Integrated approach to assess the spatio-temporal foraging dynamics of a temperate marine predator, the copper shark (Carcharhinus brachyurus)
Date
2024
Authors
Drew, M.J.
Rogers, P.J.
Hussey, N.E.
Huveneers, C.
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Journal article
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Marine Biology, 2024; 171(4):72-1-72-17
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Michael J. Drew, Paul J. Rogers, Nigel E. Hussey, Charlie Huveneers
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Abstract
Large-bodied sharks can be critical for coupling disparate habitats and food webs, which is considered central for ecosystem stability. Understanding the role of sharks and their associated predator–prey relationships across spatial scales is also integral to the development of multi-species ecosystem models. A combined stomach content (n = 212) and multi-tissue stable isotope (fast [liver; n = 101] vs slow turnover [muscle; n = 108]) approach was used to investigate the feeding ecology of the copper shark (Carcharhinus brachyurus) in the temperate waters of Southern Australia. Sharks were sampled from fishery catches over 3 years, during the austral spring–summer seasons and across three distinct regions. Stomach content analysis identified the copper shark as a generalist predator that consumes a diverse prey base dominated by Sepia novaehollandiae, Sepioteuthis australis, and Sardinops sagax (36%, 21%, and 18% IRI). Regional differences in diet composition were evident, although no size- or sex-based variation was identified. Isotope mixing models and regional food web bi-plots also revealed that S. sagax was the most important prey species, but temporal variation in diet was observed that matched known movements. The copper shark was estimated to be a primary piscivore, feeding at trophic level 4.49. Data on the feeding behaviour of copper sharks will provide vital inputs into future ecosystem-based fishery models and guide conservation and management of this important marine predator in temperate Southern Australian coastal waters.
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© The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2024.