Potential impact of biofouling on the photobioreactors of the Offshore Membrane Enclosures for Growing Algae (OMEGA) system

Harris, Linden; Tozzi, Sasha; Wiley, Patrick; Young, Colleen; Richardson, Tra-My Justine; Clark, Kit; Trent, Jonathan D.

doi:10.1016/j.biortech.2013.06.125

Cited by 52 publications

(28 citation statements)

References 27 publications

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“…A major group of inhabitants in the initial biofilm formed under conditions where light is present, phototrophic biofilms, are cyanobacteria and microalgae [12,14]. There are many practical issues arising from phototrophic biofilm formation, including problems with biofouling on technical surfaces such as ship hulls and lowered light transmittance in photobioreactors [7,14]. Recent research shows that bacteria, both phototrophs and chemotrophs, can use the quality of the light available to make important lifestyle decisions such as persistence in a single cell state or as a surface-attached biofilm [5].…”

Section: Introductionmentioning

confidence: 99%

Biofilm Formation by Chlorella vulgaris is Affected by Light Quality

et al. 2014

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Formation of biofilm on surfaces is a common feature in aquatic environments. Major groups of inhabitants in conditions where light is present are photoautotrophic microorganisms, such as cyanobacteria and microalgae. This study examined the effect of light quality on growth and biofilm formation of the microalgal species Chlorella vulgaris. Dense biofilm formation and aggregated growth of cells were observed in treatments exposed to blue, purple and white light. Less dense biofilm formation and solitary growth of cells were observed in treatments exposed to red, yellow or green light. Microalgal biofilms are of high importance in many respects, not least from an economic perspective. One example is the intense efforts undertaken to control biofilm formation on technical surfaces such as ship hulls. The present study suggests that light quality plays a role in biofilm formation and that blue-light receptors may be involved.

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Section: Introductionmentioning

confidence: 99%

Biofilm Formation by Chlorella vulgaris is Affected by Light Quality

et al. 2014

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“…Gulls and coots are omnivores that are known to be well adapted to urbanized environments [44,45] which may explain their opportunistic foraging behavior on the biofouling that developed on the PBRs. The PBR biofouling community in Moss Landing harbor was characterized [46] and found to included diatom films, seaweeds, crustaceans, and bryozoans—known food resources for gulls and coots [28,44]. The observed spikes in the number of coots associated with PBRs may be related to their behavioral tendency to aggregate during foraging [47].…”

Section: Discussionmentioning

confidence: 99%

“…It has been shown that the submerged surfaces of OMEGA PBRs provide substrate, refugia, and habitat for sessile and associated organisms [46], thereby increasing local productivity and diversity and potentially improving coastal water quality [20,21,56]. …”

Section: Discussionmentioning

confidence: 99%

Interactions of marine mammals and birds with offshore membrane enclosures for growing algae (OMEGA)

et al. 2014

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BackgroundOMEGA is an integrated aquatic system to produce biofuels, treat and recycle wastewater, capture CO2, and expand aquaculture production. This system includes floating photobioreactors (PBRs) that will cover hundreds of hectares in marine bays. To assess the interactions of marine mammals and birds with PBRs, 9 × 1.3 m flat panel and 9.5 × 0.2 m tubular PBRs were deployed in a harbor and monitored day and night from October 10, 2011 to Janurary 22, 2012 using infrared video. To observe interactions with pinnipeds, two trained sea lions (Zalophus californianus) and one trained harbor seal (Phoca vitulina richardii) were observed and directed to interact with PBRs in tanks. To determine the forces required to puncture PBR plastic and the effects of weathering, Instron measurements were made with a sea otter (Enhydra lutris) tooth and bird beaks.ResultsA total of 1,445 interactions of marine mammals and birds with PBRs were observed in the 2,424 hours of video recorded. The 95 marine mammal interactions, 94 by sea otters and one by a sea lion had average durations of three minutes (max 44 min) and represented about 1% of total recording time. The 1,350 bird interactions, primarily coots (Fulica americana) and gulls (Larus occidentalis and L. californicus) had average durations of six minutes (max. 170) and represented 5% of recording time. Interactive behaviors were characterized as passive (feeding, walking, resting, grooming, and social activity) or proactive (biting, pecking, investigating, and unspecified manipulating). Mammal interactions were predominantly proactive, whereas birds were passive. All interactions occurred primarily during the day. Ninety-six percent of otter interactions occurred in winter, whereas 73% of bird interactions in fall, correlating to their abundance in the harbor. Trained pinnipeds followed most commands to bite, drag, and haul-out onto PBRs, made no overt undirected interactions with the PBRs, but showed avoidance behavior to PBR tethers. Instron measurements indicated that sea-otter teeth and gull beaks can penetrate weathered plastic more easily than new plastic.ConclusionsOtter and bird interactions with experimental PBRs were benign. Large-scale OMEGA systems are predicted to have both positive and negative environmental consequences.

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“…Interest in algae is also driven by perceived high productivities and the potential for carbon uptake and sequestration in mitigating carbon dioxide emissions from power plants. Sea-based floating membrane bioreactors have also been proposed to enable large-scale off-shore farming of algal biomass using municipal wastewaters as nutrient sources (Howell, 2009;Harris et al, 2013). Commercial yields are unlikely to exceed approximately 80 metric tons dry matter per hectare per year (Scott et al, 2010) although more optimistic estimates are frequently made.…”

Section: Industrial and Energy Cropsmentioning

confidence: 99%

Global Agriculture: Industrial Feedstocks for Energy and Materials

Jenkins

2014

Encyclopedia of Agriculture and Food Systems

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Potential impact of biofouling on the photobioreactors of the Offshore Membrane Enclosures for Growing Algae (OMEGA) system

Cited by 52 publications

References 27 publications

Biofilm Formation by Chlorella vulgaris is Affected by Light Quality

Biofilm Formation by Chlorella vulgaris is Affected by Light Quality

Interactions of marine mammals and birds with offshore membrane enclosures for growing algae (OMEGA)

Global Agriculture: Industrial Feedstocks for Energy and Materials

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