Angela Rouvalis scite author profile

BACKGROUND: Olive oil mill wastewaters (OMW) from a three-phase system were treated in a laboratory-scale continuous stirred tank reactor (CSTR) for hydrogen production. Microbiological and physicochemical characterizations of raw and anaerobically treated olive oil mill effluents were performed. Toxicity assessment was also conducted in order to determine the impact of residual waters on the aquatic environment.

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Comparative Assessment of Olive Oil Mill Effluents from Three-phase and Two-phase Systems, Treated for Hydrogen Production

Rouvalis

Iliopoulou-Georgudaki

2010

Bull Environ Contam Toxicol

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By-products of a two-phase and a three-phase olive oil mill process treated in an anaerobic fermentation system for hydrogen production, were evaluated by three bioassays: the zebrafish Danio rerio embryo test and two microbiotests, Thamnotoxkit F and Daphtoxkit F™ pulex. Samples from both processes were classified as "very toxic" with LC(50) values ranging from 1.52% (T. platyurus 24 h test) to 4.48% (D. pulex 48 h-LC₅₀). Toxicity values were differently correlated to physicochemical parameters showing different degree of influence. The treated effluents of both process systems remained very toxic showing the necessity for further treatment, aiming to environmentally safe discharges.

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Assessment of toxicity of the untreated and Pleurotus ostreatus treated olive mill wastewater by using microbiotests

Rouvalis¹,

Theodoropoulos²,

Iliopoulou-Georgudaki³

2013

IJEE

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Ecological risk assessment of cheese whey effluents along a medium-sized river in southwest Greece

Karadima

Theodoropoulos

Rouvalis

et al. 2010

Journal of Environmental Science and Health, Part A

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An ecological risk assessment of cheese whey effluents was applied in three critical sampling sites located in Vouraikos river (southwest Greece), while ecological classification using Water Framework Directive 2000/60/EU criteria allowed a direct comparison of toxicological and ecological data. Two invertebrates (Daphnia magna and Thamnocephalus platyurus) and the zebra fish Danio rerio were used for toxicological analyses, while the aquatic risk was calculated on the basis of the risk quotient (RQ = PEC/PNEC). Chemical classification of sites was carried out using the Nutrient Classification System, while benthic invertebrates were collected and analyzed for biological classification. Toxicological results revealed the heavy pollution load of the two sites, nearest to the point pollution source, as the PEC/PNEC ratio exceeded 1.0, while unexpectedly, no risk was detected for the most downstream site, due to the consequent interference of the riparian flora. These toxicological results were in agreement with the ecological analysis: the ecological quality of the two heavily impacted sites ranged from moderate to bad, whereas it was found good for the most downstream site. The results of the study indicate major ecological risk for almost 15 km downstream of the point pollution source and the potentiality of the water quality remediation by the riparian vegetation, proving the significance of its maintenance.

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Angela Rouvalis

Determination of pesticides and toxic potency of rainwater samples in western Greece

Microbial and toxic evaluation of raw and treated olive oil mill wastewaters

Comparative Assessment of Olive Oil Mill Effluents from Three-phase and Two-phase Systems, Treated for Hydrogen Production

Assessment of toxicity of the untreated and Pleurotus ostreatus treated olive mill wastewater by using microbiotests

Ecological risk assessment of cheese whey effluents along a medium-sized river in southwest Greece

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