Improved abundance trajectories with Bayesian population dynamics model: Case study with a Hawaiian honeycreeper

Richard J. Camp; Len Thomas; Steve T. Buckland; Steve J. Kendall

doi:10.1098/rsos.250528

Improved abundance trajectories with Bayesian population dynamics model: Case study with a Hawaiian honeycreeper

Royal Society Open Science

By: Richard J. Camp, Len Thomas, Steve T. Buckland, and Steve J. Kendall

https://doi.org/10.1098/rsos.250528

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Abstract

Many wildlife monitoring programmes collect annual data on population abundance. The resulting abundance estimates fluctuate over time partly because of true population change and partly because of observation error. These two components of variation can be separated by fitting the estimates to a population dynamics model within a Bayesian state-space modelling framework. By constraining the population trajectory to be biologically realistic, more precise estimates can be obtained. Independent biological knowledge can be incorporated through choice of model structure and by specifying informative prior distributions on demographic parameters. We illustrate the approach using a 31-year point transect study of the Hawai’i ’ākepa (Loxops coccineus). We fitted five models, each making different assumptions about how population change, recruitment and/or adult survival varied over time. Overall, the ’ākepa geometric mean growth rate was 1.02, indicating an increasing population over the 31-year time series, although there were periods of slow decline potentially associated with low recruitment and more rapid recovery associated with pulses of high recruitment. Abundance estimates derived from the population models were substantially more precise than the ‘raw’ point transect estimates: 95% credible interval (CrI) was on average 51.7% (s.d. = 14.1%) narrower.

Suggested Citation

Camp, R.J., Thomas, L., Buckland, S.T., and Kendall, S.J., 2026, Improved abundance trajectories with Bayesian population dynamics model: Case study with a Hawaiian honeycreeper: Royal Society Open Science, v. 13, no. 1, https://doi.org/10.1098/rsos.250528.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Improved abundance trajectories with Bayesian population dynamics model: Case study with a Hawaiian honeycreeper
Series title	Royal Society Open Science
DOI	10.1098/rsos.250528
Volume	13
Issue	1
Publication Date	January 14, 2026
Year Published	2026
Language	English
Publisher	The Royal Society Publishing
Contributing office(s)	Pacific Island Ecosystems Research Center
Description	250528, 20 p.
First page	250528
Country	United States
State	Hawaii
Other Geospatial	Island of Hawaii