Journal Article

The optimal spatial scale for the analysis of elephant seal foraging as determined by geo-location in relation to sea surface temperatures

C. J. A. Bradshaw, M. A. Hindell, K. J. Michael and M. D. Sumner

in ICES Journal of Marine Science

Published on behalf of ICES/CIEM

Volume 59, issue 4, pages 770-781
Published in print January 2002 | ISSN: 1054-3139
Published online January 2002 | e-ISSN: 1095-9289 | DOI: https://dx.doi.org/10.1006/jmsc.2002.1246
The optimal spatial scale for the analysis of elephant seal foraging as determined by geo-location in relation to sea surface temperatures

More Like This

Show all results sharing these subjects:

  • Environmental Science
  • Marine and Estuarine Biology

GO

Show Summary Details

Preview

There is increasing emphasis put on the correlation of marine predator behaviour and foraging performance with the bio-physical properties of the ocean environment. However, spatial error in the estimated position of animals and the accuracy of interpolated, physical oceanographic data require the assessment of the appropriate spatial resolution at which to assess relationships. We recorded surface temperature data from 17 archival tags attached to female southern elephant seals at Macquarie Island during the post-lactation foraging trip of 1999–2000. Archival-tag temperature data were associated with twice-daily, at-sea positions derived from light levels (i.e., “geo-location”). We compared these surface temperatures and their associated spatial error to satellite-derived Multi-Channel Sea Surface Temperature (MCSST) data to assess at what spatial scale the agreement between the two data sources was highest. We considered scales from 50×50 km through to 500×500 km grid cells, at 50×50 km increments. Averaged over all individuals and assessed in fortnightly time periods, we found a peak in agreement between the mean surface temperature recorded by the archival tags and the MCSST data at 350×350 km grid cells (122 500 km2). We used logistic regression model selection to examine the effects of spatial scale, time period, latitude, longitude, and MCSST variance per grid cell on the agreement between the data sources. The most parsimonious model included all main effects, and a significant interaction between time period and latitude. There was also a trend for reduced agreement at higher latitudes, and there was a peak in temperature agreement in the general region around 180° longitude. There were two peaks in agreement during the early and latter parts of the post-lactation foraging trip, resulting probably from the more northerly latitudes travelled during these times and the improved MCSST coverage in the summer months. The 350×350 km scale recommended by this study should be appropriate for the study of coarse-scale associations between marine predators located using geo-location and physical oceanographic data during summer. However, the approach remains valid for predators located at sea using other positioning methods.

Keywords: southern elephant seal; spatial scale; resolution; sea surface temperature; MCSST; correlation; geo-location; Macquarie Island

Journal Article.  0 words. 

Subjects: Environmental Science ; Marine and Estuarine Biology

Full text: subscription required

How to subscribe Recommend to my Librarian

Users without a subscription are not able to see the full content. Please, subscribe or login to access all content.