Effects of landscape composition and configuration on migrating songbirds: Inference from an individual-based model

Emily B. Cohen, Scott M. Pearson, Frank R. Moore

Research output: Contribution to journalArticlepeer-review

24 Scopus citations

Abstract

The behavior of long-distance migrants during stopover is constrained by the need to quickly and safely replenish energetic reserves. Replenishing fuel stores at stopover sites requires adjusting to unfamiliar landscapes with little to no information about the distribution of resources. Despite their critical importance to the success of songbird migration, the effects of landscape composition and configuration on fuel deposition rates (FDR [g/d]), the currency of migration, has not been tested empirically. Our objectives were to understand the effects of heterogeneous landscapes on FDR of forest-dwelling songbirds during spring migration. The results of field experiments were used to parameterize a spatially explicit, individual-based model of forest songbird movement and resulting FDR. Further field experiments were used to validate the results from the individual-based model. In simulation experiments, we altered a Gulf South landscape in a factorial design to predict the effects of future patterns under different scenarios of land use change in which the abundance of high-quality hardwood habitat and the spatial aggregation of habitat varied. Simulated FDR decreased as the amount of hardwood in the landscape decreased from 41% to 22% to 12%. Further, migrants that arrived in higher-quality habitat types gained more mass. Counter to our expectations, FDR was higher with lower spatial aggregation of habitat. Differences in refueling rates may be most influenced by whether or not an individual experiences an initial searching cost after landing in poor-quality habitat. Therefore, quickly locating habitat with sufficient food resources at each stopover may be the most important factor determining a successful migration. Our findings provide empirical evidence for the argument that hardwood forest cover is a primary determinant of the quality of a stopover site in this region. This study represents the first effort to empirically quantify FDRs based on the configuration of landscapes.

Original languageEnglish
Pages (from-to)169-180
Number of pages12
JournalEcological Applications
Volume24
Issue number1
DOIs
StatePublished - Jan 2014
Externally publishedYes

Funding

FundersFunder number
National Science FoundationDEB-0823293
National Science Foundation0823293

    Keywords

    • Individual-based model
    • Landscape ecology
    • Nearctic-Neotropical migrant
    • Red-eyed Vireo
    • Stopover ecology
    • Translocation experiment
    • Vireo olivaceus

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