Eric Swenson, Dixie State University
Life Sciences
Underwater invasive species such as mussels and algae attach to submersible substrates that are advantageous for growth, and often include recreational boats that are frequently moved from one waterway to another. This can lead to rapid and uncontrolled spread of the invasive species. Through the use of newly developed ionic surfactants, growth and attachment of species on submersible surfaces can be inhibited. New surfactants have been incorporated into the final coating of typical product sealants to prevent the attachment of various marine organisms. By integrating the surfactant into the coating, an increase in the usefulness and longevity of effective inhibition is expected, as compared to commercially available alkali anti-fowling agents that are applied after the sealing process. It is hypothesized that the adherence properties possessed by marine organisms will be compromised by the introduction of ionic surfactants through changes in the chemical makeup of the exposed surfaces. The ultimate goal is to develop a substrate surface in which there is no affinity for attachment and/or causes fatality to the organism. If the desired outcome is reached, the potential benefits that ensue could create drastic improvements in areas of invasive species prevention and management in the desert southwest fresh-water lakes. Additionally, extension of the surfactant application to metal surfaces could have significant impacts on efficiency in water treatment systems, as well as cargo shipping in saltwater environments.