A trans-hemispheric migratory songbird does not advance spring schedules or increase migration rate in response to record-setting temperatures at breeding sites

The decline of long distance migratory songbirds has been linked to an increasing mismatch between spring arrival date and timing of food availability caused by climate change. It is unclear to what extent individuals can adjust migration timing or en route rate in response to annual variation in te...

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Veröffentlicht in:	PloS one 2013-05, Vol.8 (5), p.e64587
Hauptverfasser:	Fraser, Kevin C, Silverio, Cassandra, Kramer, Patrick, Mickle, Nanette, Aeppli, Robert, Stutchbury, Bridget J M
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal behavior Animal Migration Animal populations Animals Annual variations Biology Biometeorology Bird migration Birds Breeding Breeding sites Climate change Connectivity Cues Earth Sciences Ecology Female Food availability Global warming Hot Temperature Male Migratory birds North America Overwintering Phenology Predictions Progne subis Rain Rainfall Rainfall amount Reproduction - physiology River basins Schedules Seasons Songbirds Songbirds - physiology South America Spring temperatures Temperature Temperature effects Temperature variations Tracking
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creator	Fraser, Kevin C Silverio, Cassandra Kramer, Patrick Mickle, Nanette Aeppli, Robert Stutchbury, Bridget J M
description	The decline of long distance migratory songbirds has been linked to an increasing mismatch between spring arrival date and timing of food availability caused by climate change. It is unclear to what extent individuals can adjust migration timing or en route rate in response to annual variation in temperature at breeding sites. We tracked the ca. 7300 km spring migration of 52 purple martins Progne subis from the Amazon basin to two breeding sites in eastern North America. Spring 2012 was the warmest on record in eastern North America, but contrary to predictions, this did not result in earlier departure, faster migration, or earlier arrival at breeding areas compared with earlier years. Temperatures and rainfall in the Amazon basin at the time of departure were not higher in 2012, and conditions along migration routes did not give consistent signals of a warmer spring at the breeding site. Once in North America, individuals likely had limited opportunity to speed up their migration because this final portion of the journey was already very rapid (570 km/d; 4-5 d in duration). Migration timing over the entire journey was best predicted by breeding latitude and sex and was not sensitive to ecological cues (temperature and rainfall amount) at departure from South American overwintering sites or en route, in contrast to recent studies of other songbirds. Our results provide the first direct evidence for a mismatch between higher spring temperatures at breeding sites and departure schedules of individual songbirds, and suggest phenotypic responses to short-term climatic warming may be limited for some species. Further direct-tracking data with greater geographic and temporal scope is needed to test for individual plasticity in response to temperature and rainfall along migratory routes for this, and other, species.
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Migration timing over the entire journey was best predicted by breeding latitude and sex and was not sensitive to ecological cues (temperature and rainfall amount) at departure from South American overwintering sites or en route, in contrast to recent studies of other songbirds. Our results provide the first direct evidence for a mismatch between higher spring temperatures at breeding sites and departure schedules of individual songbirds, and suggest phenotypic responses to short-term climatic warming may be limited for some species. 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Migration timing over the entire journey was best predicted by breeding latitude and sex and was not sensitive to ecological cues (temperature and rainfall amount) at departure from South American overwintering sites or en route, in contrast to recent studies of other songbirds. Our results provide the first direct evidence for a mismatch between higher spring temperatures at breeding sites and departure schedules of individual songbirds, and suggest phenotypic responses to short-term climatic warming may be limited for some species. Further direct-tracking data with greater geographic and temporal scope is needed to test for individual plasticity in response to temperature and rainfall along migratory routes for this, and other, species.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23741345</pmid><doi>10.1371/journal.pone.0064587</doi><oa>free_for_read</oa></addata></record>
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subjects	Animal behavior Animal Migration Animal populations Animals Annual variations Biology Biometeorology Bird migration Birds Breeding Breeding sites Climate change Connectivity Cues Earth Sciences Ecology Female Food availability Global warming Hot Temperature Male Migratory birds North America Overwintering Phenology Predictions Progne subis Rain Rainfall Rainfall amount Reproduction - physiology River basins Schedules Seasons Songbirds Songbirds - physiology South America Spring temperatures Temperature Temperature effects Temperature variations Tracking
title	A trans-hemispheric migratory songbird does not advance spring schedules or increase migration rate in response to record-setting temperatures at breeding sites
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