|
Green, R. (1977). Toxoplasmosis: Blood disease in cats can strike man as well. Seattle Times.
|
|
|
Gripenberg, U. (1982). Comparison of chromosome banding patterns in the snow leopard (Panthera uncial) and in other felids. International Pedigree Book of Snow Leopards, (3).
|
|
|
Gvozdev, E. V., & Aliev, S. J. (1978). Red Data Book of Kazakh SSR. Alma-Ata: Kainar Publishing House.
|
|
|
Harder, T., & Toropova, V. (2000). Snow leopard conservation in Kyrghyzstan (Kyrgyzstan) (A. Kovshar, Ed.). IUCN (The World Conservation Union) Newsletter. IUCN (The World Conservation Union).
|
|
|
Heinen, J. T., & Leisure, B. (1993). A new look at Himalayan Fur Trade. Oryx, 27(4), 231–238.
|
|
|
Heinen, J. T., & Mehta, J. (2000). Emerging issues in legal and procedural aspects of buffer zone management with case studies from Nepal. Journal of Environment and Development, , 45–67.
Abstract: Buffer zones have been used as part of larger integrated conservation development programs to provide the benefits of ecological buffering of protected areas and socioeconomic buffering of neighboring communities. The authors explore the legal and managerial development of buffer zones internationally and with the passage of a conservation amendment in Nepal. A review of Nepal's buffer zone policies and several ongoing projects shows that there are several potential inherent problems. As written, regulations tend to expand the authority of the state by imposing restrictions in populated areas formerly not under control of park officials. Some participatory rights are provided to citizens, but management authority largely remains top down from the standpoint of local users. The authors question whether the managerial and research capacities exist to monitor buffer zones for their effectiveness both for conservation and development purposes and make several recommendations to improve implementation.
|
|
|
Helman, R. G., Russell, W. C., Jenny, A., Miller, J., & Payeur, J. (1998). Diagnosis of tuberculosis in two snow leopards using polymerase chain reaction (Vol. 10).
Abstract: The incidence of tuberculosis in zoological animal collections is low, and the disease is monitored through skin testing primarily in primates and artiodactylids.15,16 Other exotic animals are clearly at risk; tuberculosis has been described in elephants (Mycobacterium tuberculosis, M. bovis), rhinoceros (M. bovis), felids (M. bovis), foxes (M. bovis), birds (M. avium complex, M. tuberculosis, M. bovis), and reptiles, amphibians, and fish (cryophilic Mycobacterium species). 1,2,4,6,8-10,13,14,17 Mycobacterial infections in mammals and birds serve as a potential source of disease that can spread to other animals and to humans.7,15,16 In humans, M. bovis and M. tuberculosis are the most important mycobacteria in the USA.
|
|
|
Hillard, D. (1992). Launching a snow leopard study in the Qomolangma Nature Reserve. Snow Line, 10(1), 8–9.
|
|
|
Hunter, D. (1996). Mongolian-American Snow Leopard Project (Vol. xiv). Seattle: International Snow Leopard Trust.
|
|
|
Hunter, D. O. (1991). Science and Spirit:GIS tracks the elusive snow leopard. GeoInfo Systems, Jan, 21–28.
|
|