D. Grant Allen scite author profile

The development of microalgal biofilms has received very limited study despite its relevance in the design of photobioreactors where film growth may be advantageous for biomass separation or disadvantageous in fouling surfaces. Here, the effects of species selection, species control, and substrate properties on biofilms of Scenedesmus obliquus and Chlorella vulgaris were investigated. Experiments were conducted in batch culture and in continuous culture modes in a flow cell. Cell growth was monitored using confocal laser scanning microscopy and gravimetrically. Species selection and species control had significant effects on biofilm development. On non-sterile wastewater, C. vulgaris shifted from primarily planktonic (23.7% attachment) to primarily sessile (79.8% attachment) growth. The biofilms that developed in non-sterile conditions were thicker (52 ± 19 μm) than those grown in sterile conditions (7 ± 6 μm). By contrast, S. obliquus attained similar thicknesses (54 ± 31 and 53 ± 38 μm) in both sterile and non-sterile conditions. Neither species was able to dominate a non-sterile biofilm. The effect of substrate surface properties was minimal. Both species grew films of similar thickness (approximately 30 μm for S. obliquus, < 10 μm for C. vulgaris) on materials ranging from hydrophilic (glass) to hydrophobic (polytetrafluoroethylene). Surface roughness created by micropatterning the surface with 10 μm grooves did not translate into long-term increases in biofilm thickness. The results indicate that species selection and control are more important than surface properties in the development of microalgal biofilms.

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Algae biofilm growth and the potential to stimulate lipid accumulation through nutrient starvation

Schnurr

Espie

Allen

2013

Bioresource Technology

134

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Effects of Biomass Growth on Gas Pressure Drop in Biofilters

2001

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D. Grant Allen

Surface properties of sludge and their role in bioflocculation and settleability

Biofiltration of mixtures of hydrophilic and hydrophobic volatile organic compounds

A review of the properties of biosludge and its relevance to enhanced dewatering processes

Factors affecting algae biofilm growth and lipid production: A review

Interparticle Interactions Affecting the Stability of Sludge Flocs

Species and material considerations in the formation and development of microalgal biofilms

Algae biofilm growth and the potential to stimulate lipid accumulation through nutrient starvation

Effects of Biomass Growth on Gas Pressure Drop in Biofilters

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