Abstract
Pilot studies are often used to design short-term research projects and long-term ecological monitoring programs, but data are sometimes discarded when they do not match the eventual survey design. Bayesian hierarchical modeling provides a convenient framework for integrating multiple data sources while explicitly separating sample variation into observation and ecological state processes. Such an approach can better estimate state uncertainty and improve inferences from short-term studies in dynamic systems. We used a dynamic multistate occupancy model to estimate the probabilities of occurrence and nesting for white-headed woodpeckers Picoides albolarvatus in recent harvest units within managed forests of northern California, USA. Our objectives were to examine how occupancy states and state transitions were related to forest management practices, and how the probabilities changed over time. Using Gibbs variable selection, we made inferences using multiple model structures and generated model-averaged estimates. Probabilities of white-headed woodpecker occurrence and nesting were high in 2009 and 2010, and the probability that nesting persisted at a site was positively related to the snag density in harvest units. Prior-year nesting resulted in higher probabilities of subsequent occurrence and nesting. We demonstrate the benefit of forest management practices that increase the density of retained snags in harvest units for providing white-headed woodpecker nesting habitat. While including an additional year of data from our pilot study did not drastically alter management recommendations, it changed the interpretation of the mechanism behind the observed dynamics. Bayesian hierarchical modeling has the potential to maximize the utility of studies based on small sample sizes while fully accounting for measurement error and both estimation and model uncertainty, thereby improving the ability of observational data to inform conservation and management strategies.
Highlights
Observational data typical of many ecological studies are often limited in temporal scope, unless the observations are part of a long-term monitoring program
Ecology and Evolution published by John Wiley & Sons Ltd
White-headed woodpeckers were nesting in most harvest units during the 2 years of observation and were observable with high detection probabilities for adults and nests when nesting was present (Fig. 2)
Summary
Observational data typical of many ecological studies are often limited in temporal scope, unless the observations are part of a long-term monitoring program. In any case, making sound inferences on ecological variables of interest requires that the proper types and amounts of information be collected (Yoccoz et al 2001). Pilot studies can be used to obtain exploratory information that guides research or monitoring designs (Bailey et al 2007), but pilot data are often collected in ways that do not match the eventual design and frequently discarded during subsequent analysis (Morris et al 2013). The information lost from discarding pilot data may be negligible for a long-term study, while for a short-term study, the additional temporal context could prove valuable.
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