Global ETD Search

41	Conservation genetics of the koala (Phascolarctos cinereus) in Queensland and Northeast New South Wales Kristen Lee Unknown Date (has links) The koala (Phascolarctos cinereus) is an iconic Australian marsupial that is the sole extant representative of the Family Phascolarctidae and forms part of the mammalian fauna in four Australian States and one Territory. There has been a significant decline in the range and distribution of the koala since European settlement, with habitat loss and its associated threats, including vehicle strikes, dog attacks and disease, continuing to reduce population numbers. Koalas provide the tourism industry and the Australian economy with revenue up to $1 billion per annum with 80 zoos and wildlife parks around the country displaying koalas. Koalas were introduced to a number of islands in southern Australia the early 20th century, in an attempt to ‘save’ them from near extinction due to habitat loss, hunting and disease. While populations on Queensland islands remain stable and require no management intervention, introduced populations on southern Australian islands show extremely low levels of genetic diversity yet have grown substantially and require constant monitoring and management to overcome overabundance and starvation associated with defoliation of food trees. The only known extant, naturally occurring, island population of koalas is on North Stradbroke Island in Southeast Queensland’s Moreton Bay. Infection with bacteria of the Family Chlamydiacae is at high prevalence in most koala populations but the resulting diseases are generally of low prevalence in koalas in Southeast Queensland and New South Wales. The role of the koala retrovirus (KoRV) in relation to infectious diseases is not fully understood, but it has been identified from all northern koala populations and the majority of southern koala populations though, like chlamydial infection, it is not usually associated with high disease prevalence. The major histocompatability complex (MHC) is a gene family in mammals that is vital for its role in disease resistance and so may play a role in disease susceptibility in koalas. This study provided detailed information about the genetic diversity and population structuring of the mainland koala population in Southeast Queensland, which is amongst the most threatened of koala populations because of anthropogenic disturbance. Microsatellite genotyping of 512 samples and mitochondrial DNA sequencing of a subset of 77 samples collected from sick, injured and dead koalas showed that in Southeast Queensland koalas had high microsatellite diversity (12.8 alleles/locus, He = 0.81) and at least 16 mitochondrial haplotypes. Population genetic analysis revealed six genetically differentiated clusters consistent with the existence of biogeographic and anthropogenic barriers like rivers and highways. The Koala Coast, an area in Southeast Queensland that provides habitat for one of the most significant natural koala populations in Australia was found to be genetically distinct from adjacent areas; the rapid decline of this population means it meets the criteria for classification as “Endangered Wildlife” under Queensland’s Nature Conservation Act 1992. Climatic patterns of warming and cooling that produced the disappearance and reappearance of rainforests is likely to have affected long term koala distribution in coastal eastern Australia – expansion into drier forests when they were available and restriction to refugia during times of rainforest dominance. The koala population in Northeast New South Wales, which has conventionally been classified as a different subspecies to the koalas in Southeast Queensland, has colonised an extensive part of the area since the destruction of the “Big Scrub” rainforest. This forest occupied about 75,000 ha before European settlement and would almost certainly have represented a natural barrier to the movement of koalas as it was unsuitable habitat due to its lack of suitable food trees. Population structuring analysis identified two major genetic clusters in the region, the northernmost of which was less differentiated from koalas sampled on the Gold Coast in Southeast Queensland than the southernmost cluster. The southern cluster, largely found around the city of Lismore, had significantly lower diversity than the northern cluster, consistent with a southward radiating colonisation pathway. Ninety-six percent (96%) of koalas in Northeast New South Wales shared the same mitochondrial DNA haplotype, which was the most common haplotype in Southeast Queensland. There was, therefore, little evidence to support the subspecies delineation of coastal koalas in Southeast Queensland and Northeast New South Wales. From a comparison between wild, mainland populations and two captive koala colonies in Southeast Queensland, genetic diversity in 106 captive koalas was