A diffusion chamber for assessing efficacy of natural anti-fouling defenses in marine organisms

A slow-release diffusion chamber is here described for use in assessing the effectiveness of potentially bioactive compounds as anti-fouling agents. Its settlement surface is a porous 15 mm thick slab of Portites lobata skeleton, through which an aqueous extract of a given marine organism is permitted to diffuse. The chamber is placed at an underwater site for 30 days at a time, and settlement of sessile, benthic organisms, particularly algae, is permitted to occur. Comparative settlement levels were compared between chambers containing an extract and a seawater control. An extract of Sinularia flexibilis (Octocorallia, Alcyonacea) was assessed using such chambers and found to be an effective natural anti-fouling agent or defense mechanism against Ectocarpus sp. and pennate diatoms, reducing their cover by ∼ 50% when compared to experimental conditions using seawater as a control. Intra-chamber variability in extract concentration was found to be minimal. No significant differences were found in extract concentrations between replicate chambers through time. The chamber is a highly cost-effective and efficient tool by which such assessments can be made and easily replicated. It is recommended that coral which has recently died be collected and used as a source of substratum for this purpose.