Burrard, G. (1925). Big Game Hunting in the Himalayas and Tibet. London: H. Jenkinns.
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Calle, P. P., Colter, S. B., Taylor, R. A., & Wright, A. M. (1989). Extramedullary thoracolumbar fungal (scopulariopsis-brumptii) abscesses in 2 snow leopard (Panthera-uncia) littermates. Journal of Zoo and Wildlife Medicine, 20(3), 346–353.
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D'Arcy, P. (2000). Endangered species being slaughtered in Russia's far east: WWF.
Abstract: The World Wide Fund for Nature (WWF) on Saturday accused Russia's far eastern regions of slaughtering endangered species for trade or to protect livestock, the Interfax news agency reported. The international organisation's Moscow branch told the news agency that it could no longer afford the cost of sending out teams of rangers to protect snow leopards from “revenge killing” and poaching.
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De-hao, L. (1989). Economic Fauna of Qinghai. Xining: Qinghai People's Publishing House.
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Du, L., & Ming, M. (2000). Wildlife in Xinjiang. Urumqi: Xinjiang Juvenile Publishing House.
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Du, Z. (1994). Proceedings of International Symposium on the Karakorum and Kunlun Mountains.. Beijing: China Meteorological Press.
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Edmonds, J. M. (1991). Systematic and Ecogeographic Studies on Crop Gene pools, 6. The distribution of Hibiscus L. section Furcaria in tropical East Africa. Edmonds, J.M.Systematic and Ecogeographic Studies on Crop Genepools, 6.The distribution of Hibiscus L.section Furcaria in tropical East Africa.viii + 60p, .
Abstract: This dissertation presents studies on the use of medetomidine, ketamine, and atipamezole for sedating and immobilizing mammals in captivity. The species studies were markhor (Capra falconeri megaceros), snow leopard (Panthera uncia), and blue fox (Alopex lagopus). The objectives of the study were to investigate the effects of the drugs, to compare the efficacy of the drugs, and to establish useful dose levels. Tables, charts, and graphs complement the text. Six papers on which the thesis is based are appended.
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Feng, Z. (1986). The mammals of Tibet. Beijing: Science Press.
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Feng, Z. J. (1986). The Mammals of Xizang. Beijing: Science Press.
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Fix, A. S., Riordan, D. P., Hill, H. T., Gill, M. A., & Evans, M. B. (1989). Feline panleukopena virus and subsequent canine-distemper virus infection in two snow leopards (Panthera uncia). Journal of Zoo and Wildlife Medicine, 20(3), 273–281.
Abstract: Two adult snow leopards (Panthera uncia), male and female, both with vaccinations current, became infected with feline panleukopenia virus (FPV) at the Blank Park Zoo, Des Moines, Iowa, in late 1988. Clinical signs included weakness, hemorrhagic feces, fever, seizures, and nasal discharge. Blood analysis revealed severe lymphopenia and mild anemia. A positive enzyme-linked immunosorbent assay (ELISA) test for FPV on fecal contents from the male leopard confirmed the diagnosis. In spite of intensive therapy, both animals died. Necropsy of the female, which survived for 1 wk after onset of signs, revealed intestinal crypt necrosis, pulmonary consolidation, necrotizing laryngitis, and diffuse lymphoid depletion. The male leopard, which lived 3 wk after onset of illness, had similar enteric and lymphoid lesions. In addition, there was a severe interstitial pneumonia, with syncytial cells containing eosinophilic intracytoplasmic inclusion bodies. Ultrastructural characteristics of these inclusions featured tubular structures consistent with a paramyxovirus. Although repeated virus isolation attempts from the affected lung were negative, polyclonal and monoclonal fluorescent antibody tests were strongly positive for canine distemper virus (CDV). Frozen paired sera from each leopard demonstrated very high acute and convalescing titers to FPV; both animals also seroconverted to CDV, with titers in the male leopard higher than those in the female. Additional tests for toxoplasmosis, feline infectious peritonitis, feline rhinotracheitis, feline calicivirus, feline leukemia, canine parainfluenza, and bovine respiratory syncytial virus were all negative. The neurologic signs present in these leopards remained unexplained, but may have been attributable to CDV infection. A feral cat trapped on zoo property had feces positive for FPV by ELISA. Although the specific contributions of FPV and CDV toward the development of this case are unknown, it is likely that initial FPV-induced immunosuppression allowed the subsequent development of CDV in these snow leopards. The likelihood that initial FPV infection came from feral cats underscores the importance of feral animal control on zoo premises.
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