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Ecology, management and conservation in natural and modified habitats
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RESEARCH ARTICLE
Contents Vol 37(3)

Estimating lion population variables: prey and disease effects in Kruger National Park, South Africa

Sam M. Ferreira A C and Paul J. Funston B
+ Author Affiliations
- Author Affiliations

A Scientific Services, SANParks, Skukuza, 1350, South Africa.

B Department of Nature Conservation, Tshwane University of Technology, Private Bag X680, Pretoria 0001, South Africa.

C Corresponding author. Email: SamF@sanparks.org

Wildlife Research 37(3) 194-206 https://doi.org/10.1071/WR09030
Submitted: 12 March 2009  Accepted: 25 February 2010   Published: 18 May 2010

Abstract

Context. Lion (Panthera leo Linnaeus, 1758) populations experience a range of ecological and human influences that affect their demography. Few lion populations have reliable estimates of population size, trends in these, or demographic profiles. Threats such as those imposed by diseases are thus hard to evaluate and respond to.

Aims. To calibrate call-up stations and define survey effort required to achieve estimates with known precision, and extract age structures and estimate survival rates, to estimate lion numbers, sex and age structure and survival rates, and then to evaluate the effect of bovine tuberculosis (bTB) on estimates of lion density and survival.

Methods.By using call-up stations, we developed a statistically robust approach to estimate selected population variables and evaluated the perceived threat of bTB in landscapes of varying prey biomass in the Kruger National Park.

Key results. The size of the lion population was stable, although long intervals between present and historical estimates limit this conclusion. Density and survival rates associated positively with prey biomass, and a positive association was detected between the survival rate and bTB prevalence, with survival being higher in areas that had high prevalence of bTB. Male survival was lower than female survival, disregarding the effects of prey biomass or bTB prevalence. Body condition of lions was high, with scores lower at low to medium prey density.

Conclusions. The effect of an exotic disease on the Kruger lion population may be negligible at present. Intra-specific competition in areas where lions live at high densities affects survival rate. However, droughts could disrupt the hierarchical influences of prey biomass and bTB prevalence on lion densities and survival.

Implications. To evaluate the effect of an exotic disease on lion demography, population surveys should include age- and sex-structure assessments, complemented with focal studies of fecundity. This reflects the importance of understanding host–disease dynamics to inform management options.

Additional keywords: bovine tuberculosis, call-up surveys, demography, monitoring, Panthera leo, population size.


Acknowledgements

The South African National Parks are thanked for the opportunity to conduct this research in Kruger National Park. We are grateful to Professor Gus Mills and Miss Thembi Khoza for help in coordinating the study. For their eager support and participation, we thank all the section rangers and camp managers in Kruger who assisted us so willingly during the fieldwork. For collecting most of the field data, we thankfully acknowledge our research assistants Andrei Snyman and Hennie de Beer. Mrs Judith Kruger is gratefully acknowledged for providing the aerial census data. Dr Rachel Fewster commented and checked our statistical approaches. For financial assistance, we gratefully acknowledge Mr John Jackson from Conservation Force, and additional financial contributions from Mr Rodney Fuhr, and the Tshwane University of Technology (Department of Nature Conservation and Faculty Research Committee). The manuscript was improved by comments from three referees.


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