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Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Augmenting mark–recapture with beach counts to estimate the abundance of little penguins on Penguin Island, Western Australia

Belinda Cannell A C , Ken Pollock A , Stuart Bradley A , Ron Wooller A , William Sherwin B and Jennifer Sinclair B
+ Author Affiliations
- Author Affiliations

A School of Biological Sciences and Biotechnology, Murdoch University, South Street, Murdoch, WA 6150, Australia.

B School of Biological, Earth and Environmental Sciences, University of New South Wales, Sydney, NSW 2052, Australia.

C Corresponding author. Email: B.Cannell@murdoch.edu.au

Wildlife Research 38(6) 491-500 https://doi.org/10.1071/WR11042
Submitted: 4 March 2011  Accepted: 3 September 2011   Published: 11 November 2011

Abstract

Context: Penguin Island supports the largest colony of little penguins in Western Australia. It is subjected to a suite of anthropogenic threats because of its proximity to an increasing urban population. For effective management of the colony, it is necessary to not only have knowledge of the size of the colony, but also the population trend of the colony.

Aims: To demonstrate a new cost-effective method of estimating the island-wide population of penguins on Penguin Island.

Methods: We estimated the island-wide population by combining mark–recapture sampling over 2 years on part of the island and beach counts of penguins arriving at night around the entire island. We estimated the abundance using closed population models, allowing for sex and time effects in capture probabilities. We had four capture occasions in 2008 only, and so considered heterogeneity of capture probabilities (Mh), using the Chao heterogeneity moment estimator. The proportion of all penguins counted that arrived at the four mark–recapture sites was then used to inflate the population estimate for the whole island.

Key results: In all, 62% of all penguins counted used the four mark–recapture sites. In 2007, there were an estimated 2369 ± 198 penguins, and 1543 ± 82 in 2008. When capture heterogeneity was allowed for in 2008, this estimate increased to 2069 ± 172.

Conclusions: Fewer eggs were laid and all measures of breeding performance were lower in 2008 than in 2007. Hence, the lower population estimate is most likely to represent fewer birds attempting to breed. However, further work on population estimates is required to determine whether capture heterogeneity occurs in both good and poor breeding years. Capture rates were affected by the presence of a full moon and high tides.

Implications: The estimate of the population can be used as part of the basis of a long-term monitoring program needed for effective management of the penguin colony. However, such studies must be coincident with the monitoring of a suite of reproductive and foraging parameters if short-term impacts of threats are to be recognised and well managed.

Additional keywords: closed mark–recapture models, count methods, double sampling, Eudyptula minor, Penguin Island.


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