Abstract
Many studies have examined the effects of surface topography on the settlement behaviour of marine organisms and this article reviews these investigations with more emphasis on the effects of topography scale. It has been observed that macro topographies (1-100 mm) are generally favoured by marine fouling taxa and are unsuitable for antifouling applications. This is because macro topographies are usually large enough to fit fouling organisms and provide refuge from dangers in the marine environment. Micro topographies had only limited success at reducing fouling from a wide range of marine taxa. The antifouling performance of micro topographies (1 to ≤ 1000 μm) is dependent on the properties of topography features in terms of symmetry, isotropy, width, length, height/depth, separation distance and average roughness. In terms of the antifouling performance of micro topography, topography geometry may only be of secondary importance in comparison to the size of features itself. It is also noted that hydrodynamic stresses also contribute to the settlement trends of foulers on textured surfaces. Future studies on antifouling topographies should be directed to hierarchical topographies because the mixed topography scales might potentially reduce fouling by both micro and macro organisms. Patterned nano-topographies (1- ≤ 1000 nm) should also be explored because the antifouling mechanisms of these topographies are not yet clear.
Highlights
Many studies have examined the effects of surface topography on the settlement behaviour of marine organisms and this article reviews these investigations with more emphasis on the effects of topography scale
Solid surfaces that spend long periods of time in aquatic environments are susceptible to the accumulation of marine fouling organisms and this phenomenon is known as marine biofouling
This review examined 52 published journal articles from 1988 to 2013 and one PhD thesis. These articles investigated the effects of several physical aspects of surface topography with more focus on topography scale and geometry on the settlement behaviour of marine fouling organisms (Additional file 1: Table S1)
Summary
Solid surfaces that spend long periods of time in aquatic environments are susceptible to the accumulation of marine fouling organisms and this phenomenon is known as marine biofouling This is a natural process which can have significant economic impact on maritime industries. Many studies have identified that surface chemistry can affect the settlement trends of marine organisms These studies resulted in derivations of non-toxic foul-release coatings (FRCs); some of which are commercially available especially for the shipping industry [5,6,7,8,9]. FRCs are made of materials with chemical properties that reduce the adhesion or promote the release of potentially settling organisms [10] These coatings are only effective above a certain level of hydrodynamic shear and still have difficulty preventing the formation of biofilms and the growth of microalgae. Several reviews on foul-release coatings were published in recent years and will not be discussed in this review [10,11,12,13]
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