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Volume 48, No. 2

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Spatiotemporal characterization of non-breeding Great Shearwaters Ardenna gravis within their wintering range


Authors

KEVIN D. POWERS1*, DAVID N. WILEY1, ANNA R. ROBUCK2, ZACHARY H. OLSON3, LINDA J. WELCH4, MICHAEL A. THOMPSON1 & LES KAUFMAN5
1Stellwagen Bank National Marine Sanctuary, NOAA National Ocean Service, Scituate, MA 02066, USA *(kdpowers24@gmail.com)
2University of Rhode Island, Graduate School of Oceanography, Narragansett, RI 02882, USA
3University of New England, Animal Behavior Program, Department of Psychology, Biddeford, ME 04005, USA
4United States Fish and Wildlife Service, Milbridge, ME 02658, USA
5Boston University Marine Program, Department of Biology, Boston University, Boston, MA 02215, USA

Citation

POWERS, K.D., WILEY, D.N., ROBUCK, A.R., OLSON, Z.H., WELCH, L.J., THOMPSON, M.A. & KAUFMAN, L. 2020. Spatiotemporal characterization of non-breeding Great Shearwaters Ardenna gravis within their wintering range. Marine Ornithology 48: 215 - 229

Received 22 January 2020, accepted 17 June 2020

Date Published: 2020/10/15
Date Online: 2020/07/26
Key words: Great Shearwaters, utilization distribution, wintering range, satellite tracking, fecal DNA analysis, sand lance, bycatch necropsies

Abstract

Movements of Great Shearwaters Ardenna gravis wintering in the Northwest Atlantic showed age-based spatial and temporal flexibility, with foraging tactics linked to a defined physical preference of their primary prey. From 2013 to 2018, we tracked 58 Great Shearwaters during their wintering season using platform terminal transmitters deployed in the same area of the southwest Gulf of Maine. Utilization distributions (UDs) for individual birds were created from convex hulls, which were then combined for spatial and temporal analyses. Of the 95% kernel UDs, 55% were contained within the Gulf of Maine and the remainder extended to the Scotian Shelf off Nova Scotia and the Grand Banks off Newfoundland. Analysis of fecal DNA from tagged birds and others captured with them indicated that Northern sand lance Ammodytes dubius were the primary prey while in the Gulf of Maine. This relationship was supported by the overlap of UDs and sand lance habitat. The spatial occurrence of sand lance from bottomfish trawl survey data demonstrated that these fish preferred shallow water (< 100 m deep) with substrates consisting of high sand content (> 50%) and grain sizes ranging from 0.35-2.00 mm in diameter. These same properties were associated and spatially aligned with the collective 25% kernel UD of Great Shearwaters. Necropsy of bycaught Great Shearwaters from an area that overlapped in space and time with tagged individuals and sand lance habitat demonstrated that most birds (89%) were young (0-2 years), based on gonadal development, molt score, and/or bursa of Fabricius. Coupling demographic information from necropsies with spatial habits and movement timing of tagged birds suggests this region serves as a winter “nursery” for Great Shearwaters.

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