Sea Lions of the World 2006
DOI: 10.4027/slw.2006.17
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Techniques for real-time, active tracking of sea lions

Abstract: The movements of otariids at sea are generally studied by satellite telemetry. At fine scales (1-20 km), however, the level of precision provided by this technique (± mean 1.5-19 km) may be insufficient to accurately reconstruct the track of an individual and/or integrate such movement data with habitat and environmental features. An alternative technique is the boat-based active tracking of individuals by very high frequency (VHF) or acoustic telemetry. By following an individual equipped with transmitters, d… Show more

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Cited by 3 publications
(3 citation statements)
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“…Despite this overlap, the marine environment is dynamic, with prey often distributed heterogeneously within the landscape over space and time. The location of these prey are likely predictable at a large oceanographic scale, given the long-distance migrations of leatherback turtles and inter-annual fidelity to foraging areas [24] , [25] . However, locating prey patches of jellyfish at meso-scales may be more difficult, as they vary spatially and temporally with influences from the movement of surface water and associated nutrients caused by wind [26] and tidal cycles.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Despite this overlap, the marine environment is dynamic, with prey often distributed heterogeneously within the landscape over space and time. The location of these prey are likely predictable at a large oceanographic scale, given the long-distance migrations of leatherback turtles and inter-annual fidelity to foraging areas [24] , [25] . However, locating prey patches of jellyfish at meso-scales may be more difficult, as they vary spatially and temporally with influences from the movement of surface water and associated nutrients caused by wind [26] and tidal cycles.…”
Section: Introductionmentioning
confidence: 99%
“…However, locating prey patches of jellyfish at meso-scales may be more difficult, as they vary spatially and temporally with influences from the movement of surface water and associated nutrients caused by wind [26] and tidal cycles. Because of this heterogeneity in prey presence with space and time, collecting simultaneous information about a predator's prey field and their movements [24] , [25] , [27] is necessary to try to understand an animal's foraging behavior. However, such sampling is expensive and logistically difficult.…”
Section: Introductionmentioning
confidence: 99%
“…The haul-out sites around Frederick Sound in SEAK are used yearround and form an important metapopulation cluster (Raum-Suryan et al 2004), representing >10% of the regional population following the breeding season (Womble et al 2005) as animals return from the coastal rookery complexes (Raum-Suryan et al 2004;Marcotte 2006). Consequently, this key area has been the focus of extensive research, including regular aerial counts (Womble et al 2005), telemetry and behavioural studies (e.g., Raum-Suryan et al 2004;Pitcher et al 2005;Lea and Wilson 2006), and prey availability and quality assessments (Vollenweider 2004;Thedinga et al 2006;Sigler et al 2009). However, basic diet descriptions for the Frederick Sound metapopulation (as well as most other Steller sea lion diet studies) have been limited to reporting prey occurrence (e.g., Trites et al 2007a).…”
Section: Introductionmentioning
confidence: 99%