In the 1960s and 1970s, commercial vessels commonly used bottom paints containing
tributyltin, which has been banned in the
International Convention on the Control of Harmful Anti-fouling Systems on Ships of the
International Maritime Organization due to its serious toxic effects on marine life (such as the collapse of a French shellfish fishery). Now that tributyltin has been banned, the most commonly used anti-fouling bottom paints are copper-based. Copper-based antifouling paints can also have adverse effects on marine organisms. Copper occurs naturally in aquatic systems but can build up in ports or marinas where there are lots of boats. Copper can leach out of anti-fouling paint from the hulls of the boats or fall off the hulls in different sized paint particles. This can lead to higher-than-normal concentrations of copper in the ports or bays. This excess of copper in the marine ecosystem can have adverse effects on the marine environment and its organisms. In marinas, the
river nerite, a brackish water snail, was found to have higher mortality, negative growth, and a large decrease in reproduction compared to areas with no boating. The snails in marinas had more tissue (
histopathological) issues and alterations in areas like their gills and gonads as well. Increased exposure to copper from antifouling paint has also been found to decrease enzyme activity in
brine shrimp. Antifouling paint particles can be eaten by zooplankton or other marine species and move up the food chain,
bioaccumulating in fish. This accumulation of copper through the food web can cause damage to not only the species eating the particle, but those that are accumulating it in their tissues from their diet. Antifouling paint particles can also end up in the sediment of harbors or bays and damage the
benthic environment or the organisms that live in them. These are the known effects of copper based antifouling paint; however, it has not been a large focus of study so the extent of the effects is not fully known. More research is needed to fully understand how these paints and the metals in them affect their environments. The
Port of San Diego is investigating how to reduce copper input from copper-based antifouling coatings, and Washington State has passed a law which may phase in a ban on copper antifouling coatings on recreational vessels beginning in January 2018. However, despite the toxic chemistry of bottom paint and its accumulation in water ways across the globe, a similar ban was rescinded in the Netherlands after the European Union's Scientific Committee on Health and Environmental Risks concluded The Hague had insufficiently justified the law. In an expert opinion, the committee concluded the Netherlands government's explanation "does not provide sufficient sound scientific evidence to show that the use of copper-based antifouling paints in leisure boats presents significant environmental risk." "Sloughing bottom paints", or "ablative" paints, are an older type of paint designed to create a hull coating which
ablates (wears off) slowly, exposing a fresh layer of biocides. Scrubbing a hull with sloughing bottom paint while it is in the water releases its biocides into the environment. One way to reduce the environmental impact from hulls with sloughing bottom paint is to have them hauled out and cleaned at boatyards with a "closed loop" system. Some innovative bottom paints that do not rely on copper or tin have been developed in response to the increasing scrutiny that copper-based ablative bottom paints have received as environmental pollutants. A possible future replacement for antifouling paint may be slime. A mesh would cover a ship's hull beneath which a series of pores would supply the slime compound. The compound would turn into a viscous slime on contact with water and coat the mesh. The slime would constantly slough off, carrying away micro-organisms and barnacle larvae. ==See also==