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Estimating demographic parameters using hidden process dynamic models

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  • Gimenez, Olivier
  • Lebreton, Jean-Dominique
  • Gaillard, Jean-Michel
  • Choquet, Rémi
  • Pradel, Roger

Abstract

Structured population models are widely used in plant and animal demographic studies to assess population dynamics. In matrix population models, populations are described with discrete classes of individuals (age, life history stage or size). To calibrate these models, longitudinal data are collected at the individual level to estimate demographic parameters. However, several sources of uncertainty can complicate parameter estimation, such as imperfect detection of individuals inherent to monitoring in the wild and uncertainty in assigning a state to an individual. Here, we show how recent statistical models can help overcome these issues. We focus on hidden process models that run two time series in parallel, one capturing the dynamics of the true states and the other consisting of observations arising from these underlying possibly unknown states. In a first case study, we illustrate hidden Markov models with an example of how to accommodate state uncertainty using Frequentist theory and maximum likelihood estimation. In a second case study, we illustrate state-space models with an example of how to estimate lifetime reproductive success despite imperfect detection, using a Bayesian framework and Markov Chain Monte Carlo simulation. Hidden process models are a promising tool as they allow population biologists to cope with process variation while simultaneously accounting for observation error.

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  • Gimenez, Olivier & Lebreton, Jean-Dominique & Gaillard, Jean-Michel & Choquet, Rémi & Pradel, Roger, 2012. "Estimating demographic parameters using hidden process dynamic models," Theoretical Population Biology, Elsevier, vol. 82(4), pages 307-316.
    • Handle: RePEc:eee:thpobi:v:82:y:2012:i:4:p:307-316
    DOI: 10.1016/j.tpb.2012.02.001
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    References listed on IDEAS

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    1. Ken B. Newman & Carmen Fernández & Len Thomas & Stephen T. Buckland, 2009. "Monte Carlo Inference for State–Space Models of Wild Animal Populations," Biometrics, The International Biometric Society, vol. 65(2), pages 572-583, June.
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    4. R. B. O'Hara & S. Lampila & M. Orell, 2009. "Estimation of Rates of Births, Deaths, and Immigration from Mark–Recapture Data," Biometrics, The International Biometric Society, vol. 65(1), pages 275-281, March.
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    6. J. Andrew Royle, 2008. "Modeling Individual Effects in the Cormack–Jolly–Seber Model: A State–Space Formulation," Biometrics, The International Biometric Society, vol. 64(2), pages 364-370, June.
    7. Gimenez, Olivier & Rossi, Vivien & Choquet, Rémi & Dehais, Camille & Doris, Blaise & Varella, Hubert & Vila, Jean-Pierre & Pradel, Roger, 2007. "State-space modelling of data on marked individuals," Ecological Modelling, Elsevier, vol. 206(3), pages 431-438.
    8. William A. Link & Richard J. Barker, 2005. "Modeling Association among Demographic Parameters in Analysis of Open Population Capture–Recapture Data," Biometrics, The International Biometric Society, vol. 61(1), pages 46-54, March.
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    Cited by:

    1. Louvrier, Julie & Chambert, Thierry & Marboutin, Eric & Gimenez, Olivier, 2018. "Accounting for misidentification and heterogeneity in occupancy studies using hidden Markov models," Ecological Modelling, Elsevier, vol. 387(C), pages 61-69.
    2. Marescot, Lucile & Gimenez, Olivier & Duchamp, Christophe & Marboutin, Eric & Chapron, Guillaume, 2012. "Reducing matrix population models with application to social animal species," Ecological Modelling, Elsevier, vol. 232(C), pages 91-96.
    3. Gimenez, Olivier & Mansilla, Lorena & Klaich, M. Javier & Coscarella, Mariano A. & Pedraza, Susana N. & Crespo, Enrique A., 2019. "Inferring animal social networks with imperfect detection," Ecological Modelling, Elsevier, vol. 401(C), pages 69-74.

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