Influence of season, inoculum density and ammonia concentration on biomass abundance and ammonia utilization of a microalgal consortium for tertiary remediation of tannery wastewater and valorization of biomass

Phyco-remediation has been advocated as a tertiary step for simultaneous remediation of tannery wastewater and valorization of microalgal biomass. This study was based on the hypothesis that climatic factors could be important functional determinants for system performance in open phyco-remediation...

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Published inAlgal research (Amsterdam) Vol. 90; p. 104137
Main Authors Ranjan, A., Welz, P.J.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2025
Subjects
Animal feed
Neochloris
Phyco-remediation
Tetradesmus dimorphus
Tetradesmus obliquus
CODt
CODs
TTWW
GLM
[NH3]initial
IS
Tetradesmus dimorphus
Tetradesmus obliquus
Animal feed
TWW
Neochloris
Phyco-remediation
DCW
RCM
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Abstract Phyco-remediation has been advocated as a tertiary step for simultaneous remediation of tannery wastewater and valorization of microalgal biomass. This study was based on the hypothesis that climatic factors could be important functional determinants for system performance in open phyco-remediation systems subject to seasonal variations. In this study, ammonia utilization and biomass abundance obtained by a microalgal consortium (Tetradesmus obliquus CCAP 276/1A, Tetradesmus obliquus CPUT-L1, Tetradesmus dimorphus CPUT-L2, Neochloris sp. CPUT-W1) in treated tannery wastewater were measured under simulated winter, autumn/spring and summer conditions (temperature: 8.0 °C, 17.5 °C, 27.0 °C, respectively; photoperiod: 10:14 h, 12:12 h, 14:10 h light:dark, respectively) with varied initial ammonia (7.4 mg/L to 45.6 mg/L) and inoculum size (6 % vol./vol to 34 % vol./vol.) in 500 mL flasks (350 mL working volume) in shaking incubators at 160 rpm. Season had highly significant effects (p < 0.0001) on both responses in an increasing continuum from winter to summer (biomass: 0.39 ± 0.06 g/L to 0.72 ± 0.07 g/L; ammonia utilization 1.7 ± 0.6 mg/day to 4.1 ± 1/6 mg/day). The inoculum size did not have significant effects on either response (p > 0.5), while the initial ammonia concentration had a highly significant effect (p < 0.0001) on the ammonia utilization rate, but not on biomass abundance. Despite the halo-tolerant nature of the microalgal strains, sodium removal efficiency was <1 %, indicating that it is unlikely that phyco-remediation is feasible for removal of sodium in highly saline wastewaters. Overall, this study demonstrated the importance of studying microalgal growth and remediation under climatic conditions likely to be expected in the field with a view to pilot scale implementation. [Display omitted] •Halotolerant microalgal consortium for phyco-remediation of tannery effluent•Effects of simulated climatic conditions, initial ammonia and inoculum size studied.•Climate: highly significant effect on biomass abundance and ammonia utilization•Inoculum size: no effect on biomass abundance or ammonia utilization•Initial ammonia: highly significant effect on ammonia utilization
AbstractList Phyco-remediation has been advocated as a tertiary step for simultaneous remediation of tannery wastewater and valorization of microalgal biomass. This study was based on the hypothesis that climatic factors could be important functional determinants for system performance in open phyco-remediation systems subject to seasonal variations. In this study, ammonia utilization and biomass abundance obtained by a microalgal consortium (Tetradesmus obliquus CCAP 276/1A, Tetradesmus obliquus CPUT-L1, Tetradesmus dimorphus CPUT-L2, Neochloris sp. CPUT-W1) in treated tannery wastewater were measured under simulated winter, autumn/spring and summer conditions (temperature: 8.0 °C, 17.5 °C, 27.0 °C, respectively; photoperiod: 10:14 h, 12:12 h, 14:10 h light:dark, respectively) with varied initial ammonia (7.4 mg/L to 45.6 mg/L) and inoculum size (6 % vol./vol to 34 % vol./vol.) in 500 mL flasks (350 mL working volume) in shaking incubators at 160 rpm. Season had highly significant effects (p < 0.0001) on both responses in an increasing continuum from winter to summer (biomass: 0.39 ± 0.06 g/L to 0.72 ± 0.07 g/L; ammonia utilization 1.7 ± 0.6 mg/day to 4.1 ± 1/6 mg/day). The inoculum size did not have significant effects on either response (p > 0.5), while the initial ammonia concentration had a highly significant effect (p < 0.0001) on the ammonia utilization rate, but not on biomass abundance. Despite the halo-tolerant nature of the microalgal strains, sodium removal efficiency was <1 %, indicating that it is unlikely that phyco-remediation is feasible for removal of sodium in highly saline wastewaters. Overall, this study demonstrated the importance of studying microalgal growth and remediation under climatic conditions likely to be expected in the field with a view to pilot scale implementation. [Display omitted] •Halotolerant microalgal consortium for phyco-remediation of tannery effluent•Effects of simulated climatic conditions, initial ammonia and inoculum size studied.•Climate: highly significant effect on biomass abundance and ammonia utilization•Inoculum size: no effect on biomass abundance or ammonia utilization•Initial ammonia: highly significant effect on ammonia utilization
ArticleNumber 104137
Author Ranjan, A.
Welz, P.J.
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Keywords CODt
CODs
TTWW
GLM
[NH3]initial
IS
Tetradesmus dimorphus
Tetradesmus obliquus
Animal feed
TWW
Neochloris
Phyco-remediation
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RCM
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Snippet Phyco-remediation has been advocated as a tertiary step for simultaneous remediation of tannery wastewater and valorization of microalgal biomass. This study...
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SourceType Index Database
Publisher
StartPage 104137
SubjectTerms Animal feed
Neochloris
Phyco-remediation
Tetradesmus dimorphus
Tetradesmus obliquus
Title Influence of season, inoculum density and ammonia concentration on biomass abundance and ammonia utilization of a microalgal consortium for tertiary remediation of tannery wastewater and valorization of biomass
URI https://dx.doi.org/10.1016/j.algal.2025.104137
Volume 90
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