Nutrients’ Removal from Mariculture Wastewater by Algal–Bacterial Aggregates Developed from Spirulina platensis

As an important alternative to alleviate the shortage of wild fishery resources, mariculture is facing increasing challenges on the wastewater treatment, mainly due to the salinity brought from seawater and low nutrient concentration. In this study, Spirulina platensis (S. platensis) was adopted as...

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Bibliographic Details
Published in:Water (Basel) 2023-02, Vol.15 (3), p.396
Main Authors: Fu, Xiaohua, Jiang, Qianrong, Yang, Xiaojing, Liu, Lihong, Liu, Li, Li, Jingshi, Li, Siyang, Luo, Qijin, Chen, Jianyu, Zhao, Ziwen, Liu, Gang
Format: Article
Language:English
Subjects:
Accumulation
Adaptability
Adaptation
Aggregates
Air flow
Algae
Aquatic microorganisms
Arthrospira platensis
Biomass
Bioreactors
Carbon
Chemical analysis
Chemical oxygen demand
Cyanobacteria
Fisheries
Fishery resources
Granulation
Light emitting diodes
Liquor
mariculture
Marine aquaculture
Membrane filters
microalgae
Nitrogen
Nutrient concentrations
Nutrient content
Nutrient removal
Nutrients
Phosphorus
photobioreactors
protein content
Proteins
Reactors
Resource recovery
Salinity
Seawater
Spirulina platensis
Velocity
wastewater
Wastewater analysis
Wastewater treatment
Water analysis
Water treatment
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Summary:As an important alternative to alleviate the shortage of wild fishery resources, mariculture is facing increasing challenges on the wastewater treatment, mainly due to the salinity brought from seawater and low nutrient concentration. In this study, Spirulina platensis (S. platensis) was adopted as the target algae stain for synthetic mariculture wastewater treatment, which exhibited excellent adaptability to high-saline wastewater during a 40 days’ adaptive culture. Then, the microalgae stain was inoculated into photo-bioreactors with different uplift airflow velocity (UAV) to achieve microalgal aggregation. After 10 days of pre-cultivation and a 30-day granulation process, the maximum nutrient removal rates by S. platensis were 86.5% of TN (to 3.4 mg/L), 98.1% of TP (to 0.1 mg/L) and 95.8% of DOC (to 5.5 mg/L), with 3.5 g/L of biomass content in synthetic wastewater. Analysis of phosphorus and EPS content showed that higher protein content in tightly bound EPS and enhanced P accumulation was accompanied with the microalgal aggregation processes, and P was mainly distributed in the residual rather than the EPS part of microalgal aggregates, indicating that the development of aggregates from suspension S. platensis would benefit not only biomass separation, but also phosphorus recovery, being a potential treatment for simultaneously removing nutrients and recovering mariculture wastewater.
ISSN:2073-4441
2073-4441
DOI:10.3390/w15030396