Data from: Environmental heterogeneity decreases reproductive success via effects on foraging behaviour

Environmental heterogeneity shapes the uneven distribution of resources available to foragers, and is ubiquitous in nature. Optimal foraging theory predicts that an animal’s ability to exploit resource patches is key to foraging success. However, the potential fitness costs and benefits of foraging...

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Bibliographic Details
Main Authors: Trevail, Alice, Green, Jonathan, Sharples, Jonathan, Polton, Jeff, Miller, Peter, Daunt, Francis, Owen, Ellie, Bolton, Mark, Colhoun, Kendrew, Newton, Stephen, Robertson, Gail, Patrick, Samantha
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Competition
Seabird
Hidden Markov Model
Heterogeneity Gradient
Optimal foraging theory
Resource availability
rissa tridactyla
Online Access:http://hdl.handle.net/10255/dryad.216880
https://doi.org/10.5061/dryad.0898ss6
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Summary:Environmental heterogeneity shapes the uneven distribution of resources available to foragers, and is ubiquitous in nature. Optimal foraging theory predicts that an animal’s ability to exploit resource patches is key to foraging success. However, the potential fitness costs and benefits of foraging in a heterogeneous environment are difficult to measure empirically. Heterogeneity may provide higher quality foraging opportunities, or alternatively could increase the cost of resource acquisition because of reduced patch density or increased competition. Here, we study the influence of physical environmental heterogeneity on behaviour and reproductive success of black-legged kittiwakes, Rissa tridactyla. From GPS tracking data at 15 colonies throughout their British and Irish breeding range, we found that environments that were physically more heterogeneous were associated with longer trip duration, more time spent actively foraging whilst away from the colony, increased overlap of foraging areas between individuals, and lower breeding success. These results suggest that in more heterogeneous environments, there is greater competition between individuals for finite resources, which comes at a cost to reproduction. Resource hotspots are often considered to be beneficial, as individuals can learn to exploit them if sufficiently predictable. However, we demonstrate here that such fitness gains can be countered by greater competition in more heterogeneous environments.

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