REDUCTION OF AMMONIA TOXICITY BY SALINITY AND PH MANIPULATION

Authors

Robert J. Sousa, University of Rhode Island
Thomas L. Meade, University of Rhode Island
Richard E. Wolke, University of Rhode Island

Document Type

Article

Date of Original Version

1-1-1974

Abstract

The toxicity of un‐ionized ammonia (NH3) has severely limited development of high density salmonid culture. In the work described, an interrelationship between pH, salinity, and ammonia tolerance is established. Chinook salmon (Oncorhynchus tshawtyscha) smolts will tolerate higher levels of ammonia under mildly acidic culture condi‐conditions. This is the result of shifting the NH3/NH4 + equilibrium in favor of the non‐toxic NH4+ ion. Intermediate salinities in water re‐use culture systems have also been shown to be beneficial in overcoming the toxic effects of ammonia. This may be related to an ionic exchange relationship between sodium and ammonium ions across the cellular membranes of the gill branchial cells. Environmental manipulation, leading to a reduction in ammonia toxicity, can decrease production costs in water re‐use culture systems. Such prodecures would also help to maintain cultured organisms should problems within water treatment components be encountered. © 1974 World Aquaculture Society

Publication Title, e.g., Journal

Proceedings of the annual meeting ‐ World Mariculture Society

Volume

5

Issue

1-4

Citation/Publisher Attribution

Sousa, Robert J., Thomas L. Meade, and Richard E. Wolke. "REDUCTION OF AMMONIA TOXICITY BY SALINITY AND PH MANIPULATION." Proceedings of the annual meeting ‐ World Mariculture Society 5, 1-4 (1974). doi: 10.1111/j.1749-7345.1974.tb00202.x.