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An Appraisal of the Use of Hydrogen-Isotope Methods to Delineate Origins of Migratory Saw-whet Owls in North America - Evaluación del Uso de Métodos de Isótopos de Hidrógeno para Establecer los Orígenes de los Individuos Migratorios de Aegolius acadicus en América del Norte
Chris De Ruyck, Keith A. Hobson, Nicola Koper, Keith W. Larson and Leonard I. Wassenaar
Vol. 115, No. 2 (May 2013), pp. 366-374
Published by: Cooper Ornithological Society
Stable URL: http://www.jstor.org/stable/10.1525/cond.2013.120019
Page Count: 9
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Abstract Northern Saw-whet Owls (Aegolius acadicus) breed throughout the boreal forest of North America, but little is known about their population trends or distribution within this region. Analysis of stable hydrogen isotopes (δ2H) in feathers can delineate origins of a variety of avian migrants, but raptors are reported to have high intra-feather isotopic variance and mean δ2H values higher than predicted from δ2H isoscapes specific to raptor feathers, making assignment of geographic origin sometimes difficult. We examined the applicability of δ2H analysis of saw-whet owl feathers to delineating origins of migrants and to assessing differences in the migratory behavior of adult and young owls by using multiple generations of feathers from owls captured during fall migration at the Delta Marsh Bird Observatory, Manitoba, 2006–2007. Values of δ2H in saw-whet owl feathers were higher than predicted from a δ2H isoscape specific to raptor feathers and from patterns of movements inferred from analysis of band recoveries. This effect was pronounced in adults, while values of δ2H in feathers of hatching-year owls fell primarily within the range predicted for the boreal forest northwest of Delta Marsh. Significant differences in δ2H values among feather generations suggest that physiological or behavioral differences between adults and young give rise to greater 2H enrichment in adult feathers. These results indicate that current δ2H isoscapes for feathers cannot be used to track adult saw-whet owls reliably and further research into the mechanisms of 2H enrichment in owl feathers is required.
© 2013 by The Cooper Ornithological Society