Bm. Onken et Sj. Traina, THE SORPTION OF PYRENE AND ANTHRACENE TO HUMIC ACID-MINERAL COMPLEXES- EFFECT OF FRACTIONAL ORGANIC-CARBON CONTENT, Journal of environmental quality, 26(1), 1997, pp. 126-132
Carbon-normalized distribution coefficients (K-oc) of organic solutes
appear to increase as the amount of organic C in a system decreases, T
his study was conducted to determine the effect of fractional organic
C content (f(oc)) on the sorption of anthracene and pyrene, Batch-sorp
tion experiments were conducted on reagent CaCO3, a geologic calcite,
and a montmorillonite to measure anthracene and pyrene sorption, An or
ganic C-free mineral surface and two surface loadings of humic acid (H
A) were evaluated, The K-oc of anthracene and pyrene varied with f(oc)
as well as with the underlying mineral surface, The sorption of anthr
acene and pyrene to all HA-mineral complexes increased with increases
in f(oc) while K-oc for the compounds decreased, In higher f(oc) syste
ms (>3 x 10(-5)), isotherms were C-type curves indicative of partition
ing, In lower f(oc) systems (<3 x 10(-5)), isotherms were commonly L a
nd S-type curves indicative of adsorption and condensation, Sources of
potential experimental artifact examined were loss of HA from the min
eral surface to solution, dissolution of CaCO3 during the experiment,
and loss of NOS to experimental glassware or volatilization, None were
found to contribute to the observations made, Our results suggest tha
t adsorption-condensation of pyrene and anthracene created more surfac
e excess than predicted by partitioning alone as evidenced by the larg
e experimental K-oc values obtained.