Abstract
The large volumes, acute toxicity, estrogenicity,
and antiandrogenicity of process-affected waters accruing in
tailings ponds from the operations of the Alberta oil sands
industries pose a significant task for environmental reclamation.
Synchronous fluorescence spectra (SFS) suggest that oil sands
process-affected water (OSPW) may contain aromatic carboxylic
acids, which are among the potentially environmentally
important toxicants, but no such acids have yet been identified,
limiting interpretations of the results of estrogenicity and other
assays. Here we show that multidimensional comprehensive gas
chromatography mass spectrometry (GCxGC-MS) of methyl esters of acids in an OSPW sample produces mass spectra consistent
with their assignment as C19 and C20 C-ring monoaromatic hydroxy steroid acids, D-ring opened hydroxy and nonhydroxy
polyhydrophenanthroic acids with one aromatic and two alicyclic rings and A-ring opened steroidal keto acids. High resolution MS
data support the assignment of several of the so-called ‘O3’ species. When fractions of distilled, esterified, OSPW acid-extractable
organics were examined, the putative aromatics were mainly present in a high boiling fraction; when examined by argentation thin
layer chromatography, some were present in a fraction with a retardation factor between that of the methyl esters of synthetic
monoalicyclic and monoaromatic acids. Ultraviolet absorption spectra of these fractions indicated the presence of benzenoid
moieties. SFS of model octahydro- and tetrahydrophenanthroic acids produced emissions at the characteristic excitation
wavelengths observed in some OSPW extracts, consistent with the postulations from ultraviolet spectroscopy and mass
spectrometry data. We suggest the acids originate from extensive biodegradation of C-ring monoaromatic steroid hydrocarbons
and offer a means of differentiating residues at different biodegradation stages in tailings ponds. Structural similarities with estrone
and estradiol imply that such compounds may account for some of the environmental estrogenic activity reported in OSPW acidextractable
organics and naphthenic acids.
Original language | English |
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Pages (from-to) | 9806-9815 |
Number of pages | 0 |
Journal | Environmental Science & Technology |
Volume | 45 |
Issue number | 22 |
DOIs | |
Publication status | Published - 20 Oct 2011 |