Spatial ecology of black dogfish (Centroscyllium fabricii) in deep waters off Canada: first record of a nursery, pupping ground and long-distance migration for a deepwater demersal shark
David W. Kulka A * , James A. Sulikowski B and Charles F. Cotton CA Emeritus (retired), Fisheries and Oceans Canada, Dartmouth, NS, B2W 6M7, Canada.
B School of Mathematical and Natural Sciences, Arizona State University, PO Box 37100, Phoenix, AZ 85069-7100, USA.
C Department of Fisheries, Wildlife & Environmental Science, State University of New York at Cobleskill, 114 Rockland Avenue, Cobleskill, NY 12043, USA.
Marine and Freshwater Research 73(8) 1025-1040 https://doi.org/10.1071/MF22067
Submitted: 22 March 2022 Accepted: 16 May 2022 Published: 17 June 2022
© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing
Abstract
Context: Shark pupping and nursery grounds are essential habitats, yet these areas are undocumented for deepwater species. Young juveniles of black dogfish (Centroscyllium fabricii) were found to be dominant in the Laurentian Channel, prompting an analysis of their distribution in Canadian waters of the Northwest Atlantic.
Aims: This study documents patterns of distribution by sex and life stage for black dogfish in shelf and slope waters of Canada.
Methods: Over 40 years of trawl survey data from the Canadian Department of Fisheries and Oceans (DFO) Newfoundland and Labrador Region was analysed to document patterns of distribution of black dogfish by sex and life stage.
Key results: Free-swimming neonates were found in the Laurentian Channel, along with adult females, including some with pups, indicating that the Laurentian Channel is the pupping grounds for this species. Small black dogfish, highly abundant in the Channel, is largely absent in slope waters, indicating that the Channel is the nursery ground for black dogfish in Canada.
Conclusions: As they grows, black dogfish individuals undergo a multi-year distributional shift extending over ∼4000 km, originating in the Laurentian Channel out to slope waters, with the largest fish being found furthest from the Channel. No other deep demersal chondrichthyans are known to undergo a progressive migration as they grow, more akin to pelagic sharks where separate pupping–nursery grounds and long-distance migrations are commonly documented.
Implications: The segregation by life stages shown in the present study differs from previously reported distribution patterns of black dogfish in Greenland and Iceland. Given warm and stable ambient temperatures in the Channel, similar to slope waters, black dogfish is stenothermal, maintaining a narrow thermal profile throughout its life. Identifying the essential habitats of pupping and nursery grounds is crucial to the management and conservation of this species.
Keywords: deepwater shark, depth, distribution, essential habitat, long-distance migration, nursery ground, pupping ground, spatial ecology, temperature.
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