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Camille Parmesan, Soule E., J. Terborgh (2000)
Continental Conservation: scientific foundations of regional reserve networks
H. Quigley, P. Crawshaw (1992)
A conservation plan for the jaguar Panthera onca in the Pantanal region of BrazilBiological Conservation, 61
J. Perner (2001)
Ecosystem Management: Applications for Sustainable Forest and Wildlife Resources, Boyce Mark S., Haney Alan (Eds.). Yale University Press, Magdeburg (1997), ISBN: 0-300-06902-2Limnologica, 31
D. Olson, E. Dinerstein (1998)
The Global 200: A Representation Approach to Conserving the Earth’s Most Biologically Valuable EcoregionsConservation Biology, 12
E. Wikramanayake, E. Dinerstein, J. Robinson, U. Karanth, A. Rabinowitz, David Olson, Thomas Mathew, Prashant Hedao, Melissa Conner, Ginette Hemley, D. Bolze (1998)
An Ecology‐Based Method for Defining Priorities for Large Mammal Conservation: The Tiger as Case StudyConservation Biology, 12
K. Redford, B. Richter (1999)
Conservation of Biodiversity in a World of UseConservation Biology, 13
W. Weber, A. Rabinowitz (1996)
A Global Perspective on Large Carnivore ConservationConservation Biology, 10
A. Rabinowitz (1991)
Jaguar : one man's battle to establish the world's first jaguar preserve
J. Callicott (1990)
Whither Conservation EthicsConservation Biology, 4
Jaguar Cars-US, the Prospect Hill Foundation, and software donations from the Environmental Systems Research Institute (ESRI)
C. Mann, M. Plummer (1995)
Noah's Choice: The Future of Endangered Species
(1991)
In search of an ecosystem approach to endangered species conservation. Pages 228-265 in
(2001)
El Jaguar en el nuevo milenio: una evaluacion de su estado, deteccion de prioridades y recomendaciones para la conservacion de los jaguares en America
J. Gundlach, Major Hutson, D. Lyall, J. Loring, Harry Ob, A. Stattersfield, M. Crosby, A. Long (1998)
Endemic Bird Areas of the World: Priorities for Biodiversity Conservation
(1997)
Importance of standardized terminology in habitat evaluation
(1996)
Environmental Systems Research Institute and DATA+
E. Dinerstein, David Olson, D. Graham, Avis Webster, Steven Primm, Marnie Bookbinder, G. Ledec (1995)
A Conservation Assessment of the Terrestrial Ecoregions of Latin America and the CaribbeanEnvironmental Conservation, 23
M. Hunter, Alan Hutchinson (1994)
The Virtues and Shortcomings of Parochialism: Conserving Species That Are Locally Rare, but Globally CommonConservation Biology, 8
(1991)
Coping with ignorance: the coarse-filter strategy for maintaining biodiversity. Pages 266-281 in
R. Zink, G. Barrowclough, J. Atwood, Rachelle Blackwell-Rago (2000)
Genetics, Taxonomy, and Conservation of the Threatened California GnatcatcherConservation Biology, 14
N. Myers, R. Mittermeier, C. Mittermeier, G. Fonseca, J. Kent (2000)
Biodiversity hotspots for conservation prioritiesNature, 403
J. Franklin (1993)
Preserving Biodiversity: Species, Ecosystems, or Landscapes?Ecological applications : a publication of the Ecological Society of America, 3 2
(1991)
From endangered species to biodiversity. Pages 227-246 in
World Resources Institute, and World Wildlife Fund. 1995. A regional analysis of geographic priorities for biodiversity conservation in Latin America and the Caribbean
Abstract: International conservation planning at the end of the twentieth century is dominated by coarse‐filter, supra‐organismal approaches to conservation that may be insufficient to conserve certain species such as the jaguar ( Panthera onca). If we are to retain broadly distributed species into the next century, we need to plan explicitly for their survival across their entire geographic range and through political boundaries while recognizing the variety of ecological roles the species plays in different habitats. In March 1999 the Wildlife Conservation Society sponsored a priority‐setting and planning exercise for the jaguar across its range, from northern Mexico to northern Argentina. Field scientists from 18 countries reached consensus on four types of information: (1) the spatial extent of their jaguar knowledge, (2) the known, currently occupied range of jaguars, (3) areas with substantial jaguar populations, adequate habitat, and a stable and diverse prey base, and (4) point localities where jaguars have been observed during the last 10 years. During the exercise, these experts also conducted a range‐wide assessment of the long‐term survival prospects of the jaguar and developed an algorithm for prioritizing jaguar conservation units occurring in major habitat types. From this work, we learned that the known, occupied range of the jaguar has contracted to approximately 46% of estimates of its 1900 range. Jaguar status and distribution is unknown in another 12% of the jaguar's former range, including large areas in Mexico, Colombia, and Brazil. But over 70% of the area where jaguars are thought to still occur was rated as having a high probability of supporting their long‐term survival. Fifty‐one jaguar conservation units representing 30 different jaguar geographic regions were prioritized as the basis for a comprehensive jaguar conservation program.
Conservation Biology – Wiley
Published: Feb 1, 2002
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