOGISTS, PROCEEDINGS OF THE AMERICAN PHILOSOPHICAL SOCIETY 85(3): 250-274.
CHATTHA ET AL (2011), HAIR MOUNTING TECHNIQUE: HELPFUL IN CONSERVATION OF CARNIVORES, FUUAST J. BIOL., 1(2): 53-59
DAY, M.G. (1966). IDENTIFICATION OF HAIR AND FEATHER REMAINS IN THE GUT AND FAECES OF STOAT AND WEASELS. J. ZOOL. 148: 201-217.
DE MARINIS, A.M. AND A. ASPREA. 2006. HAIR IDENTIFICATION KEY OF WILD AND DOMESTIC UNGULATES FROM SOUTHERN EUROPE. - WILDL. BIOL. 12: 305-320.
DE MARINIS, M.S.& ASPREA A.- HAIR IDENTIFICATION KEY OF WILD AND DOMESTIC UNGULATES FROM SOUTHERN EUROPE-WILDL. BIOL. 12: 305-320, 2006.
DEEDRICK, D.W. AND KOCH, S.L. (2004). MICROSCOPY OF HAIR PART 1: A PRACTICAL GUIDE AND MANUAL FOR HUMAN HAIRS, FORENSIC SCIENCE COMMUNICATIONS.
EDMONTON, AB. MOORE, T. D., SPENCE, L. E., DUGNOLLE, C. E. AND W. G. HEP WORTH. 1974. IDENTIFICATION OF THE DORSAL GUARD HAIRS OF SOME MAMMALS OFWYOMING. WYOMING GAME AND FISH DEPARTMENT CHEYENNE, WYOMING.
ELGMORK, K. AND RIISER, H. (1991). HAIR STRUCTURE OF BROWN BEARS FROM NORTH AMERICA AND SCANDINAVIA. CANDIAN JOURNAL OF ZOOLOGY 69: 2404-2409.
HARRISON, R. L. 2002. EVALUATION OF MICROSCOPIC AND MACROSCOPIC METHODS TO IDENTIFY FELID HAIR. WILDLIFE SOCIETY BULLETIN, 30(2): 412-419
HAUSMAN, L.A. (1920). STRUCTURAL CHARACTERISTICS OF THE HAIR OF MAMMALS. AMER. NAT., 54: 496-523.
HICKS, J.W. (1977). MICROSCOPY OF HAIRS: A PRACTICAL GUIDE AND MANUAL. FEDERAL BUREAU OF INVESTIGATION, U.S. GOVERNMENT PRINTING OFFICE, WASHINGTON, D. C.
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JOSHI H.R., ET AL- COMPARATIVE TRICHOLOGY OF COMMON WILD HERBIVORES OF INDIA- ADV. APPL. SCI. RES., 3(6):3455-3458, 2012.
KENNEDY, A.J. AND L. N CARBYN. IDENTIFICATION OF WOLF PREY USING HAIR AND HEATHER REMAINS WITH SPECIAL REFERENCE TO WESTERN CANADIAN NATIONAL PARKS. CANADIAN WILDLIFE SERVICE.
M. KAMALAKANNAN ET AL.-IDENTIFICATION OF DORSAL GUARD HAIRS SURFACE STRUCTURE OF INDIAN CHEVROTAIN MOSCHIOLA INDICA GRAY, 1852( TRAGULIDAE:ARTIODACTYLA:MAMMALIA)- BIOLIFE JOURNAL, 1(3): 155-158, 2013.
MATHIAK, H.A. (1938). A KEY TO THE HAIRS OF THE MAMMALS OF SOUTHERN MICHIGAN, JOURNAL OF WILDLIFE MANAGEMENT 2: 251-268.
MAYER, W.V. (1952). THE HAIR OF CALIFORNIA MAMMALS WITH KEYS TO THE DORSAL GUARD HAIRS OF CALIFORNIA MAMMALS. AMERICAN MIDLAND NATURALIST 48: 480-512.
MOORE, T.D., SPENCE, L.E. AND DUGNOLLE, C.E. (1974). IDENTIFICATION OF THE DORSAL GUARD HAIRS OF SOME MAMMALS OF WYOMING. W. G. HEPWORTH, ED. WYOMING GAME AND FISH DEPARTMENT, CHEYENNE, WYOMING.
