The Influence of Migration Timing and Local Conditions on Reproductive Timing in Arctic‐Breeding Birds

W. B. English; B. Lagassé; S. Brown; M. Boldenow; J. Burger; B. Casler; A. D. Dey; S. Feigin; S. Freeman; H. R. Gates; K. E. Iaquinto; S. Koch; J. F. Lamarre; R. B. Lanctot; C. Latty; V. Loverti; L. McKinnon; D. Newstead; L. Niles; E. Nol; D. Payer; R. Porter; J. Rausch; S. T. Saalfeld; F. Sanders; N. R. Senner; S. Schulte; K. Sowl; B. Winn; L. Wright; M. B. Wunder; P. A. Smith

doi:10.1002/ece3.70610

Ecology and Evolution (Jan 2025)

The Influence of Migration Timing and Local Conditions on Reproductive Timing in Arctic‐Breeding Birds

W. B. English,
B. Lagassé,
S. Brown,
M. Boldenow,
J. Burger,
B. Casler,
A. D. Dey,
S. Feigin,
S. Freeman,
H. R. Gates,
K. E. Iaquinto,
S. Koch,
J. F. Lamarre,
R. B. Lanctot,
C. Latty,
V. Loverti,
L. McKinnon,
D. Newstead,
L. Niles,
E. Nol,
D. Payer,
R. Porter,
J. Rausch,
S. T. Saalfeld,
F. Sanders,
N. R. Senner,
S. Schulte,
K. Sowl,
B. Winn,
L. Wright,
M. B. Wunder,
P. A. Smith

Affiliations

W. B. English: Carleton University Ottawa Ontario Canada
B. Lagassé: Department of Biology and Wildlife University of Alaska Fairbanks Fairbanks Alaska USA
S. Brown: Manomet Inc Saxtons River Vermont USA
M. Boldenow: Fisheries and Ecological Services U.S. Fish and Wildlife Service Anchorage Alaska USA
J. Burger: Division of Life Sciences, Ecology, Evolution, and Natural Resources Rutgers University Piscataway New Jersey USA
B. Casler: Fallon Nevada USA
A. D. Dey: Endangered and Nongame Species Program New Jersey Division of Fish and Wildlife Millville New Jersey USA
S. Feigin: Wildlife Restoration Partnerships Greenwich New Jersey USA
S. Freeman: U.S. Fish and Wildlife Service, Arctic National Wildlife Refuge Fairbanks Alaska USA
H. R. Gates: National Audubon Society, Audubon Americas Anchorage Alaska USA
K. E. Iaquinto: U.S. Fish and Wildlife Service, Monomoy NWR Hadley Massachusetts USA
S. Koch: U.S. Fish and Wildlife Service, Eastern Massachusetts NWR Complex Hadley Massachusetts USA
J. F. Lamarre: Département de Biologie and Centre d'études Nordiques Université du Québec à Rimouski Rimouski Quebec Canada
R. B. Lanctot: Migratory Bird Management Division U.S. Fish and Wildlife Service, Alaska Region Anchorage Alaska USA
C. Latty: U.S. Fish and Wildlife Service, Arctic National Wildlife Refuge Fairbanks Alaska USA
V. Loverti: Migratory Bird and Habitat Program U.S. Fish and Wildlife Service Portland Oregon USA
L. McKinnon: Bilingual Biology Program York University Glendon Campus Toronto Ontario Canada
D. Newstead: Coastal Bend Bays & Estuaries Program (CBBEP) Corpus Christi Texas USA
L. Niles: Wildlife Restoration Partnerships Greenwich New Jersey USA
E. Nol: Biology Department Trent University Peterborough Ontario Canada
D. Payer: National Park Service Anchorage Alaska USA
R. Porter: Ambler Pennsylvania USA
J. Rausch: Canadian Wildlife Service, Environment and Climate Change Canada Yellowknife Northwest Territories Canada
S. T. Saalfeld: Migratory Bird Management Division U.S. Fish and Wildlife Service, Alaska Region Anchorage Alaska USA
F. Sanders: South Carolina Department of Natural Resources McClellanville South Carolina USA
N. R. Senner: Department of Environmental Conservation University of Massachusetts Amherst Amherst Massachusetts USA
S. Schulte: Manomet Inc Saxtons River Vermont USA
K. Sowl: National Wildlife Refuge System Homer Alaska USA
B. Winn: Manomet Inc Saxtons River Vermont USA
L. Wright: Toronto Ontario Canada
M. B. Wunder: Department of Integrative Biology University of Colorado Denver Denver Colorado USA
P. A. Smith: Wildlife Research Division Environment and Climate Change Canada Ottawa Ontario Canada

DOI: https://doi.org/10.1002/ece3.70610
Journal volume & issue: Vol. 15, no. 1
pp. n/a – n/a

Abstract

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ABSTRACT For birds breeding in the Arctic, nest success is affected by the timing of nest initiation, which is partially determined by local conditions such as snow cover. However, conditions during the non‐breeding season can carry over to affect the timing of breeding. We used tracking and breeding data from 248 individuals of 8 species and subspecies of Arctic‐breeding shorebirds to estimate how the timing of nest initiation is related to local conditions like snowmelt phenology versus prior conditions, measured by the timing and speed of migration. Using path analysis, our global model showed that local and prior conditions have similar effect sizes (Standardised Path Coefficients ± SE of 0.44 ± 0.07 and 0.43 ± 0.07 for snowmelt and arrival timing, respectively), suggesting that both influence the timing of breeding and therefore potentially reproductive output. However, the importance of each variable varied across species. Individuals that arrived later to the breeding grounds did not leave the wintering grounds later, but instead took longer to migrate, potentially reflecting differences in flight speed or time spent at stopover sites. We hypothesise that this may be due to reduced habitat quality at some stopover sites or an inability to adjust their departure timing or migration speed to match the advancing spring phenology in the North. Individuals that migrated longer distances also arrived and nested later. Our results highlight the benefits and potential conservation implications of using a full annual cycle approach to assess the factors influencing reproductive timing of birds.

Published in Ecology and Evolution

ISSN: 2045-7758 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://onlinelibrary.wiley.com/journal/20457758

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