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A UNIFIED FRAMEWORK FOR MODELLING WILDLIFE POPULATION DYNAMICS †
Author(s) -
Thomas Len,
Buckland Stephen T.,
Newman Ken B.,
Harwood John
Publication year - 2005
Publication title -
australian and new zealand journal of statistics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.434
H-Index - 41
eISSN - 1467-842X
pISSN - 1369-1473
DOI - 10.1111/j.1467-842x.2005.00369.x
Subject(s) - generalization , population model , state space , population , metapopulation , mathematics , state (computer science) , smoothing , process (computing) , computer science , mathematical optimization , algorithm , statistics , biological dispersal , mathematical analysis , demography , sociology , operating system
Summary This paper proposes a unified framework for defining and fitting stochastic, discrete‐time, discrete‐stage population dynamics models. The biological system is described by a state‐space model, where the true but unknown state of the population is modelled by a state process, and this is linked to survey data by an observation process. All sources of uncertainty in the inputs, including uncertainty about model specification, are readily incorporated. The paper shows how the state process can be represented as a generalization of the standard Leslie or Lefkovitch matrix. By dividing the state process into subprocesses, complex models can be constructed from manageable building blocks. The paper illustrates the approach with a model of the British grey seal metapopulation, using sequential importance sampling with kernel smoothing to fit the model.