Abstract
The importance of multispecies models for understanding complex ecological processes and interactions is beginning to be realized. Recent developments, such as those by Lahoz‐Monfort et al. (2011), have enabled synchrony in demographic parameters across multiple species to be explored. Species in a similar environment would be expected to be subject to similar exogenous factors, although their response to each of these factors may be quite different. The ability to group species together according to how they respond to a particular measured covariate may be of particular interest to ecologists. We fit a multispecies model to two sets of similar species of garden bird monitored under the British Trust for Ornithology's Garden Bird Feeding Survey. Posterior model probabilities were estimated using the reversible jump algorithm to compare posterior support for competing models with different species sharing different subsets of regression coefficients. There was frequently good agreement between species with small asynchronous random‐effect components and those with posterior support for models with shared regression coefficients; however, this was not always the case. When groups of species were less correlated, greater uncertainty was found in whether regression coefficients should be shared or not. The methods outlined in this study can test additional hypotheses about the similarities or synchrony across multiple species that share the same environment. Through the use of posterior model probabilities, estimated using the reversible jump algorithm, we can detect multispecies responses in relation to measured covariates across any combination of species and covariates under consideration. The method can account for synchrony across species in relation to measured covariates, as well as unexplained variation accounted for using random effects. For more flexible, multiparameter distributions, the support for species‐specific parameters can also be measured.
Highlights
When modeling the dynamics of ecological populations, most standard approaches have tended to consider species independently of each other by fitting a single model to each of the species (Harris, 2015; Lecomte, Benoït, Etienne, Bel, & Parent, 2013)
The data used come from the British Trust for Ornithology's (BTO) Garden Bird Feeding Survey (GBFS) and relate to an annual mean of up to 26 weekly maximum counts conducted between October and March each year at approximately 200 sites
The results suggest that the Tweedie variance parameters, namely φ and p, should have distinct values for all three species in the first analysis, with marginal posterior probabilities of 1 in each case
Summary
When modeling the dynamics of ecological populations, most standard approaches have tended to consider species independently of each other by fitting a single model to each of the species (Harris, 2015; Lecomte, Benoït, Etienne, Bel, & Parent, 2013). If the variation explained by any covariates in the model is largely synchronous across species, corresponding species-invariant random-effect variances will be reduced in relation to the species-specific ones, and the amount of synchrony estimated across the species will be lower than in reality In this case, precision in parameter estimates will be lower if they could realistically be shared across multiple species. These six species are split into two ecologically similar groups, namely blue tit (BT) Cyanistes caeruleus, great tit (GT) Parus major, and coal tit (CT) Periparus ater in the first, and house sparrow (HS) Passer domesticus, greenfinch (GF) Chloris chloris, and chaffinch (CF) Fringilla coelebs in the second. We concentrate on spatial synchrony in species’ response to covariates using log-linear models; the method is applicable to many other cases and to model frameworks where parameters or coefficients can be shared across species, locations, or time periods
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