found to be similar to the local wild populations (Dreamworld 9.2 alleles/locus, He = 0.75, Currumbin Wildlife Sanctuary 10.2 alleles/locus, He = 0.80). Microsatellite alleles in captive koalas were, in general, representative of the local wild populations and of similar frequencies, but the captive koalas possessed mitochondrial DNA haplotypes that were not found in the local wild koalas. Some of the original founders of the captive populations were not from Southeast Queensland so these different mitochondrial haplotypes are likely remnants of the koala genotypes at the original founders’ locations. The preservation of habitat and reduction of consequential threats to the koala’s long term survival in the wild are the most fundamental aspects of koala conservation in this region. However, the successful preservation of high genetic diversity at neutral loci in the captive colonies studied indicates that ex situ measures incorporating a captive breeding program could potentially be used as reservoirs for important genetic material should such an approach become necessary in the context of the drastic and accelerating decline towards local extinction of key Southeast Queensland koala populations. Urgent action would be essential to obtain a representative sample of current genetic diversity (both genomic and mitochondrial), given the drastic rate of decline. Island populations of organisms are expected to show reduced genetic diversity compared to their mainland counterparts because of factors such as founder effects and the increased susceptibility of small populations to the effects of genetic drift. A comparison of genetic diversity was made between the naturally occurring North Stradbroke Island koala population in Southeast Queensland and the introduced populations on St Bees, Brampton, Newry and Rabbit Islands in central Queensland with the mainland populations. As expected, the island populations had lower genetic diversity than mainland populations, however, the introduced St Bees Island population had higher mean number of alleles and expected heterozygosity (5.7 alleles/locus, He = 0.67) than the naturally occurring population on North Stradbroke Island (3.7 alleles/locus, He = 0.55). Anecdotal evidence suggests that the koala populations on Brampton, Newry and Rabbit Islands off the central Queensland coast were established by the unauthorised transfer of koalas from St Bees Island. Mitochondrial DNA haplotype analysis supports this claim however, the most likely explanations for the presence of at least four microsatellite alleles in the Brampton, Newry and Rabbit Island populations that were not found in St Bees Island koalas are that either there were additional introductions from elsewhere or that koalas were already present on these islands prior to the transfers from St Bees Island. A study on the prevalence of chlamydial and retroviral infection in captive and wild koalas showed that 100% of koalas in this study had retroviral and chlamydial infection in at least one tested swab site. None of the captive animals showed clinical signs of disease despite the high prevalence of infection. Signs of disease were evident in some wild koalas, which, in some cases, was the reason for their admission to Moggill Koala Hospital for treatment. In an attempt to understand the immunological mechanisms underlying the apparent disease resistance of koalas which usually limits latent infection progressing to clinical disease states, the MHC genes of koalas were investigated. Low variation at MHC loci is thought to increase susceptibility to infectious diseases because fewer foreign antigens are recognised. The first class II sequences identified from koalas are presented here and showed variation. Variation was also detected at exon 3 of class I, with evidence for at least three class I loci. The koala is a unique Australian marsupial that makes a nationally significant contribution to the Australian economy annually. The results of this study have important conservation and management implications for koala populations in Southeast Queensland and Northeast New South Wales - particularly declining populations in Southeast Queensland - as well as being informative on other aspects of the species’ biology and for mammalian conservation genetics, generally. Koala Genetic Island Captive Chlamydiacae Mhc Habitat Fragmentation
42	Would you leave them behind? : disaster preparedness for live animals in museum collections / Stokke, Michelle M. January 2007 (has links) (PDF) Final Project (M.A.)--John F. Kennedy University, 2007. / "June 15, 2007"--T.p. Includes bibliographical references (p. 69-74).
43	Nosing behaviour in captive harbour seals (Phoca vitulina concolor) : implications for olfaction and affiliation / Hanlan, Suzanne K., January 1998 (has links) Thesis (M. Sc.), Memorial University of Newfoundland, 1999. / Bibliography: p. 169-179.
