4.2 Article

Exploiting the closest production area: geographical segregation of foraging grounds in a critically endangered seabird

期刊

MARINE ECOLOGY PROGRESS SERIES
卷 429, 期 -, 页码 291-U650

出版社

INTER-RESEARCH
DOI: 10.3354/meps09126

关键词

Balearic shearwater; Geographical foraging ground segregation; Habitat modelling; Mediterranean Sea; Oceanography; Puffinus mauretanicus; Stable isotopes

资金

  1. Govern de les Illes Balears
  2. DISCBIRD [QLRT-2000-00839]
  3. European Commission
  4. Spanish Ministries of Education and Science [BOS2003-01960, REN2002-00450]
  5. Environment [024A/2002]
  6. Govern de les Illes Balears and Institut Menorqui d'Estudis
  7. Spanish Ministry of Education and Science [EX-2007-1148]
  8. Marie Curie Individual Fellowship [PIEF-GA-2008-220063]
  9. Spanish Ministry of Science and Innovation

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While breeding, seabirds are limited to exploiting resources within a restricted area around their breeding site and should exploit the closest productive marine areas within their distribution range. We investigated this hypothesis in one of the most endangered European seabirds, the Balearic shearwater Puffinus mauretanicus (ca. 3200 breeding pairs), restricted to the Balearic Islands. Our aims were (1) to assess whether isotopic evidence (i.e. stable isotopes of delta C-13 and delta N-15) of foraging habitat partitioning occurs among northern, central and southern populations, (2) to geographically locate population-specific potential foraging grounds along the Iberian continental shelf, and (3) to assess whether oceanographic conditions could explain observed patterns of stable isotopes (SI). SI values showed a latitudinal gradient, with birds from the northern population having lower d15N and d13C values than central and southern populations. Potential foraging grounds of northern, central and southern populations were centred in Cape Creus, Ebro Delta and Cape La Nao, respectively, results which were supported by habitat models. Oceanographic conditions in each potential foraging ground were different; the northern population used richer, colder and deeper waters compared to the central and southern populations. Chlorophyll a was the main oceanographic variable that explained variation in SI values. We hypothesised that SI differences among Balearic shearwater populations might be a consequence of differences in baseline isotopic values among potential foraging grounds rather than real differences in diet. Our comprehensive study also provides important information for management strategies to conserve this critically endangered shearwater.

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