Venting: A Guide to Releasing Reef Fish with Ruptured Swimbladders
Click here to view a PDF version of this document.
Home Search What's New Products Survey Help
Venting: A Guide to Releasing Reef Fish with Ruptured Swimbladders

   

Venting: A Guide to Releasing Reef Fish with Ruptured Swimbladders1

John Stevely, Don Sweat, Chuck Adams, Rich Novak2
Figure 1.

The Problem

Many marine reef fish have a gas-filled organ called a swimbladder, which controls buoyancy and allows the fish to maintain a certain depth in the water column. The gas in the swimbladder can over-expand when fish are brought quickly to the surface by hook and line. This can result in serious injury to the fish, and if released in this buoyant condition, the fish may float away and die from exposure to the elements or become an easy target for predators. This defeats the purpose of fishery management laws such as minimum size restrictions and daily bag limits.

Swimbladder Biology

Many reef fish have a closed swimbladder, an internal organ filled with gases, mostly oxygen, carbon dioxide, and nitrogen. This organ is located in the peritoneal cavity attached to the fish's backbone beneath the dorsal fin.

Figure 2.

Swimbladders can expand only so far before they burst. When the swimbladder bursts, the swimbladder gases escape into the fish's body cavity, where they can continue to expand. The pressure exerted by these gases is sufficient to push the stomach out the mouth and the intestines out of the anus. Venting releases these gases from the body cavity, thus eliminating the pressure on the internal organs. If damage is not excessive, the organs will return in place on their own, once the gases are expelled. Venting also will allow the fish to overcome buoyancy problems and swim down to habitat depth, enhancing its immediate survival.
Figure 3.

Determining Which Fish to Vent

Scientific studies have shown that species with large swimbladders such as red grouper, black sea bass, and gag derive immediate benefit from venting. Your ability to judge which fish should be vented will improve with practice and experience. After reeling in a fish, closely observe its condition. If the fish is bloated and floats (is unable to control its buoyancy) or if the fish's stomach is distended out of the mouth, the fish should be vented. If the fish appears normal, not bloated, and is able to swim down to habitat depth on its own, venting is not necessary.

Venting Procedure

Vent the fish with a minimum of handling. If the fish's stomach is everted out of the fish's mouth, do not attempt to push it back into the fish's body. Expelling the swimbladder gases will allow the stomach to return to its normal position within a few hours.

Figure 4.

Hold the fish gently but firmly on its side and insert the venting tool at a 45-degree angle approximately one to two inches back from the base of the pectoral fin. Only insert the tool deep enough to release the gases -- do not skewer the fish. The sound of the escaping gas is audible and deflation is noticeable. If a fish is extremely bloated, use the hand holding the fish to exert gentle pressure on the fishs abdomen to aid deflation.

Keep a good grip on the venting tool during the entire process, so that an unexpected jerk from the fish does not dislodge the tool and cause injury to others. The fish's everted stomach should not be punctured. This practice is not as efficient in releasing gas from the body cavity and results in additional injury.

Return the fish to the water as soon as possible. If necessary, revive it by holding the fish with the head pointed downward and moving the fish back and forth to pass water over the gills until the fish is able to swim unassisted.

Watch a short video from Mote Marine: (http://isurus.mote.org/research/cfe/fish-bio/how-to-vent-a-fish.htm )

Venting Tools
Figure 5. Venting Tools

A venting tool can be any hollow, sharpened instrument that allows gases to escape. Ice picks and knives are not suitable because simply puncturing the fish is undesirable and can result in a mortal injury.

The Sea Grant/Novak Venting Tool, designed and developed by Florida Sea Grant in cooperation with Mote Marine Laboratory researchers, can be purchased from Aquatic Release Conservation, Inc. (www.dehooker4ARC.com ), or by calling its toll free number, 1-877-411-4272. Florida Sea Grant is not aware of any other commercial suppliers of venting tools.

A venting tool can be created out of a hypodermic syringe with the plunger removed, such as the one pictured above. A 16-gauge needle (cannula) is recommended on a 3-cc syringe as a handy size. A cannula cemented into a hollow wooden dowel also works as a venting tool. Cannulas and syringes can generally be purchased at farm supply stores.

Chlorine bleach is a good disinfectant to use when cleaning the venting tool between uses. Use a syringe cap or place a cork on the tip of the tool after use to prevent personal injury.

Fish Survival Guidelines
Figure 6.

This research, conducted by scientists in the Fisheries Biology Program at the Center for Fisheries Enhancement, Mote Marine Laboratory was sponsored by NOAA, Office of Sea Grant, Department of Commerce, under Grant Number NA36RG-0070.

Information on this page is based on the best available research regarding reef fish venting as interpreted by a Florida Sea Grant Advisory Panel assembled to review this research. Although the authors realize the need for further study of the influence of venting on long term reef fish survival, sufficient information exists to warrant providing guidelines to assist anglers in successful release practices.

Figure 7. Rich Novak

Authors Note: Florida Sea Grant recognizes the contribution to fisheries conservation made by Richard L. "Rich" Novak, one of the foremost advocates of effective angler involvement in sustainable fisheries. Rich had more than 20 years of Sea Grant extension experience and had served as the Florida Sea Grant marine agent in Charlotte County from 1997 until his untimely death in 2004. He was a leader in the development and promotion of the fish venting tool and other catch-and-release techniques that reduce fish mortality.

Footnotes

1. This document is SGEF-162 published by the Florida Sea Grant College Program with support from the National Oceanic and Atmospheric Administration, Office of Sea Grant, U.S. Department of Commerce. Published January 2005. For more information contact Florida Sea Grant, PO Box 110400, Gainesville, FL 32611-0400, 352-392-5870.

2. John Stevely, Marine Extension Agent, Manatee County Cooperative Extension, 1303 17th St. West, Palmetto, FL 34221-5998, jsmarine@ufl.edu. Don Sweat, Marine Extension Agent, Pinellas County Cooperative Extension, 830 First St. South, St. Petersburg, FL, 33701, dsweat@marine.usf.edu. Chuck Adams, Marine Economics Specialist, Florida Sea Grant, PO Box 110240, University of Florida, Gainesville, FL 32611-0240, cmadams@ufl.edu. Rich Novak (deceased).

The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to individuals and institutions that function with non-discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national origin, political opinions or affiliations. For more information on obtaining other extension publications, contact your county Cooperative Extension service.

U.S. Department of Agriculture, Cooperative Extension Service, University of Florida, IFAS, Florida A. & M. University Cooperative Extension Program, and Boards of County Commissioners Cooperating. Larry Arrington, Dean.


Copyright Information

This document is copyrighted by the University of Florida, Institute of Food and Agricultural Sciences (UF/IFAS) for the people of the State of Florida. UF/IFAS retains all rights under all conventions, but permits free reproduction by all agents and offices of the Cooperative Extension Service and the people of the State of Florida. Permission is granted to others to use these materials in part or in full for educational purposes, provided that full credit is given to the UF/IFAS, citing the publication, its source, and date of publication.