Marine microfouling in Monterey Harbor observations using the scanning electron microscope /

Taylor, James Earl.

January 1977

Thesis (M.S.)--Naval Postgraduate School, 1977. / Includes bibliographical references (leaves 62-65).

Settlement of marine fouling organisms in response to novel antifouling coatings

Afsar, Anisul, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2008

Surfaces submerged in marine environments rapidly get colonized by marine organisms, a process known as biofouling. Fouling costs maritime industries billions of dollars annually. The most common methods of combating marine biofouling are toxin containing antifouling coatings which often have detrimental non-target environmental effects. These effects and proposed bans on harmful substances in antifouling coatings, mandates development of more environmentally friendly antifouling technologies. Of these, foul-release coatings, which minimize attachment and adhesion of fouling organisms (rather than killing them) are promising alternatives. Here I explored the utility of petroleum waxes as novel antifouling/foul-release coatings. I first investigated the responses of propagules (larvae or spores) of six common fouling organisms to wax coatings in the laboratory. A wide variation in the response of these different organisms, and in the different types of response (settlement, adhesion, etc.) by the same organism, was observed, but the most inhibitory coatings were those made from microcrystalline wax and silicone oil. However, in field trials in Sydney Harbour, paraffin waxes had the strongest antifouling performance, with activity up to one year (the trial duration). These waxes also had strong foul-release effects, with fouling that did attach mostly removed by a low pressure water jet. Composition of fouling communities on paraffin waxes differed significantly from other waxes or controls, with little or no hard fouling organisms (barnacles, bivalves) on paraffin. The mechanisms of antifouling and foul-release actions of paraffin waxes appear to be due to changes in surface properties. The surfaces of the paraffin waxes changed noticeably after 4 - 8 weeks immersion in the sea or in seawater aquaria. Antibiotic treatments showed that this change in surface appearance was due to biological (microbial) activity. Bacteria appear to remove the amorphous phase from the surface of the paraffin waxes, revealing an underlying crystalline phase, which is less affected by bacterial action. I suggest that these crystals form a microstructured ?bed of nails? of crystals of varying shapes and sizes which inhibit settlement and reduce adhesion strength of those organisms which do settle.

Foul-release

Biofouling

Antifouling

Wax

Marine fouling organisms

Coatings

Potential chemical defenses against diatom fouling in macroalgae from the Antarctic Peninsula insights from bioassay guided fractionation /

Sevak, Hamel P.

January 2010

Thesis (M.S.)--University of Alabama at Birmingham, 2010. / Title from PDF title page (viewed Jan. 21, 2010). Includes bibliographical references (p. 32-40) .

Aspects of marine fouling and antifouling in Victoria Harbour, Hong Kong

Hon, Sau-ling, Shirley, 韓琇玲

January 1978

published_or_final_version / Zoology / Master / Master of Philosophy

Harbors - China - Hong Kong.

Settlement of marine fouling organisms in response to novel antifouling coatings

Afsar, Anisul, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2008

Surfaces submerged in marine environments rapidly get colonized by marine organisms, a process known as biofouling. Fouling costs maritime industries billions of dollars annually. The most common methods of combating marine biofouling are toxin containing antifouling coatings which often have detrimental non-target environmental effects. These effects and proposed bans on harmful substances in antifouling coatings, mandates development of more environmentally friendly antifouling technologies. Of these, foul-release coatings, which minimize attachment and adhesion of fouling organisms (rather than killing them) are promising alternatives. Here I explored the utility of petroleum waxes as novel antifouling/foul-release coatings. I first investigated the responses of propagules (larvae or spores) of six common fouling organisms to wax coatings in the laboratory. A wide variation in the response of these different organisms, and in the different types of response (settlement, adhesion, etc.) by the same organism, was observed, but the most inhibitory coatings were those made from microcrystalline wax and silicone oil. However, in field trials in Sydney Harbour, paraffin waxes had the strongest antifouling performance, with activity up to one year (the trial duration). These waxes also had strong foul-release effects, with fouling that did attach mostly removed by a low pressure water jet. Composition of fouling communities on paraffin waxes differed significantly from other waxes or controls, with little or no hard fouling organisms (barnacles, bivalves) on paraffin. The mechanisms of antifouling and foul-release actions of paraffin waxes appear to be due to changes in surface properties. The surfaces of the paraffin waxes changed noticeably after 4 - 8 weeks immersion in the sea or in seawater aquaria. Antibiotic treatments showed that this change in surface appearance was due to biological (microbial) activity. Bacteria appear to remove the amorphous phase from the surface of the paraffin waxes, revealing an underlying crystalline phase, which is less affected by bacterial action. I suggest that these crystals form a microstructured ?bed of nails? of crystals of varying shapes and sizes which inhibit settlement and reduce adhesion strength of those organisms which do settle.

Foul-release

Biofouling

Antifouling

Wax

Marine fouling organisms

Coatings

Climate change and invasive species interact to impact succession and diversity in Gulf of Maine marine fouling communities /

Dijkstra, Jennifer Anne.

January 2007

Theses (Ph.D.)--University of New Hampshire (Dept. of Zoology), 2007. / Includes bibliographical references. Also available online.

Potential antifouling compounds of marine-derived fungi from Hong Kong

Miao, Li.

January 2006

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2006. / Adviser: Pei-Yuan Qian. Includes bibliographical references.

Antifouling compounds from deep-sea bacteria and their potential mode of action /

Xu, Ying.

January 2009

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2009. / Includes bibliographical references.

A study of algal biofouling on pearl nets in Charles Arm, Notre Dame Bay, Newfoundland /

Mouland, Derek J.,

January 2003

Thesis (M.Sc.)--Memorial University of Newfoundland, 2004. / Bibliography: leaves 73-80.

Potential antifouling compounds of marine-derived fungi from Hong Kong /

Miao, Li.

January 2006

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2006. / Includes bibliographical references. Also available in electronic version.