Data from: Dietary antioxidants and flight exercise in female birds affect allocation of nutrients to eggs: how carry-over effects work
Physiological challenges during one part of the annual cycle can carry over and affect performance at a subsequent phase, and antioxidants could be one mediator of trade-offs between phases. We performed a controlled experiment with zebra finches to examine how songbirds use nutrition to manage trad...
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Zusammenfassung: | Physiological challenges during one part of the annual cycle can carry
over and affect performance at a subsequent phase, and antioxidants could
be one mediator of trade-offs between phases. We performed a controlled
experiment with zebra finches to examine how songbirds use nutrition to
manage trade-offs in antioxidant allocation between endurance flight and
subsequent reproduction. Our treatment groups included (1) a
non-supplemented, non-exercised group (control group) fed a standard diet
with no exercise beyond that experienced during normal activity in an
aviary; (2) a supplemented non-exercised group fed a water- and
lipid-soluble antioxidant-supplemented diet with no exercise; (3) a
non-supplemented exercised group fed a standard diet and trained to
perform daily endurance flight for 6 weeks; and (4) a supplemented
exercised group fed an antioxidant-supplemented diet and trained to
perform daily flight for 6 weeks. After flight training, birds were paired
within treatment groups for breeding. We analyzed eggs for lutein and
vitamin E concentrations and the plasma of parents throughout the
experiment for non-enzymatic antioxidant capacity and oxidative damage.
Exercised birds had higher oxidative damage levels than non-exercised
birds after flight training, despite supplementation with dietary
antioxidants. Supplementation with water-soluble antioxidants decreased
the deposition of lipid-soluble antioxidants into eggs and decreased yolk
size. Flight exercise also lowered deposition of lutein, but not vitamin
E, to eggs. These findings have important implications for future studies
of wild birds during migration and other oxidative challenges. |
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DOI: | 10.5061/dryad.d4600 |