A Review of Biofouling of Ships’ Internal Seawater Systems

Davidson, Ian; Cahill, Patrick; Hinz, Arne; Kluza, Daniel A.; Scianni, Chris; Georgiades, Eugene

doi:10.3389/fmars.2021.761531

Cited by 20 publications

(15 citation statements)

References 66 publications

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“…17,35,36 One of the reasons related to the enormous expenditures for annually renovating the ships' hulls 36 and maintaining the widely spread electrothermal de-icing systems of aircrafts 37 is the difference in the physical mechanisms governing the passive icing and biofouling protection. 38 It would be great if the naval vessels, for instance, can pass through a given aquatoria without translocating biospecies and being covered by ice in order to overcome biosecurity risks 39 and the occurrence of capsizing, pitching, and topside flooding due to loss of stability and extra weight from the ice burden. 40 This seems to be a challenging task because simultaneously suppressing the heterogeneous ice nucleation and biofilm growth is conceivable solely at a subtle and custom arrangement of the surface morphology, topography, chemistry, porosity and roughness.…”

Section: Introductionmentioning

confidence: 99%

On the Development of Ultradurable Extremely Water-Repellent and Oleophobic Soot-Based Fabrics with Direct Relevance to Sperm Cryopreservation

Esmeryan

Fedchenko

Gyoshev

et al. 2022

ACS Appl. Bio Mater.

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Nowadays, the tremendous progress of nanotechnologies and materials science facilitates the fabrication of universal and multifunctional superhydrophobic surfaces on a large scale. Yet, integrating icephobic and anti-bioadhesive properties in an individual water-repellent functional coating, for addressing the difficulties faced by cryobiologists, aircraft, and seacraft manufacturers, is quite tricky but feasible if using nonpolar soot nanoparticles, whose fragility, however, impedes their industrial applicability. Here, we advance the current state-of-the-art to an extent, permitting the introduction of economically affordable and ultradurable non-wettable soot-based coatings. The deposition of rapeseed oil soot, cyanoacrylate glue and fluorine compounds onto different fabrics confers the latter with superior tolerance to harsh mechanical and thermal interventions [e.g., scratching, blade scraping, liquid nitrogen immersion (T ∼ −196 °C), torsion and water jetting], while in the meantime retaining water repellency and oleophobicity. The as-prepared soot fabrics can stick continuously to the selected host surface and favor the recovery of ∼60% of the initial motility of human spermatozoa subjected to cryopreservation or being detached and utilized as standalone non-wettable membranes. Our invention may be considered as the first fundamental stage of safely (without any health concerns) transferring the soot in reproductive medicine and developing enhanced cryogenic and antibacterial medical devices.

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Section: Introductionmentioning

confidence: 99%

On the Development of Ultradurable Extremely Water-Repellent and Oleophobic Soot-Based Fabrics with Direct Relevance to Sperm Cryopreservation

Esmeryan

Fedchenko

Gyoshev

et al. 2022

ACS Appl. Bio Mater.

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“…Surface fouling is defeating man-made devices in various fields. Water treatment, the marine , and food industries as well as the medical field − are seeking surfaces that will prevent undesired fouling. This spontaneous deposition of molecules, macromolecules, and micro-organisms on an engineered surface upon contact with a liquid medium leads to the formation of biofilms that strongly impede performance and functionality.…”

Section: Introductionmentioning

confidence: 99%

“…However, these approaches are limited in time, only affect micro-organisms and do not prevent biomolecular fouling, and still face the issue of antibioresistance, biocide resistance and damage to the environment. Only short-term specific applications will benefit from this mechanism. ,, A second mechanism relies on contact-killing. Surface chemistry approaches allow immobilization of active molecules onto the surface, leading to micro-organisms being killed upon contact or adhesion.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…Only short-term specific applications will benefit from this mechanism. 3,13,14 (ii) A second mechanism relies on contact-killing. Surface chemistry approaches allow immobilization of active molecules onto the surface, leading to micro-organisms being killed upon contact or adhesion.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Combining Topography and Chemistry to Produce Antibiofouling Surfaces: A Review

Durand

Whiteley

Mailley

et al. 2022

ACS Appl. Bio Mater.

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Despite decades of research on the reduction of surface fouling from biomolecules or micro-organisms, the ultimate antibiofouling surface remains undiscovered. The recent covid-19 pandemic strengthened the crucial need for such treatments. Among the numerous approaches that are able to provide surfaces with antibiofouling properties, chemical, biological, and topographical strategies have been implemented for instance in the marine, medical, or food industries. However, many of these methods have a biocidal effect and, with antibioresistance and biocide resistance a growing threat on humanity, strategies based on reducing adsorption of biomolecules and micro-organism are necessary for long-term solutions. Bioinspired strategies, combining both surface chemistry and topography, are currently at the heart of the best innovative and sustainable solutions. The synergistic effect of micro/nanostructuration, together with engineered chemical or biological functionalization is believed to contribute to the development of antibiofouling surfaces. This review aims to present approaches combining hydrophobic or hydrophilic chemistries with a specific topography to avoid biofouling in various industrial environments and healthcare facilities.

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Identifying marine invasion threats and management priorities through introduction pathway analysis in a remote sub‐Antarctic ecosystem

Bayley,

Brewin,

James

et al. 2024

Ecology and Evolution

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The threat from novel marine species introductions is a global issue. When non‐native marine species are introduced to novel environments and become invasive, they can affect biodiversity, industry, ecosystem function, and both human and wildlife health. Isolated areas with sensitive or highly specialised endemic species can be particularly impacted. The global increase in the scope of tourism and other human activities, together with a rapidly changing climate, now put these remote ecosystems under threat. In this context, we analyse invasion pathways into South Georgia and the South Sandwich Islands (SGSSI) for marine non‐native species via vessel biofouling. The SGSSI archipelago has high biodiversity and endemism, and has historically been highly isolated from the South American mainland. The islands sit just below the Polar Front temperature boundary, affording some protection against introductions. However, the region is now warming and SGSSI increasingly acts as a gateway port for vessel traffic into the wider Antarctic, amplifying invasion likelihood. We use remote Automatic Identification System vessel‐tracking data over a 2‐year period to map vessel movement and behaviour around South Georgia, and across the ‘Scotia Sea’, ‘Magellanic’ and northern ‘Continental High Antarctic’ ecoregions. We find multiple vessel types from locations across the globe frequently now enter shallow inshore waters and stop for prolonged periods (weeks/months) at anchor. Vessels are active throughout the year and stop at multiple port hubs, frequently crossing international waters and ecoregions. Management recommendations to reduce marine invasion likelihood within SGSSI include initiating benthic and hull monitoring at the identified activity/dispersion hubs of King Edward Point, Bay of Isles, Gold Harbour, St Andrews Bay and Stromness Bay. More broadly, regional collaboration and coordination is necessary at neighbouring international ports. Here vessels need increased pre‐ and post‐arrival biosecurity assessment following set protocols, and improved monitoring of hulls for biofouling to pre‐emptively mitigate this threat.

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A Review of Biofouling of Ships’ Internal Seawater Systems

Cited by 20 publications

References 66 publications

On the Development of Ultradurable Extremely Water-Repellent and Oleophobic Soot-Based Fabrics with Direct Relevance to Sperm Cryopreservation

On the Development of Ultradurable Extremely Water-Repellent and Oleophobic Soot-Based Fabrics with Direct Relevance to Sperm Cryopreservation

Combining Topography and Chemistry to Produce Antibiofouling Surfaces: A Review

Identifying marine invasion threats and management priorities through introduction pathway analysis in a remote sub‐Antarctic ecosystem

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