44	Autentiseringsmetoder i trådlösa nätverk : Jämförelse av autentiseringsportaler i öppna trådlösa nätverk Modig, Dennis January 2011 (has links) Trådlösa nätverk finns idag överallt och behovet av ständig internetaccess ökar för varje dag. Behovet av bra mjukvaror för att erbjuda säker trådlös internetaccess och samtidigt kunna ta betalt för det är ett problem. Denna rapport är en funktionsjämförelse av produkter som gör det möjligt att introducera spårbarhet och säkerhet för användarna i ett trådlöst nätverk. Mikrotik RouterOS jämfördes emot Zeroshell där funktionaliteten sedan sattes i en verklighetsbaserad kontext och möjliga implementationer presenterades. Resultatet påvisade att Mikrotik RouterOS passade bättre för de flesta scenarier än exempelvis Zeroshell. Men att Zeroshell istället har mycket bra stöd för katalogtjänster. hotspot captive portal autentisering trådlöst nätverk Computer Sciences Datavetenskap (datalogi)
45	Time- and Dose-related Effects of a Gonadotropin-releasing Hormone Agonist and Dopamine Antagonist on Reproduction in the Northern Leopard Frog (Lithobates pipiens) and the Western Clawed Frog (Silurana tropicalis) Vu, Maria January 2017 (has links) The recent decline and disappearance of many amphibians around the world is thought to be the sign of an impending sixth mass extinction that is driven by disease, habitat loss and pollution. Reproductive technologies are now required to establish captive colonies followed by reintroduction into suitable habitats. The AMPHIPLEX method is a hormone mixture that has successfully stimulated spawning in several amphibians. However, its extensive application requires further experimentation and knowledge regarding the basic neuroendocrine control of reproduction in amphibians. The role of the catecholamine neurotransmitter dopamine in the regulation of spawning and gonadotropin synthesis was investigated using multiple time- and dose-related approaches in the field and laboratory. These end points were explored in two distantly-related frog species: the Northern leopard frog (Lithobates pipiens) and the Western clawed frog (Silurana tropicalis). Northern leopard frogs were injected during the natural breeding season with three doses of a gonadotropin-releasing hormone agonist (GnRH-A) (0.1 μg/g , 0.2 μg/g and 0.4 μg/g) alone and in combination with two doses of the selective dopamine receptor D2 antagonist metoclopramide (MET) (5 μg/g and 10 μg/g). Injected animals were allowed to breed in mesocosms in an outdoor field. Time to amplexus and oviposition were assessed, and egg mass release, incidences of amplexus, egg mass weight, total egg numbers and fertilization rates were measured. The results revealed no statistically significant interaction between GnRH-A and MET on amplexus and oviposition. A series of GnRH-A dose-response spawning studies were conducted in the Western clawed frog. The current findings indicate that partial ovulation, male sexual behavior and fertilization can be induced by 4 μg/g of GnRH-A alone and in combination with 10 μg/g of MET. This represents a first step towards understanding basic neuroendocrine reproductive mechanisms in this species. These spawning results were paired with a second end point which explored the molecular mechanisms of gonadotropin synthesis in response to GnRH-A and MET alone and in combination. Pituitary gene expression results in the Northern leopard frog indicate a potentiating action of MET when combined with GnRH-A on the mRNA levels of gonadotropin subunits 36 hours following injection. The postulated mechanisms of action are through the upregulation of gonadotropin-releasing hormone receptor 1 and the downregulation of dopamine receptor D2. Such gene expression pathways were similarly explored in the Western clawed frog, however no significant changes in pituitary gonadotropin and receptor gene expression were present at 12 hours post-injection. The hypothesized inhibitory action of dopamine was supported by pituitary gene expression analysis, but not by spawning outcome. The results from this study provide a fundamental framework for future time- and dose-response investigations to improve current spawning methods in amphibians. Amphibian Dopamine Gonadotropin-releasing hormone Captive breeding Spawning Conservation Reproduction
46	The Captive Animal Activity Tracking System: A Systematic Method for the Continuous Evaluation of Captive Animal Welfare. Kalafut, Kathryn Lynn 12 1900 (has links) Optimal animal welfare has been a long-term goal for captive animal institutions. To measure welfare a definition and identification of elements that make up welfare need to be established. Further, a method to measure welfare's elements that can be implemented into staff's daily routine is necessary to establish baseline levels and track changes in welfare. The goal of the proposed captive animal activity tracking system is to allow for the measurement of each element of welfare quickly, while providing information regarding the animal's current state of welfare and how changes to the animal's environment affect welfare. The data show that this system is effective in revealing behavioral patterns and changes in behavior that occurred in response to environmental changes. Measurement animal welfare zoo Captive wild animals. Animal welfare.
