| Summary: | The source-sink paradigm predicts that populations in poorer-quality habitats ("sinks") persist due to continued immigration from more-productive areas ("sources"). However, this categorisation of populations assumes that habitat quality is fixed through time. Globally, we are in an era of wide-spread habitat degradation, and consequently, there is a pressing need to examine dispersal dynamics in relation to local population change. We used an integrated population model to quantify immigration dynamics in a long-lived colonial seabird, the black-legged kittiwake Rissa tridactyla, that is classified as globally "Vulnerable". We then used a transient life table response experiment to evaluate the contribution of temporal variation in vital rates, immigration rates, and population structure to realised population growth. Finally, we used a simulation analysis to examine the importance of immigration to population dynamics. We show that the contribution of immigration changed as the population declined. This study demonstrates that immigration is unlikely to maintain vulnerable sink populations indefinitely, emphasising the need for temporal analyses of dispersal to identify shifts that may have dramatic consequences for population viability. R code for the integrated population model, simulation analysis and transient life table response experiment. All code was written using program R (v. 4.0.2) (R Core Team 2020). The IPM script was written using JAGS (v. 4.3.0) (Plummer 2003) via the "jagsUI" library (v 1.5.1) (Kellner 2019) for program R. Data used in the study can be access from the University of Gloucestershire Repository: https://doi.org/10.46289/C5DAC648 Funding provided by: Research England Crossref Funder Registry ID: http://dx.doi.org/10.13039/501100013589 Award Number: Funding provided by: UK Joint Nature Conservation Committee* Crossref Funder Registry ID: Award Number: Funding provided by: Wildlife Trust of South and West Wales* Crossref Funder Registry ID: Award Number:
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