Bayesian Mapping of Lichens Growing on Trees

Suitability of trees as hosts for epiphytic lichens are studied in a forest stand of size 25 ha. Suitability is measured as occupation probabilites which are modelled using hierarchical Bayesian approach. These probabilities are useful for an ecologist. They give smoothed spatial distribution map of...

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Bibliographic Details
Published in:Biometrical journal 2001-10, Vol.43 (6), p.717-736
Main Authors: Riiali, Anne, Penttinen, Antti, Kuusinen, Mikko
Format: Article
Language:English
Subjects:
Bayes-method
Epiphytic lichens
Exact sciences and technology
Hierarchical model
Inference from stochastic processes
time series analysis
Lobaria pulmonaria
Markov chain Monte Carlo
Mathematical foundations
Mathematics
Model validation
Nephroma bellum
Nephroma parile
Peltigera praetextata
Probability and statistics
Sciences and techniques of general use
Spatial smoothing
Statistics
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Summary:Suitability of trees as hosts for epiphytic lichens are studied in a forest stand of size 25 ha. Suitability is measured as occupation probabilites which are modelled using hierarchical Bayesian approach. These probabilities are useful for an ecologist. They give smoothed spatial distribution map of suitability for each of the species and can be used in detecting high‐ and low‐probability areas. In addition, suitability is explained by tree‐level covariates. Spatial dependence, which is due to unobserved spatially structured covariates, is modelled through an unobserved Markov random field. Markov chain Monte Carlo method has been applied in Bayesian computation. The extensive spatial data consist of the occurrences of eight lichen species and one bryophyte on all of the 1253 potential host trees. In addition, coordinates of the trees and several tree characteristics have been recorded. The data have been analysed for four most abundant species: Lobaria pulmonaria, Nephroma bellum, Nephroma parile and Peltigera praetextata. The tree level parameters, subject to estimation, consist of the occurrence probabilities for each tree and for each lichen species. Model validation is discussed in detail and, in addition to Bayesian validation tools, the autologistic model and case‐control design based on logistic regression have been suggested for validation of covariate effects. As a result we present suitability maps for the four lichen species. We observed, that among the observed tree covariates, the diameter at breast height (DBH) correlates with lichen occurrence. Our modelling approach has close connections to disease mapping in spatial epidemiology.
ISSN:0323-3847
1521-4036
DOI:10.1002/1521-4036(200110)43:6<717::AID-BIMJ717>3.0.CO;2-3