@article{epos1722, volume = {506-50}, month = {February}, author = {Nikolaus Klamerth and Jes{\'u}s Moreira and Chao Li and Arvinder Singh and Kerry N. McPhedran and Pamela Chelme-Ayala and Miodrag Belosevic and Mohamed Gamal El-Din}, title = {Effect of ozonation on the naphthenic acids' speciation and toxicity of pH-dependent organic extracts of oil sands process-affected water}, publisher = {Elsevier}, journal = {Science of The Total Environment}, pages = {66--75}, year = {2015}, url = {https://episodesplatform.eu/eprints/1722/}, abstract = {The presence of naphthenic acids (NAs) and other organic constituents in oil sands process-affected water (OSPW) stored in tailings ponds, poses a serious environmental threat due to their potential toxicity to aquatic organisms and wild life. In this work, four fractions of OSPW, extracted by dichloromethane at different pHs, were ozonated to determine the ozone impact on NAs degradation. Extracts distributions showed that high carbon number NAs (14?22) were associated with higher pH fractions (pH {\ensuremath{>}} 7) and smaller carbon number NAs (7?13) with lower pH fractions (pH {$\leq$} 7). Extracts showed similar hydrogen deficiency (Z-number) patterns centered on Z = 6. Analysis of the speciation of NAs and oxidized NAs in the four fractions showed that ozonation degraded most NAs (55\% to 98\%). Despite the high degradation levels, there was still significant toxicity of the fractions toward goldfish macrophages and measurable toxicity toward Vibrio fischeri. The toxicity of such a complex matrix as OSPW may be attributed to other organic compounds and degradation by-products not currently detected. Thus, there is a need to elucidate which compounds are responsible for the remaining OSPW toxicity and to determine if combined processes, such as ozonation followed by biological treatment, are able to completely detoxify OSPW. This work is taking the first steps into this direction, narrowing down the range of compounds which might be responsible for the toxicity.} }