Laboratory Evaluation of Artificial Swim Bladder Deflation in Largemouth Bass: Potential Benefits for Catch-and-Release Fisheries

Abstract

Abstract Artificial swim bladder deflation was examined as a technique to increase postrelease survival of largemouth bass Micropterus salmoides caught from deep water. Depressurization was simulated with a hyperbaric chamber. Largemouth bass showed clinical depressurization signs when depressurized from a simulated depth of 3.5 m and were unable to immediately submerge when depressurized from 8.4 m. When depressurized from a simulated depth of 10.5 m, largemouth bass experienced 0% mortality when subsequently held at 14°C but 78% mortality when held at 28°C. Survivors floated for more than 6 h, a response that could expose them to higher water temperatures in stratified lakes and to increased predation, illegal harvest, and injury. Depressurized largemouth bass that had their swim bladders deflated by being punctured with a hypodermic needle were able to submerge and experienced no mortality when transferred to 14°C or 28°C. The punctured swim bladders were functional immediately. Growth over 4 weeks did...