Seasonal residency, activity space, and use of deep-water channels by Greenland sharks (Somniosus microcephalus) in an Arctic fjord system

Jena E. Edwards, University of Windsor
Kevin J. Hedges, Fisheries and Oceans Canada
Nigel E. Hussey, University of Windsor

Abstract

As Arctic ecosystems become increasingly vulnerable to climate-and human-induced stressors, effective marine management will rely on the characterization of fish movements. Over a six-year study period, the movements of 65 Greenland sharks (Somniosus microcephalus) (41 males, 24 females; mean LT = 2.48 6 0.50 m) were monitored using static acoustic telemetry. Shark presence in a typical deep-water fjord was restricted to the summer open-water period. Residency duration varied based on age class (juvenile, n = 17; subadult, n = 48); however, activity space size and extent were comparable. A quarter of tagged sharks (n = 16) returned to the system in subsequent years after tagging, with individuals redetected for a maximum of 4 years. Movements between coastal and offshore waters occurred primarily via a deep-water channel with sharks detected along the channel banks. These multiyear data depict how a potentially vulnerable Arctic predator utilizes a deep-water fjord in the context of the regional development of community inshore and offshore commercial fisheries.