Removal of nitrate and phosphate from simulated agricultural runoff water by Chlorella vulgaris.

Vazirzadeh, Arya; Jafarifard, Kiyanoush; Ajdari, Ashkan; Chisti, Yusuf

Vazirzadeh, Arya; Jafarifard, Kiyanoush; Ajdari, Ashkan; Chisti, Yusuf.

Afiliación

Vazirzadeh A; Department of Natural Resources and Environmental Engineering, School of Agriculture, Shiraz University, Shiraz 71441-65186, Iran. Electronic address: vazirzadeh@shirazu.ac.ir.
Jafarifard K; Department of Natural Resources and Environmental Engineering, School of Agriculture, Shiraz University, Shiraz 71441-65186, Iran.
Ajdari A; Offshore Fisheries Research Center, Iranian Fisheries Science Research Institute, Agricultural Research Education, and Extension Organization (AREEO), Chabahar, Iran.
Chisti Y; School of Engineering, Massey University, Private Bag 11 222, Palmerston North, New Zealand.

Sci Total Environ ; 802: 149988, 2022 Jan 01.

Article en En | MEDLINE | ID: mdl-34525699

RESUMEN

Microalgae such Chlorella vulgaris can effectively absorb nitrate and phosphate from contaminated water. This work characterized nitrate and phosphate removal from simulated agricultural runoff using C. vulgaris. Statistically designed experiments were used to model the following responses: (1) algal growth; (2) nitrate removal; (3) phosphate removal; (4) protein in the algal biomass; (5) chlorophyll content of the biomass; (6) the biomass phenolics content; and (7) the free radical scavenging antioxidant activity of the biomass. These response were modelled for the following key experimental factors: initial nitrate concentration in the simulated runoff (1080-3240 mg L-1, as NaNO3), initial phosphate concentration (20-60 mg L-1, as K2HPO4), photoperiod (8-24 h of light/day) and culture duration (5-15 days). The validated models were used to identify the factor levels to maximize the various responses. Nitrate removal was maximized at 85.6% when initial nitrate and phosphate concentrations were 2322 mg L-1 and 38 mg L-1 (N:P atom ratio ≈ 125:1), respectively, with a 17.2 h daily photoperiod in a 13-day culture. Phosphate removal was maximized at 95% when the initial nitrate and phosphate concentrations were 1402 mg L-1 and 56.7 mg L-1 (N:P ≈ 51:1), respectively, with a 15.7 h daily photoperiod in a 14.7-day culture. At least ~14 h of a daily photoperiod and a ~11-day culture period were required to maximize all the studied responses. C. vulgaris is edible and may be used as animal feed. Nutritional aspects of the biomass were characterized. Biomass with more than 24% protein could be produced. Under the best conditions, the chlorophyll (potential food colorants) content of the biomass was 8.5% and the maximum level of total phenolics (antioxidants) in the biomass was nearly 13 mg gallic acid equivalent g-1.

Asunto(s)

Chlorella vulgaris; Microalgas; Biomasa; Nitratos; Fosfatos; Aguas Residuales; Agua

Palabras clave

Agricultural runoff; Algal phenolics; Algal protein; Antioxidants; Chlorella vulgaris; Chlorophylls; Nitrate and phosphate removal

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Chlorella vulgaris / Microalgas Tipo de estudio: Prognostic_studies Idioma: En Revista: Sci Total Environ Año: 2022 Tipo del documento: Article Pais de publicación: Países Bajos

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