A. Di Corcia et al., Fate of linear alkyl benzenesulfonates, coproducts, and their metabolites in sewage treatment plants and in receiving river waters, ENV SCI TEC, 33(22), 1999, pp. 4119-4125
Citations number
21
Categorie Soggetti
Environment/Ecology,"Environmental Engineering & Energy
While much attention has been paid to assess contamination levels of linear
alkyl benzenesulfonate (LAS) surfactants in the environment, only a few pa
pers have reported on the levels of breakdown products of LAS and coproduct
s. Major LAS coproducts are dialkyl tetralinsulfonates (DATS) and methyl-br
anched isomers of LAS (iso-LAS). A previous method (accompanying paper) bas
ed on solid-phase extraction (SPE) and liquid chromatography/mass spectrome
try has been modified for monitoring the above analytes in aqueous samples
of sewage treatment plants (STPs) and in river waters. Analytes were extrac
ted from 25, 200, and 1000 mt of respectively raw sewage, treated sewage, a
nd river water samples by a 0.5-g Carbograph 4 SPE cartridge. Recovery stud
ies of some authentic short-chain LAS metabolites suggested that the SPE ca
rtridge was able to quantitatively extract all the compounds of interest fr
om the three types of aqueous matrixes. Under full-scan conditions, limits
of detection of the method for metabolites of LAS and coproducts was set at
2 ng/L in river water. By this procedure, the concentrations in water of t
he analytes entering and leaving five activated sludge STPs were monthly mo
nitored over several months. Field data indicated that about 50% of the met
abolites of LAS coproducts were not mineralized by activated sludge treatme
nt. More than 12% of them were dicarboxylated species. On the average, DATS
metabolites amounted to more than 50% of the total analyte concentrations
in STP effluents. A short survey of the fate of persistent metabolites of L
AS coproducts discharged from a STP in river water gave us some evidence th
at iso-LAS metabolites continued to degrade in the aquatic environment.