Efficient nutrient recycling from wastewater to deserts: A comparative study on biocrust cyanobacteria performance

[Display omitted] •Biocrust cyanobacteria efficiently transferred over 90% of nutrients from the wastewater.•S. javanicum exhibited 13.4- to 17.9-fold higher biomass, while M. vaginatus produced 28.4–81.3 % more EPS.•The presence of indigenous microbes in the wastewater did not affect cyanobacterial...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2024-07, Vol.491, p.151927, Article 151927
Main Authors: Wu, Li, Zhang, Cheng, Vadiveloo, Ashiwin, Montes, María L., Xia, Ling, Song, Shaoxian, Fernandez, Mariela A., Lan, Shubin
Format: Article
Language:English
Subjects:
Biocrusts
Cultivation
Cyanobacteria
Drylands
Nutrients
Wastewater
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Summary:[Display omitted] •Biocrust cyanobacteria efficiently transferred over 90% of nutrients from the wastewater.•S. javanicum exhibited 13.4- to 17.9-fold higher biomass, while M. vaginatus produced 28.4–81.3 % more EPS.•The presence of indigenous microbes in the wastewater did not affect cyanobacterial performance.•A robust nutrient recycling strategy from wastewater to desert was developed. Wastewater is rich in nutrients, while desert regions often suffer from severe nutrient shortages, potentially leading to eutrophication and desertification in respective landscapes. Cyanobacterial cultivation emerges as a promising solution by extracting nutrients from wastewater and transferring them to deserts using cyanobacteria-induced biocrust technology. In this study, two biocrust inducing cyanobacteria, Microcoleus vaginatus and Scytonema javanicum were cultivated in synthetic and municipal wastewater, respectively, to assess their capabilities of nutrient removal and biocrust induction. Both cyanobacteria demonstrated effective removal of nitrogen and phosphorus from either synthetic or municipal wastewater, achieving removal rates exceeding 90 %. Sterilization experiments on the municipal wastewater confirmed that indigenous microorganisms did not influence cyanobacterial performance, though the two cyanobacteira exhibited contrasting growth and metabolic behaviors. Specifically, S. javanicum achieved higher biomass accumulation, reaching up to 6.05 ± 0.87 mg Chl-a L−1, whereas M. vaginatus produced more exopolysaccharides, up to 40.98 ± 2.96 mg L−1 in the municipal wastewater. The cyanobacteria harvested from the municipal wastewater effectively promoted biocrust formation, validating the feasibility of transferring nutrients from wastewater to deserts through cyanobacteria-induced biocrusts. Considering their varied growth behaviors, our findings advocate for the use of a combination of diverse cyanobacteria strains to optimize cultivation and inoculation technologies.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2024.151927