The Microstructures of <i>Tetradesmus obliquus</i> Biofilms Formed Under Different Nutrient Supplies

The Microstructures of <i>Tetradesmus obliquus</i> Biofilms Formed Under Different Nutrient Supplies

The microstructures of microalgae biofilms affect biofilms’ growth, which is critical in developing efficient microalgae biofilm-based culture systems. Herein, the microstructures of <i>Tetradesmus obliquus</i> biofilms cultured under different nutrients were in situ observed with confoc...

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Bibliographic Details
Main Authors: Hu Zhang, Guan Chen, Zhiying Sun, Xinru Zhang, Zeyi Jiang, Xinxin Zhang
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Applied Sciences
Subjects:
microalgae
biofilm microstructure
cell–cell interaction
porosity
biofuels
Online Access:https://www.mdpi.com/2076-3417/15/9/5104
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Summary:The microstructures of microalgae biofilms affect biofilms’ growth, which is critical in developing efficient microalgae biofilm-based culture systems. Herein, the microstructures of <i>Tetradesmus obliquus</i> biofilms cultured under different nutrients were in situ observed with confocal laser scanning microscopes. The surface structures and internal pore structures for these biofilms were determined quantitatively. The results indicated that the surfaces of these biofilms were all wrinkled with many folds in micrometres. The biofilms cultured under BG11, BG11<sup>+glycerine</sup>, BG11<sup>+urea</sup>, and BG11<sup>+NH<sub>4</sub></sup><sup>Cl</sup> nutrients had small pores with diameters of 15~30 μm, whereas the biofilms formed under BG11<sup>+NaHCO<sub>3</sub></sup> and BG11<sup>+NaNO<sub>3</sub></sup> presented many large pores with diameters of 50~150 μm. The mechanism of forming different microstructures of these nutrients was interpreted by analyzing cell surface properties. We found that the cells cultured under BG11<sup>+NaHCO<sub>3</sub></sup> and BG11<sup>+NaNO<sub>3</sub></sup> had more hydrophobic surface groups. The high cell–cell interactions between hydrophobic cells made cells tend to aggregate together and form biofilms with more inner pores, which may be conducive to cell growth and biofilm development. The study offers new insights into understanding the microstructural characteristics of microalgae biofilms cultured under different nutrients, providing important guidance for the development of biofilm-based culture systems.
ISSN:2076-3417

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