Combining stable hydrogen (δ2H) isotopes and geolocation to assign scaly-sided mergansers to moult river catchments

Solovyeva, D., Hobson, K. A., Kharitonova, N., Newton, J. , Fox, J. W., Afansyev, V. and Fox, A. D. (2016) Combining stable hydrogen (δ2H) isotopes and geolocation to assign scaly-sided mergansers to moult river catchments. Journal of Ornithology, 157(3), pp. 663-669. (doi:10.1007/s10336-015-1319-x)

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Abstract

Scaly-sided Mergansers Mergus squamatus breed on freshwater rivers in Far East Russia, Korea, and China, wintering on similar habitat in China and Korea, but information on their post-breeding moulting habitats remains elusive. We combined analysis of stable hydrogen isotope ratios (δ2H) in flight feathers from nesting females equipped with geolocators to test whether we could correctly identify their use of moulting rivers (which show a strong north–south gradient in river water δ2H characteristics) based on feather δ2H values. The results are the first ever to demonstrate a strong positive correlation (r 2 = 0.91) between measured river catchment water δ2H and feather δ2H from birds of known moulting location (from geolocation) in an avian piscivorous species. Furthermore, our δ2H results overwhelmingly supported previous determinations based on feather δ13C and δ15N measurements from the same individuals confirming that most Scaly-sided Mergansers of both sexes moulted on freshwater, although four non-breeding and failed breeding females (out of 21) and one male (out of six) apparently undertook moult migration to brackish and marine waters. The single case where the δ2H results contradicted previous isotopic evidence was likely due to birds eating migratory fish of marine provenance that migrate up freshwater rivers. These results confirm the potential power of feather δ2H to assign piscivorous birds to specific river catchment moult sites and the utility of using multiple stable isotopes to assign birds to moult habitat and location in potentially complex estuarine and brackish situations or where migratory prey may be used by birds in freshwater habitats.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Newton, Dr Jason
Authors: Solovyeva, D., Hobson, K. A., Kharitonova, N., Newton, J., Fox, J. W., Afansyev, V., and Fox, A. D.
College/School:College of Science and Engineering > Scottish Universities Environmental Research Centre
Journal Name:Journal of Ornithology
Publisher:Springer
ISSN:2193-7192
ISSN (Online):2193-7206
Published Online:26 December 2015

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