Christie D Lavallée1, Saeedeh Bani Assadi1, Alicia M Korpach1, James D Ray2, Jason D Fischer3, Joe Siegrist4, Kevin C Fraser5. 1. Department of Biological Sciences, University of Manitoba, Winnipeg, MB, Canada. 2. Consolidated Nuclear Security, LLC, Pantex Plant, Amarillo, TX, 79120, USA. 3. Disney's Animals, Science, and Environment, Lake Buena Vista, FL, 32830, USA. 4. Purple Martin Conservation Association, Erie, PA, USA. 5. Department of Biological Sciences, University of Manitoba, Winnipeg, MB, Canada. kevin.fraser@umanitoba.ca.
Abstract
BACKGROUND: The migration patterns of land birds can generally be divided into those species that migrate principally during the day and those that migrate during the night. Some species may show individual plasticity in the use of day or night flight, particularly when crossing large, open-water or desert barriers. However, individual plasticity in circadian patterns of migratory flights in diurnally migrating songbirds has never been investigated. METHODS: We used high precision GPS tracking of a diurnal, migratory swallow, the purple martin (Progne subis), to determine whether individuals were flexible in their spring migration strategies to include some night flight, particularly at barrier crossing. RESULTS: Most (91%) of individuals made large (sometimes > 1000 km), open-water crossings of the Caribbean Sea and the Gulf of Mexico that included the use of night flight. 32% of all water crossings were initiated at night, demonstrating that night flight is not only used to complete large crossings but may confer other advantages for diurnal birds. Birds were not more likely to initiate crossings with supportive winds, however crossings were more likely when they reduced travel distances. Our results are consistent with diurnal birds using night flight to help achieve time- and energy-savings through 'short cuts' at barrier crossings, at times and locations when foraging opportunities are not available. CONCLUSIONS: Overall, our results demonstrate the use of nocturnal flight and a high degree of individual plasticity in migration strategies on a circadian scale in a species generally considered to be a diurnal migrant. Nocturnal flights at barrier crossing may provide time and energy savings where foraging opportunities are low in an otherwise diurnal strategy. Future research should target how diel foraging and refueling strategies support nocturnal flights and barrier crossing in this and other diurnal species.
BACKGROUND: The migration patterns of land birds can generally be divided into those species that migrate principally during the day and those that migrate during the night. Some species may show individual plasticity in the use of day or night flight, particularly when crossing large, open-water or desert barriers. However, individual plasticity in circadian patterns of migratory flights in diurnally migrating songbirds has never been investigated. METHODS: We used high precision GPS tracking of a diurnal, migratory swallow, the purple martin (Progne subis), to determine whether individuals were flexible in their spring migration strategies to include some night flight, particularly at barrier crossing. RESULTS: Most (91%) of individuals made large (sometimes > 1000 km), open-water crossings of the Caribbean Sea and the Gulf of Mexico that included the use of night flight. 32% of all water crossings were initiated at night, demonstrating that night flight is not only used to complete large crossings but may confer other advantages for diurnal birds. Birds were not more likely to initiate crossings with supportive winds, however crossings were more likely when they reduced travel distances. Our results are consistent with diurnal birds using night flight to help achieve time- and energy-savings through 'short cuts' at barrier crossings, at times and locations when foraging opportunities are not available. CONCLUSIONS: Overall, our results demonstrate the use of nocturnal flight and a high degree of individual plasticity in migration strategies on a circadian scale in a species generally considered to be a diurnal migrant. Nocturnal flights at barrier crossing may provide time and energy savings where foraging opportunities are low in an otherwise diurnal strategy. Future research should target how diel foraging and refueling strategies support nocturnal flights and barrier crossing in this and other diurnal species.
Authors: Kevin C Fraser; Cassandra Silverio; Patrick Kramer; Nanette Mickle; Robert Aeppli; Bridget J M Stutchbury Journal: PLoS One Date: 2013-05-31 Impact factor: 3.240
Authors: Frédéric Jiguet; Malcolm Burgess; Kasper Thorup; Greg Conway; José Luis Arroyo Matos; Lee Barber; John Black; Niall Burton; Joan Castelló; Gary Clewley; José Luis Copete; Michel Alexandre Czajkowski; Svein Dale; Tony Davis; Valery Dombrovski; Mike Drew; Jaanus Elts; Vicky Gilson; Emilienne Grzegorczyk; Ian Henderson; Michael Holdsworth; Rob Husbands; Romain Lorrilliere; Riho Marja; Simonas Minkevicius; Caroline Moussy; Peter Olsson; Alejandro Onrubia; Marc Pérez; Joseph Piacentini; Markus Piha; Jean-Marc Pons; Petr Procházka; Marko Raković; Harriet Robins; Tuomas Seimola; Gunnar Selstam; Michał Skierczyński; Jan Sondell; Jean-Claude Thibault; Anders P Tøttrup; Justin Walker; Chris Hewson Journal: Sci Rep Date: 2019-12-27 Impact factor: 4.379