Chronic effects of temperature and nitrate pollution on Daphnia magna: Is this cladoceran suitable for widespread use as a tertiary treatment?

Effluent clarification and disinfection are major challenges in wastewater management. The cladoceran Daphnia magna has been proposed as a cost-effective and ecosystem-friendly option to clarify and disinfect secondary effluents, but its efficacy has not been fully tested under different sewage cond...

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Veröffentlicht in:Water research (Oxford) 2015-10, Vol.83, p.141-152
Hauptverfasser: Maceda-Veiga, Alberto, Webster, Gordon, Canals, Oriol, Salvadó, Humbert, Weightman, Andrew J., Cable, Jo
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Sprache:eng
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Zusammenfassung:Effluent clarification and disinfection are major challenges in wastewater management. The cladoceran Daphnia magna has been proposed as a cost-effective and ecosystem-friendly option to clarify and disinfect secondary effluents, but its efficacy has not been fully tested under different sewage conditions. The present study explores the effects of temperature and nitrate on the efficacy of D. magna as a tertiary treatment at two different scales (individual assays and microcosms). Individual assays were employed to determine direct effects of temperature and/or nitrate on D. magna cultured in a suspension of organic matter. Using microcosms under the same environmental conditions, we explored the clearing efficacy of D. magna interacting with a natural microbial community. Individual assays revealed that D. magna mortality increased by 17% at 26 °C, 21% at >250 mg NO3−/l and by 60% at 26 °C and at >250 mg NO3−/l, and individuals displayed reduced body size, filtering rates and fecundity when compared to those at 21 °C and 100 ind/l) at 21 °C and 250 mg NO3−/l. In the microcosms at 21 °C and 250 mg NO3−/l. Each treatment developed a unique and characteristic microbial assemblage, and D. magna was identified as the major driver of the community structure of protists and micro-metazoa. This enabled us to determine taxa vulnerability to D. magna grazing, and to re-define their tolerance thresholds for nitrate. In conclusion, this study increases our knowledge of how microbes respond to temperature and nitrate pollution, and highlights that D. magna efficacy as a tertiary treatment can be seriously compromised by variable environmental conditions. The efficacy of Daphnia magna as a tertiary treatment can be compromised under elevated temperature and/or nitrate levels. [Display omitted] •Daphnia magna as a cost-effective option in the sewage treatment process.•D. magna clarifies water and reduces microbial load at 21 °C and 250 mg nitrate/l.•Reducing bacterial load is likely to be challenging using filter-feeders.•Microbes response to warming, nitrate pollution and
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2015.06.036