Using the power of comparison to explain habitat use and migration strategies of shorebirds worldwide

Shorebirds, or waders, form an ecologically (but not phylogenetically) homogenous group of birds that, despite this homogeneity, exhibits clear correlated contrasts in habitat use and migration distance between closely related species pairs. In addition, within species there is distinct variation in...

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Bibliographic Details
Published in:Journal of Ornithology
Main Author: Piersma, Theunis
Format: Article in Journal/Newspaper
Language:English
Published: 2007
Subjects:
annual cycle
conservation
flyways
foraging
migration
seasonal schedules
waders
KNOTS CALIDRIS-CANUTUS
LONG-DISTANCE MIGRATION
BAR-TAILED GODWITS
AFFECTS FORAGING DECISIONS
RED-KNOTS
DELAWARE BAY
NORTHWARD MIGRATION
ORGAN SIZE
WADDEN SEA
PHENOTYPIC FLEXIBILITY
Arctic
Antarc*
Antarctica
Calidris canutus
Red Knot
Tundra
Online Access:https://hdl.handle.net/11370/a7f9089d-f552-4fea-9279-b7f7efd61522
https://research.rug.nl/en/publications/a7f9089d-f552-4fea-9279-b7f7efd61522
https://doi.org/10.1007/s10336-007-0240-3
Description
Summary:Shorebirds, or waders, form an ecologically (but not phylogenetically) homogenous group of birds that, despite this homogeneity, exhibits clear correlated contrasts in habitat use and migration distance between closely related species pairs. In addition, within species there is distinct variation in breeding and wintering latitudes, i.e. migration distance. I examine here such contrasts at different taxonomic levels and evaluate what we can learn about selective forces on habitat selection and the evolution of migration strategies in birds. My primary example is the worldwide migration system of the Red Knot Calidris canutus. These sandpipers breed only on high arctic tundra (65-83 degrees N), but they move south from their disjunct, circumpolar breeding areas to nonbreeding sites on the coasts of all continents (except Antarctica), between latitudes 58 degrees N and 53 degrees S. Due to their specialized sensory capabilities, Red Knots generally eat hard-shelled prey found on intertidal, mostly soft, substrates. As a consequence, ecologically suitable coastal sites are few and far between, so they must routinely undertake flights of many thousands of kilometres. In contrast to prediction, Red Knots at tropical intertidal sites have lower fuelling rates than birds at more southern or northern latitudes. This leads to greater time-stress in the southernmost wintering populations that not only have to cover over 14,000 km in single migrations, but also cannot rely on tropical regions to make refuelling stops. Rapid human-caused losses of the food-base in staging areas during both north- and southward migrations have been demonstrated to have caused rapid declines in several Red Knot populations. Detailed worldwide ecodemographic research on these extreme long-distance migrants, as embodied in, for example, the recently established Global Flyway Network, yields a two-pronged benefit: (1) on the basis of the unintended large-scale experiments carried out by humans, we rapidly come to grips with the selection ...

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