Geolocators reveal migration and pre-breeding behaviour of the critically endangered Balearic Shearwater Puffinus mauretanicus
Geolocators reveal migration and pre-breeding behaviour of the critically endangered Balearic Shearwater Puffinus mauretanicus
Using combined miniature archival light and salt-water immersion loggers, we characterise the year-round individual at-sea movements of Europe's only critically endangered seabird, the Balearic shearwater Puffinus mauretanicus, for the first time. Focusing on the non-breeding period, we show that all of the 26 breeding birds tracked from their breeding site on Mallorca in the Mediterranean Sea successfully made a 2–4 month migration into the Atlantic Ocean, where they utilised well-defined core areas off Portuguese and French coasts. As well as identifying high-risk areas in the Atlantic, our results confirm that breeding birds spend most of the year concentrated around productive waters of the Iberian shelf in the western Mediterranean. Migration phenology appeared largely unrelated to the subsequent (distinctly synchronous) breeding attempt, suggesting that any carry-over effects were compensated for during a long pre-laying period spent over winter in the Mediterranean. Using the light and salt-water immersion data alone we were also able to characterise the pattern of pre-laying visits to the colony in considerable detail, demonstrating that breeding pairs appear to coordinate their over-day visits using a high frequency of night-time visits throughout the winter. Our study shows that geolocation technology is a valuable tool for assessing the spatial distribution of risks to this critically endangered species, and also provides a low-impact method for remotely observing the detailed behaviour of seabird species that may be sensitive to disturbance from traditional study methods.
e33753
Guilford, Tim
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Wynn, Russell
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McMinn, Miguel
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Rodríguez, Ana
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Fayet, Annette
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Maurice, Lou
36f635e4-046e-42cc-9fdc-b04ae4015bab
Jones, Alice
c93f267d-ff12-454a-be62-85706898adf3
Meier, Rhiannon
987cfb29-5162-484d-b33c-3cb891cd9b68
2012
Guilford, Tim
6f814dc8-b32a-4dab-9ff2-785e82395657
Wynn, Russell
72ccd765-9240-45f8-9951-4552b497475a
McMinn, Miguel
2e074f1f-1934-42a1-be35-67d42a3984f4
Rodríguez, Ana
89d6f61e-13d7-4f8a-8a4e-2f054d0c572f
Fayet, Annette
f8a7dee2-2323-4707-a849-eeec17b0642b
Maurice, Lou
36f635e4-046e-42cc-9fdc-b04ae4015bab
Jones, Alice
c93f267d-ff12-454a-be62-85706898adf3
Meier, Rhiannon
987cfb29-5162-484d-b33c-3cb891cd9b68
Guilford, Tim, Wynn, Russell, McMinn, Miguel, Rodríguez, Ana, Fayet, Annette, Maurice, Lou, Jones, Alice and Meier, Rhiannon
(2012)
Geolocators reveal migration and pre-breeding behaviour of the critically endangered Balearic Shearwater Puffinus mauretanicus.
PLoS ONE, 7 (3), .
(doi:10.1371/journal.pone.0033753).
Abstract
Using combined miniature archival light and salt-water immersion loggers, we characterise the year-round individual at-sea movements of Europe's only critically endangered seabird, the Balearic shearwater Puffinus mauretanicus, for the first time. Focusing on the non-breeding period, we show that all of the 26 breeding birds tracked from their breeding site on Mallorca in the Mediterranean Sea successfully made a 2–4 month migration into the Atlantic Ocean, where they utilised well-defined core areas off Portuguese and French coasts. As well as identifying high-risk areas in the Atlantic, our results confirm that breeding birds spend most of the year concentrated around productive waters of the Iberian shelf in the western Mediterranean. Migration phenology appeared largely unrelated to the subsequent (distinctly synchronous) breeding attempt, suggesting that any carry-over effects were compensated for during a long pre-laying period spent over winter in the Mediterranean. Using the light and salt-water immersion data alone we were also able to characterise the pattern of pre-laying visits to the colony in considerable detail, demonstrating that breeding pairs appear to coordinate their over-day visits using a high frequency of night-time visits throughout the winter. Our study shows that geolocation technology is a valuable tool for assessing the spatial distribution of risks to this critically endangered species, and also provides a low-impact method for remotely observing the detailed behaviour of seabird species that may be sensitive to disturbance from traditional study methods.
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Published date: 2012
Organisations:
Geology & Geophysics, Marine Geoscience
Identifiers
Local EPrints ID: 347415
URI: http://eprints.soton.ac.uk/id/eprint/347415
ISSN: 1932-6203
PURE UUID: da630229-9022-4ca0-bc1f-911f7cf1f866
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Date deposited: 21 Jan 2013 16:54
Last modified: 14 Mar 2024 12:48
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Contributors
Author:
Tim Guilford
Author:
Russell Wynn
Author:
Miguel McMinn
Author:
Ana Rodríguez
Author:
Annette Fayet
Author:
Lou Maurice
Author:
Alice Jones
Author:
Rhiannon Meier
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