Migratory flight on the Pacific Flyway: strategies and tendencies of wind drift compensation

Migratory flight on the Pacific Flyway: strategies and tendencies of wind drift compensation

Applications of remote sensing data to monitor bird migration usher a new understanding of magnitude and extent of movements across entire flyways. Millions of birds move through the western USA, yet this region is understudied as a migratory corridor. Characterizing movements in the Pacific Flyway...

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Bibliographic Details
Published in:Biology letters (2005) Vol. 15; no. 9; p. 20190383
Main Authors: Newcombe, Patrick B, Nilsson, Cecilia, Lin, Tsung-Yu, Winner, Kevin, Bernstein, Garrett, Maji, Subhransu, Sheldon, Daniel, Farnsworth, Andrew, Horton, Kyle G
Format: Journal Article
Language:English
Published: England The Royal Society 27-09-2019
Subjects:
Animal Behaviour
Animal Migration
Animals
Birds
Flight, Animal
Radar
Seasons
Wind
Pacific Flyway
remote sensing
radar
aeroecology
bird migration
wind drift
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Summary:Applications of remote sensing data to monitor bird migration usher a new understanding of magnitude and extent of movements across entire flyways. Millions of birds move through the western USA, yet this region is understudied as a migratory corridor. Characterizing movements in the Pacific Flyway offers a unique opportunity to study complementary patterns to those recently highlighted in the Atlantic and Central Flyways. We use weather surveillance radar data from spring and autumn (1995-2018) to examine migrants' behaviours in relation to winds in the Pacific Flyway. Overall, spring migrants tended to drift on winds, but less so at northern latitudes and farther inland from the Pacific coastline. Relationships between winds and autumn flight behaviours were less striking, with no latitudinal or coastal dependencies. Differences in the preferred direction of movement (PDM) and wind direction predicted drift patterns during spring and autumn, with increased drift when wind direction and PDM differences were high. We also observed greater total flight activity through the Pacific Flyway during the spring when compared with the autumn. Such complex relationships among birds' flight strategies, winds and seasonality highlight the variation within a migration system. Characterizations at these scales complement our understanding of strategies to clarify aerial animal movements.
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Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare.c.4656173.
ISSN:1744-9561
1744-957X
DOI:10.1098/rsbl.2019.0383