47	Breeding behavior of captive emperor penguins (Aptenodytes forsteri) Kiel, Mary Elizabeth 01 January 1983 (has links) Breeding behavior of captive Emperor Penguins (Aptenodytes forsteri) was observed at Sea World, San Diego, California during July, August, and September 1980, and April 1981. Emphasis was on displays, courtship, egg-laying, incubation, and care of chicks. I observed the trumpet display most often between birds of opposite sexes and I interpret it as a signal of sexual identity. I interpreted the sideways stare display as a signal of sexual identity important in pair bond maintenance. Three head movements studied shared several functions including comfort behavior and reduction of intraspecific aggression. My observations confirmed that the display walk occurs in Emperors and is used by males to attract females. The single note cry allows separated members of a pair to find each other. Results of an attempt to sex Emperor Penguins by vocalization are reported. Emperor penquin Zoo animals Captive wild animals Biology Life Sciences
48	Genetic admixture, inbreeding and heritability estimates in captive African cheetahs (Acinonyx jubatus) including linkage analysis for the King cheetah phenotype Sasidharan-Priyadersini, Sooryakanth 26 May 2013 (has links) This multifaceted study primarily aimed at understanding the genetic make-up of captive versus wild cheetah (Acinonyx jubatus) populations in South Africa, with a specific emphasis on a valuable gene pool of a recessive phenotype that is increasingly being maintained in captive population country-wide. The current literature on cheetah genetics has very little information on diversity levels of wild South African cheetahs, and no information on founder dynamics and genetic make-up of South African captive populations. Decisions on cheetah relocations are being made, implementing current conservation policy, from assumptions on origin and relatedness. This research compared population genetic parameters within the largest South African captive cheetah population to free-ranging Namibian and South African conspecifics. The study addressed concerns regarding excessive Namibian genetic introgression into the native captive population and established the extent of genetic variability and Namibian ancestry within the captive population. The study has attempted to address the rising concern among conservation officials with respect to illegal trade of wild-captured cheetahs, wild caught cheetahs that are sold as captive-bred after implanting a microchip. In addition to establishing routine parentage verification using genetic markers that are polymorphic in this species, this study established a technique powerful enough to estimate ancestry in cheetahs of unknown antecedents. The potential of spatial Bayesian clustering to differentiate the point of origin of unknown cheetahs was exploited and in addition, a database for future forensic efforts to address the problem of illegal trade was established. The captive population that was part of this dataset proved to be quite admixed, excepting for the King lineage which was distinct. The second aspect of this study investigated complex conditions such as development of gastritis, renal conditions and/or susceptibility to infections and its relation to pedigree and marker based inbreeding levels. Heritability values for important breeding traits were estimated from pedigree records of 532 cheetahs and are reported for the first time. Gastritis was weakly correlated to the expression of the King trait. Finally, a smaller cohort of the captive pedigree that segregates for a recessive colour variant called the King phenotype was tested for the assumption that the variation is a mutation of the tabby locus described in domestic cats. Genetic linkage analysis was done by testing microsatellite markers detected linked to Tabby for linkage to a conserved region in the cheetah that potentially codes for the King coat colour. Genetic linkage analysis was not detected between the King locus and the domestic cat microsatellite markers used for this study, with LOD scores remaining non-significant for all the markers. / Thesis (PhD)--University of Pretoria, 2011. / Production Animal Studies / unrestricted Captive african cheetahs Genetix admixture Genetic heratability Genetic inbreeding UCTD
49	Genetic Assessment of Native and Non-Native White-Tailed Deer (Odocoileus Virginianus) in the Southcentral U.S. Youngmann, Jordan L 14 December 2018 (has links) Population genetics of white-tailed deer (Odocoileus virginianus) have been influenced through human actions including the translocation of deer from across the United States in the 1900s and, recently, the creation of the captive-cervid industry, which uses animal husbandry to manipulate genetic variation. To assess the effects of these actions, I studied the genetic variation of free-range and captive populations of deer across the southcentral U.S. using a 14 microsatellite panel. In free-range populations I found genetic structure that divided deer west to east along the Mississippi River. Additionally, I found that captive populations were genetically distinct from geographically proximate free-range populations. However, after 2 generations of hybridization, this distinction disappeared. Finally, using both Bayesian clustering and multivariate approaches, I was able to identify a non-native individual from local free-range populations in southern Mississippi. Using these methods, wildlife managers can further investigate cases of hybridization between non-native deer and free-range populations. Captive-cervid industry population genetics hybridization restoration white-tailed deer
50	Determination of linkage and degree of relatedness in a captive population of American kestrels using DNA fingerprinting Cunningham, Heather V. January 1995 (has links) No description available. DNA fingerprinting. Captive wild birds. American kestrel -- Genetics.

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