OYER, E.R. (1939). A STUDY OF THE STRUCTURE OF HAIR AS A MEANS OF MAMMAL IDENTIFICATION. MASTER’S THESIS, FORT HAYS KANSAS STATE COLLEGE, KANSAS, UNITED STATES.
PEABODY, A.J., OXBOROUGH, R.J., CAGE, P.E. AND EVETT, I.W. (1983). THE DISCRIMINATION OF CAT AND DOG HAIRS, JOURNAL OF THE FORENSIC SCIENCE SOCIETY 23: 121-29.
STAINS, H.J. (1962). GAME BIOLOGY AND GAME MANAGEMENT: A LABORATORY MANUAL. BURGESS PUBLISHING COMPANY, MINNEAPOLIS, MINNESOTA.
WILDMAN, A.B. (1954). THE MICROSCOPY OF ANIMAL TEXTILE FIBRES, WOOL INDUSTRIES RESEARCH ASSOCIATION, LEEDS, ENGLAND.
WILLIAM O. OGARA ET AL- DETERMINATION OF CARNIVORES PREY BASE BY SCAT ANALYSIS IN SAMBURU COMMUNITY GROUP RANCHES IN KENYA- AFRICAN JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY VOL. 4(8), PP. 540-546, AUGUST 2010.
WILLIAMS, C.S. (1938). AIDS TO THE IDENTIFICATION OF MOLE AND SHREW HAIRS WITH GENERAL COMMENTS ON HAIR STRUCTURE AND HAIR DETERMINATION, JOURNAL OF WILDLIFE MANAGEMENT 2: 239-249.
WILSON, D. E. AND D-A. M. REEDER. 2005. A KEY FOR THE IDENTIFICATION OF GUARD HAIRS OF SOME ONTARIO MAMMALS.CANADIAN JOURNAL OF ZOOLOGY 71:587-591.
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DAVID AND KATZ, F.A. (2005). HAIR ANALYSIS. UNPUBLISHED.
GURINI, L.B. (1985). VALOR DIAGNO ´ STICODELPELAJE Y SUAPLICACIO ´NALESTUDIO DE LASINTERACCIONESTRO ´ FICAS, CON REFERENCIA A ESPE-CIES DEL DELTA BONAERENSE. DOCTORAL TESIS. UNIVERSIDAD NACIONAL DE LA PLATA. LA PLATA.
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RECOMMENDATIONS
A] The current study was done only for FOUR species of high altitude herbivores
but similar studies are needed to be undertaken for other species of high altitude
herbivores and also for other animals found in the high altitude areas including
carnivores which may aid in WILDLIFE CRIME INVESTIGATION (Eg. Trafficking and
skin trade) and also for research purpose.
B] The Bengal Natural History Museum boasts of a large number of specimens and
ANIMAL SKELETON MOUNTS would only enrich the collection. Skeleton
preparation could be done with Maceration method or by use of Dermestes
Beetles method.
C] Having observed the Conservation Breeding Program for Snow Leopards and
Red Pandas especially their management I would like to stress the need for
advanced diagnostic techniques and alternative techniques involved with breeding
of endangered species like Snow Leopard and Red Pandas which can be done by
following means-
1. Outsourcing tissues for HISTO-PATHOLOGICAL and MOLECULAR studies to
obtain a detailed microscopic evaluation and CONFIRMATORY DIAGNOSIS.
2. MEAT, WATER and SOIL testing for heavy metals and metabolites which
could affect the reproductive efficiency of the animals.
3. Setting up a culture of PLEURIPOTENT STEM CELLS of High Pedigree animals
with the prospect of recent advances in GAMETE DEVELOPMENT from stem
cells.
D] With the level of work being done at the PNHZP&CBC, Darjeeling it is crucial to
have a large Veterinary Hospital with minimum standard requirements.
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RED PANDA AT PNHZP
SNOW LEOPARD AT TOPKEY DARA
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RUFOUS SIBIA (Heterophasia capistrata)
HIMALAYAN BLUETAIL (Tarsiger rufilatus)
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SNOW LEOPARD ‘ZIMA’ AT CBC SHOWING FLEHMEN’S REACTION
SNOW LEOPARD ‘MORNING’ AT CBC
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RED PANDA CUB AT PNHZP
THE KANCHENJUNGA AS SEEN FROM PNHZP GUESTHOUSE AREA