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Multistate recapture models: Modelling incomplete individual histories

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  • J. D. Lebreton
  • R. Pradel Cefe

Abstract

Multistate capture-recapture models are a natural generalization of the usual one-site recapture models. Similarly, individuals are sampled on discrete occasions, at which they may be captured or not. However, contrary to the one-site case, the individuals can move within a finite set of states between occasions. The growing interest in spatial aspects of population dynamics presently contributes to making multistate models a very promising tool for population biology. We review first the interest and the potential of multistate models, in particular when they are used with individual states as well as geographical sites. Multistate models indeed constitute canonical capture-recapture models for individual categorical covariates changing over time, and can be linked to longitudinal studies with missing data and models such as hidden Markov chains. Multistate models also provide a promising tool for handling heterogeneity of capture, provided states related to capturability can be defined and used. Such an approach could be relevant for population size estimation in closed populations. Multistate models also constitute a natural framework for mixtures of information in individual history data. Presently, most models can be fit using program MARK. As an example, we present a canonical model for multisite accession to reproduction, which fully generalizes a classical one-site model. In the generalization proposed, one can estimate simultaneously age-dependent rates of accession to reproduction, natal and breeding dispersal. Finally, we discuss further generalizations - such as a multistate generalization of growth rate models and models for data where the state in which an individual is detected is known with uncertainty - and prospects for software development.

Suggested Citation

  • J. D. Lebreton & R. Pradel Cefe, 2002. "Multistate recapture models: Modelling incomplete individual histories," Journal of Applied Statistics, Taylor & Francis Journals, vol. 29(1-4), pages 353-369.
    • Handle: RePEc:taf:japsta:v:29:y:2002:i:1-4:p:353-369
    DOI: 10.1080/02664760120108638
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    Cited by:

    1. Wohner, Patti J & Duarte, Adam & Wikert, John & Cavallo, Brad & Zeug, Steven C & Peterson, James T, 2022. "Integrating monitoring and optimization modeling to inform flow decisions for Chinook salmon smolts," Ecological Modelling, Elsevier, vol. 471(C).
    2. J. A. Dupuis, 2002. "Prior distributions for stratified capture-recapture models," Journal of Applied Statistics, Taylor & Francis Journals, vol. 29(1-4), pages 225-237.
    3. Etterson, Matthew A. & Ellis-Felege, Susan N. & Evers, David & Gauthier, Gilles & Grzybowski, Joseph A. & Mattsson, Brady J. & Nagy, Laura R. & Olsen, Brian J. & Pease, Craig M. & van der Burg, Max Po, 2011. "Modeling fecundity in birds: Conceptual overview, current models, and considerations for future developments," Ecological Modelling, Elsevier, vol. 222(14), pages 2178-2190.
    4. Dalton J. Hance & Russell W. Perry & John M. Plumb & Adam C. Pope, 2020. "A temporally stratified extension of space‐for‐time Cormack–Jolly–Seber for migratory animals," Biometrics, The International Biometric Society, vol. 76(3), pages 900-912, September.
    5. Caswell, Hal & Shyu, Esther, 2012. "Sensitivity analysis of periodic matrix population models," Theoretical Population Biology, Elsevier, vol. 82(4), pages 329-339.
    6. Taylor, Rebecca L. & Himes Boor, Gina K., 2012. "Beyond the robust design: Accounting for changing, uncertain states and sparse, biased detection in a multistate mark-recapture model," Ecological Modelling, Elsevier, vol. 243(C), pages 73-80.
    7. Shirley Pledger & Edward Baker & Kim Scribner, 2013. "Breeding Return Times and Abundance in Capture–Recapture Models," Biometrics, The International Biometric Society, vol. 69(4), pages 991-1001, December.
    8. 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.
    9. Timothy J. Miller & Per K. Andersen, 2008. "A Finite-State Continuous-Time Approach for Inferring Regional Migration and Mortality Rates from Archival Tagging and Conventional Tag-Recovery Experiments," Biometrics, The International Biometric Society, vol. 64(4), pages 1196-1206, December.
    10. Choquet, Rémi & Garnier, Alexandre & Awuve, Edem & Besnard, Aurélien, 2017. "Transient state estimation using continuous-time processes applied to opportunistic capture–recapture data," Ecological Modelling, Elsevier, vol. 361(C), pages 157-163.
    11. Roger Pradel, 2005. "Multievent: An Extension of Multistate Capture–Recapture Models to Uncertain States," Biometrics, The International Biometric Society, vol. 61(2), pages 442-447, June.

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