Biofouling
From Freepedia
Biofouling or biological fouling is the undesirable accumulation of microorganisms, plants, algae, and animals on submerged structures, especially ship's hulls. Biofouling also occurs on the surfaces of all living marine organisms, when it is known as epibiosis.
Anti-fouling is the process of removing the accumulation, or preventing its accumulation.
Biofouling is divided into microfouling — biofilm formation and bacterial adhesion — and macrofouling — attachment of larger organisms, of which the main culprits are barnacles, mussels, polychaete worms, bryozoans, and seaweed.
Individually small, accumulated biofoulers can form enormous masses that severely diminish ships' manouvrability and carrying capacity. Fouling causes huge material and economic costs in maintenance of mariculture, shipping industries, naval vessels, and seawater pipelines. Governments and industry spend more than US$ 5.7 billion annually to prevent and control marine biofouling.
In order to minimize the impacts of foulers, many underwater structures are protected by antifouling coatings. Coatings, however, have been found to be toxic to marine organisms. For example, extremely low concentrations of tributyltin moiety (TBT), the mostly commonly used anti-fouling agent, cause defective shell growth in the oyster Crassostrea gigas (at a concentration of 20 ng/l) and development of male characteristics in female genitalia in the dog whelk Nucella (at 1 ng/l). The ban of TBT and other toxic biocides in marine coatings is a severe problem for the shipping industry and for the producers of coatings to develop alternative technologies to prevent fouling on ship hulls. Therefore, safer methods of biofouling control are actively researched.
Biofouling can also occur in groundwater wells where buildup can limit recovery flowrates, and in the exterior and interior of ocean-laying pipes, in the latter case it has been shown to retard the seawater flow through the pipe.
