A Bayesian Approach to Combining Animal Abundance and Demographic Data

S. P. Brooks; Ruth King; B. J. T. Morgan

A Bayesian Approach to Combining Animal Abundance and Demographic Data

S. P. Brooks, Ruth King, B. J. T. Morgan

School of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

In studies of wild animals, one frequently encounters both count and mark-recapture-recovery data. Here, we consider an integrated Bayesian analysis of ring¿recovery and count data using a state-space model. We then impose a Leslie-matrix-based model on the true population counts describing the natural birth-death and age transition processes. We focus upon the analysis of both count and recovery data collected on British lapwings (Vanellus vanellus) combined with records of the number of frost days each winter. We demonstrate how the combined analysis of these data provides a more robust inferential framework and discuss how the Bayesian approach using MCMC allows us to remove the potentially restrictive normality assumptions commonly assumed for analyses of this sort. It is shown how WinBUGS may be used to perform the Bayesian analysis. WinBUGS code is provided and its performance is critically discussed.

Original language	English
Pages (from-to)	515-529
Number of pages	15
Journal	Animal Biodiversity and Conservation
Volume	27
Issue number	1
Publication status	Published - 2004

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title = "A Bayesian Approach to Combining Animal Abundance and Demographic Data",

abstract = "In studies of wild animals, one frequently encounters both count and mark-recapture-recovery data. Here, we consider an integrated Bayesian analysis of ring¿recovery and count data using a state-space model. We then impose a Leslie-matrix-based model on the true population counts describing the natural birth-death and age transition processes. We focus upon the analysis of both count and recovery data collected on British lapwings (Vanellus vanellus) combined with records of the number of frost days each winter. We demonstrate how the combined analysis of these data provides a more robust inferential framework and discuss how the Bayesian approach using MCMC allows us to remove the potentially restrictive normality assumptions commonly assumed for analyses of this sort. It is shown how WinBUGS may be used to perform the Bayesian analysis. WinBUGS code is provided and its performance is critically discussed. ",

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year = "2004",

language = "English",

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journal = "Animal Biodiversity and Conservation",

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T1 - A Bayesian Approach to Combining Animal Abundance and Demographic Data

AU - Brooks, S. P.

AU - King, Ruth

AU - Morgan, B. J. T.

PY - 2004

Y1 - 2004

N2 - In studies of wild animals, one frequently encounters both count and mark-recapture-recovery data. Here, we consider an integrated Bayesian analysis of ring¿recovery and count data using a state-space model. We then impose a Leslie-matrix-based model on the true population counts describing the natural birth-death and age transition processes. We focus upon the analysis of both count and recovery data collected on British lapwings (Vanellus vanellus) combined with records of the number of frost days each winter. We demonstrate how the combined analysis of these data provides a more robust inferential framework and discuss how the Bayesian approach using MCMC allows us to remove the potentially restrictive normality assumptions commonly assumed for analyses of this sort. It is shown how WinBUGS may be used to perform the Bayesian analysis. WinBUGS code is provided and its performance is critically discussed.

AB - In studies of wild animals, one frequently encounters both count and mark-recapture-recovery data. Here, we consider an integrated Bayesian analysis of ring¿recovery and count data using a state-space model. We then impose a Leslie-matrix-based model on the true population counts describing the natural birth-death and age transition processes. We focus upon the analysis of both count and recovery data collected on British lapwings (Vanellus vanellus) combined with records of the number of frost days each winter. We demonstrate how the combined analysis of these data provides a more robust inferential framework and discuss how the Bayesian approach using MCMC allows us to remove the potentially restrictive normality assumptions commonly assumed for analyses of this sort. It is shown how WinBUGS may be used to perform the Bayesian analysis. WinBUGS code is provided and its performance is critically discussed.

M3 - Article

SN - 2014-928X

VL - 27

SP - 515

EP - 529

JO - Animal Biodiversity and Conservation

JF - Animal Biodiversity and Conservation

IS - 1

ER -

A Bayesian Approach to Combining Animal Abundance and Demographic Data

Abstract

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