Ecology 81, 1970-1984 (2000)
Abstract
Knowledge of the direction, magnitude and timing of changes in bird population abundance is essential to enable species of priority conservation concern to be identified, and reasons for the population changes to be understood. We give a brief review of previous techniques for the analysis of large-scale survey data, and present a new approach based on generalized additive models (GAMs). GAMs are used to model trend as a smooth non-linear function of time, and they provide a framework for testing the statistical significance of changes in abundance. In addition, the second derivatives of the modeled trend curve may be used to identify key years in which the direction of the population trajectory was seen to change significantly. The inclusion of covariates into models for population abundance is also discussed and illustrated, and tests for the significance of covariate terms are given. We apply the methods to data from the Common Birds Census of the British Trust for Ornithology, for 13 species of farmland bird. Seven of the species are shown to have experienced statistically significant declines since the mid-1960s. Two species exhibited a significant increase. The population trajectories of all but three species turned downward in the 1970s, although in most cases the 1980s brought either some recovery or a decrease in the rate of decline. The majority of populations have remained relatively stable in the 1990s. The results are comparable with those from other analysis techniques, although the new approach is shown to have advantages in generality and precision. We suggest extensions of the methods, and make recommendations for the design of future surveys.
Key words: spatio-temporal models; generalized additive models; log-linear Poisson regression; trend analysis; non-linear trend; change-points; bird census schemes; Common Birds Census.
The SPLUS functions used to perform the analyses in the paper are available here.