No trade-offs between lipid stores and structural growth in juvenile zebra finches undergoing nutritional stress during development

Kriengwatana, B. and MacDougall-Shackleton, S. A. (2015) No trade-offs between lipid stores and structural growth in juvenile zebra finches undergoing nutritional stress during development. Physiological and Biochemical Zoology, 88(2), pp. 208-215. (doi: 10.1086/678988) (PMID:25730275)

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Nutritional conditions during development can affect both structural growth and body fat deposition. Body size and body fat each have significant consequences for fitness, yet few studies have investigated how young birds balance resource allocation between structural growth and fat reserves. We raised zebra finches (Taeniopygia guttata) in consistently high- or low-food conditions until posthatch day 35 (PHD 35). From this age until PHD 62, half of the birds in each condition were switched to the other treatment, while the rest were maintained on the same conditions. Body mass, lean mass, body fat, and tarsus length were measured before (PHD 25) and after (PHD 55) nutritional independence. Precise measures of body composition were obtained noninvasively at both ages using quantitative magnetic resonance analysis. At PHD 25, birds in the high treatment had more body mass and lean mass than birds in the low treatment, but nutritional treatments did not affect body fat at this age. Unexpectedly, the strategic response of birds that experienced deteriorating food availability was to maintain body mass by increasing body fat and decreasing lean mass. Birds that experienced an improvement in food availability significantly increased body mass by increasing lean mass and not body fat. Birds maintained on a low diet throughout did not significantly increase body mass, lean mass, or body fat. Tarsus length was not affected by nutritional manipulations. These findings indicate that nutritional stress did not affect the relationship between skeletal growth and body fat deposition because lean mass, body fat, and tarsus length can be independently regulated at different developmental periods depending on nutritional conditions.

Item Type:Articles
Glasgow Author(s) Enlighten ID:Kriengwatana, Dr Pralle
Authors: Kriengwatana, B., and MacDougall-Shackleton, S. A.
College/School:College of Medical Veterinary and Life Sciences > School of Biodiversity, One Health & Veterinary Medicine
Journal Name:Physiological and Biochemical Zoology
Publisher:University of Chicago Press
ISSN (Online):1537-5293
Published Online:21 November 2014

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