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The Physiological Response of Port Jackson Sharks and Australian Swellsharks to Sedation, Gill‐Net Capture, and Repeated Sampling in Captivity
Author(s) -
Frick Lorenz H.,
Reina Richard D.,
Walker Terence I.
Publication year - 2009
Publication title -
north american journal of fisheries management
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.587
H-Index - 72
eISSN - 1548-8675
pISSN - 0275-5947
DOI - 10.1577/m08-031.1
Subject(s) - sedation , captivity , blood sampling , fight or flight response , fishery , physiological stress , port (circuit theory) , sampling (signal processing) , biology , ecology , zoology , medicine , physiology , pharmacology , computer science , biochemistry , gene , electrical engineering , engineering , filter (signal processing) , computer vision
Abstract Studying postrelease effects of fisheries capture on chondrichthyans in the wild poses considerable logistical challenges. We report a laboratory‐based technique to (1) simulate gill‐net capture of sharks, which allows monitoring the condition of animals during recovery from a controlled capture event, and (2) assess effects of sedation, serial blood sampling, and repeated exposure to experimental treatment on stress‐related blood variables. Exposing Port Jackson sharks Heterodontus portusjacksoni and Australian swellsharks Cephaloscyllium laticeps to 30 min of simulated gill‐net capture elicited behavioral stress (struggling and elevated ventilation rate) and minor physiological stress (elevated plasma lactate) responses but did not cause any mortality. Sedation of Australian swellsharks affected some stress‐related blood variables. Repeated handling of Port Jackson sharks and Australian swellsharks at short intervals may result in elevated stress levels, but repeated exposure to simulated capture does not affect the physiological response of these two species to the treatment. Overall, the results of this study demonstrate the feasibility of simulated capture events as a technique to investigate the physiological response of sharks to capture stress.

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