Advances and Environmental Conditions of Spring Migration Phenology of American White Pelicans

Spring migration phenology of birds has advanced under warming climate. Migration timing of short-distance migrants is believed to be responsive to environmental changes primarily under exogenous control. However, understanding the ecological causes of the advancement in avian spring migration pheno...

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Veröffentlicht in:	Scientific reports 2017-01, Vol.7 (1), p.40339-40339, Article 40339
Hauptverfasser:	King, D. Tommy, Wang, Guiming, Yang, Zhiqiang, Fischer, Justin W.
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Sprache:	eng
Schlagworte:	631/158 704/158/856 Animal Migration - physiology Animals Bird migration Birds - physiology Breeding Climate change Environment Environmental changes Environmental conditions Female Geography Global positioning systems Global warming GPS Humanities and Social Sciences Male multidisciplinary Phenology Population Dynamics Precipitation Relocation Science Science (multidisciplinary) Seasons Spring Temperature effects Vegetation Winter
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description	Spring migration phenology of birds has advanced under warming climate. Migration timing of short-distance migrants is believed to be responsive to environmental changes primarily under exogenous control. However, understanding the ecological causes of the advancement in avian spring migration phenology is still a challenge due to the lack of long-term precise location data. We used 11 years of Global Positioning System relocation data to determine four different migration dates of the annual migration cycle of the American white pelican ( Pelecanus erythrorhynchos ), a short-distance migrant. We also tested the hypothesis that increases in winter temperature and precipitation on the wintering grounds would advance pelican spring migration. Pelican spring departures and arrivals advanced steadily from 2002 to 2011. Spring departure timing exhibited high repeatability at the upper end of migration timing repeatability reported in literature. However, individual spring departure and arrival dates were not related to winter daily temperature, total winter precipitation, and detrended vegetation green-up dates indexed by the normalized difference vegetation index. Despite high repeatability, the observed between-year variation of spring departure dates was still sufficient for the advancement of spring departure timing.
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subjects	631/158 704/158/856 Animal Migration - physiology Animals Bird migration Birds - physiology Breeding Climate change Environment Environmental changes Environmental conditions Female Geography Global positioning systems Global warming GPS Humanities and Social Sciences Male multidisciplinary Phenology Population Dynamics Precipitation Relocation Science Science (multidisciplinary) Seasons Spring Temperature effects Vegetation Winter
title	Advances and Environmental Conditions of Spring Migration Phenology of American White Pelicans
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