Changes in fat mass affect the motivation to migrate in northern wheatears

To fuel their migratory endurance flights, most birds accumulate large quantities of fat prior to departure. It therefore seems logical that the decision to depart on a migratory flight depends on fuel stores, at least to some extent; very small fuel stores prohibit migratory endurance flight. Howev...

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Bibliographic Details
Published in:Journal of avian biology 2021-06, Vol.52 (6), p.n/a
Main Authors: Eikenaar, Cas, Karwinkel, Thiemo, Hessler, Sven
Format: Article
Language:English
Subjects:
Accumulation
Animal behavior
avian
Bird migration
Body fat
Controlled conditions
departure
fattening
Flight
Food consumption
Food intake
Foods
Hormones
Mass
Migratory birds
Motivation
timing
Zugunruhe
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Summary:To fuel their migratory endurance flights, most birds accumulate large quantities of fat prior to departure. It therefore seems logical that the decision to depart on a migratory flight depends on fuel stores, at least to some extent; very small fuel stores prohibit migratory endurance flight. However, studies linking migrants' estimated fuel stores (or sometimes actual fat stores) to departure likelihood or to migratory restlessness measured in captive birds (an accurate proxy for migrants' motivation to depart from stopover) have provided inconsistent results. Fuel stores are not static though, but highly dynamic. Instead of investigating fuel stores at a given time, we therefore focussed on quantifying the dynamic process of fuelling and how it affects migrants' motivation to depart. We did so by temporarily caging wild northern wheatears Oenanthe oenanthe at a stopover site during autumn migration. Birds were kept under controlled conditions, receiving ad libitum food. Changes in fat mass (measured by quantitative magnetic resonance) and migratory restlessness were closely monitored. We found that the change in fat mass was a good predictor of the change in migratory restlessness. Individuals accumulating little fat did not show much change in their restlessness, while individuals accumulating much fat showed a strong increase in restlessness. Our study therewith provides clear support for the idea that fat stores affect birds' motivation to migrate, and shows that for migrating birds, increasing fat stores are an important cue to depart from stopover. Fat accumulation affected the change in migratory restlessness in the same manner for relatively lean and relatively fat birds. Additionally, food intake or changes therein did not explain the change in migratory restlessness we observed. We therefore hypothesize that the fat tissue itself signals changes in energetic state, likely through production and release of hormones, affecting birds' motivation to migrate.
ISSN:0908-8857
1600-048X
DOI:10.1111/jav.02736