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Abstract
The effectiveness of deepwater release at improving the 17-d survival of discarded yelloweye rockfish Sebastes ruberrimus was determined by comparing an estimate of survival for individuals released at depth with an estimate of submergence probability for individuals released at the water's surface. A mark–recapture study was used to generate a maximum likelihood estimate of the 17-d survival probability of yelloweye rockfish (n = 182) caught by hook and line (depth = 18–72 m) and subsequently released at depth. The average Cormack–Jolly–Seber survival probability for yelloweye rockfish released at depth was remarkably high (0.988; 95% confidence interval = 0.478–0.999) and positively correlated with individual total length. Survival probability was not significantly influenced by the range of capture depths explored in this study or by exposure to barotrauma and other capture stressors. The submergence success of yelloweye rockfish released at the water's surface was 0.221 (95% confidence interval = 0.149–0.315), suggesting that the maximum survival potential of individuals released at the surface is low. The results of this study indicate that the average survival of discarded yelloweye rockfish can be substantially improved by deepwater release.
Received March 25, 2011; accepted June 22, 2011
ACKNOWLEDGMENTS
We thank Brittany Blain, Dan Bosch, Chuck Brazil, and Krissy Dunker for valuable assistance in the field. We also thank Adam Craig, Scott Meyer, Jack Erickson, Bob Clark, and two anonymous reviewers for providing helpful edits on an earlier draft. This project was funded in part by Federal Aid in Sport Fish Restoration grants F-10-24 and F-10-25.