Ecotoxicological effects from three antifouling paints on the red macroalga Ceramium tenuicorne.

Krantz-Frid, Madelene

January 2009

Antifouling paints are applied on vessels to prevent growth of fouling organisms such hasbarnacles. Presently, there are a number of different paints available on the Swedish marketwith different strategies and active substances. The paints might work by either continuouslyreleasing biocides or physically by peeling off or provide an easily cleansed surface whereorganisms cannot attach. The physically working paints do not need to register an activesubstance since its purpose is not to affect living organisms by a chemical or biological modeof action. In this study, two commercially available paints, the copper-based Fabi 3959(International Paint Ltd) and physically eroding, biocide-free labelled Mille Light (HempelFärg AB) were compared to Hard Racing superior, containing copper and the forbiddensubstance Tributyltin. Fabi International is only allowed to be used on the Swedish west coastdue to 6% added as active substance while the biocide-free Mille Light is eligible for eastcoast usage. The toxic effect from respective paint was investigated by assembling a growthinhibition test with the red macro alga Ceramium tenuicorne. The results show that all thestudied paints had a negative effect on growth and therefore leaked substances inconcentrations high enough to be harmful to the alga. The toxic response differed with theeffect on growth being in the following order, Hard racing superior>Fabi >Mille Light.Implications regarding the current legalization involving biocide-free labelled antifoulingpaints are discussed.

Antifouling paint

Ceramium tenuicorne

biocide-free

TBT

copper

growth inhibition test

The Baltic Sea

Biological Sciences

Biologiska vetenskaper

Pharmacology and Toxicology

Farmakologi och toxikologi

D-Tryptophan as a Biocide Enhancer for Desulfovibrio vulgaris Biofilm Mitigation andBiocorrosion of Carbon Steel by Nitrate-Reducing Pseudomonas aeruginosa

Lindenberger, Amy L.

January 2014

No description available.

Chemical Engineering

microbiologically influenced corrosion

biocorrosion

sulfate-reducing bacteria

Desulfovibrio vulgaris

nitrate-reducing bacteria

Pseudomonas aeruginosa

biocide enhancer

D-amino acids

D-tryptophan

carbon steel

Mechanisms of Corrosion Caused by Anaerobic Biofilms and Its Mitigation Using a Biocide Enhanced by D-Amino Acids

Cai, Weizhen

January 2017

No description available.

Biomedical Engineering

Chemical Engineering

microbiologically influenced corrosion

biocorrosion

sulfate-reducing bacteria

Desulfovibrio vulgaris

nitrate-reducing bacteria

Pseudomonas aeruginosa

biocide enhancer

D-amino acids

carbon steel

stainless steel

H2S

Mechanisms of Microbiologically Influenced Corrosion Caused by Corrosive Biofilms and its Mitigation Using Enhanced Biocide Treatment

Jia, Ru

January 2018

No description available.

Chemical Engineering

Chemistry

Microbiology

Materials Science

microbiologically influenced corrosion

sulfate reducing bacteria

sulfate reducing archaea

carbon steel

nitrate reducing bacteria

extracellular electron transfer

enhanced oil recovery

biocide

D-amino acid

peptide

electrochemical measurements