The self-adaption capability of microalgal biofilm under different light intensities: Photosynthetic parameters and biofilm microstructures

Microalgae biofilm-based culture systems have received considerable attention because their water requirements and harvesting costs are lower, and biomass productivity is higher, than in suspended culture systems. The photosynthetic properties and microstructure of microalgae biofilms have fundament...

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Bibliographic Details
Published in:Algal research (Amsterdam) 2021-10, Vol.58, p.102383, Article 102383
Main Authors: Wang, Yi, Jiang, Zeyi, Lai, Zhijian, Yuan, Hao, Zhang, Xinru, Jia, Yan, Zhang, Xinxin
Format: Article
Language:English
Subjects:
Light intensity
Microalgae biofilm
Microstructure
Photosynthetic parameter
Self-adaption
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Summary:Microalgae biofilm-based culture systems have received considerable attention because their water requirements and harvesting costs are lower, and biomass productivity is higher, than in suspended culture systems. The photosynthetic properties and microstructure of microalgae biofilms have fundamental effects on biofilm growth. We investigated the photosynthetic parameters, microstructures, biomass accumulation, and CO2 fixation rate of Chlorella sp. biofilms cultured under a series of light intensities (20, 50, 100, 200, and 400 μmol·m−2·s−1). The results indicated that microalgae biofilms had higher photosynthetic potentials and more porous microstructures under low light intensities, and that both of these promoted the efficiency of photon use. In contrast, biofilms under high light intensities exhibited higher photo-protection capabilities and more compact microstructures, which protected microalgae against photo damage. The study revealed that microalgae biofilms have excellent self-adaption capabilities to cope with varying light intensities, and these have significant implications for selection of the optimal light intensity when designing more efficient biofilm-based microalgae culture systems. [Display omitted] •Microalgae biofilms had self-adaption abilities at varying light intensities (LI).•At low LI, biofilm had high photosynthetic potential and a porous microstructure.•At high LI, biofilm had high photoprotection ability and a compact microstructure.•Biomass reached the maximum at an LI due to the balance of light supply and stress.
ISSN:2211-9264
2211-9264
DOI:10.1016/j.algal.2021.102383