Biofilms are believed to play a significant role in the fate and transport
of contaminants in aquatic environments. However little is known about the
rates of sorption (k) and partitioning (K-d) Of contaminants to biofilms. S
tudies of the latter were performed using mature biofilm cultivated in a ro
to-torque reactor. The reactor was flushed with river water containing a mi
xture of tetrabutyltin, p,p-DDT, diclofop-methyl, triallate, lindane, atraz
ine, parathion-methyl, and dimethoate in two experiments. The first experim
ent was conducted at a spiked level of 1 mu g/L, and the second was conduct
ed at 10 mu g/L for each component. Apart from dimethoate, there was rapid
depletion of all contaminants from the water phase within the first 5-10 mi
n with sorption occurring by pseudo-first-order kinetics. In general, the m
ean values of k (10(-4) min(-1)) increased with water solubility and were 8
, 70, 110, 180, 230, 370, and 100 for p,p-DDT, diclofop-methyl, triallate,
tetrabutyltin, lindane, atrazine, and parathion-methyl, respectively. The v
alues of log K-d increased linearly with log K-ow and decreased linearly wi
th the log of the aqueous solubilities. In general, K-ow values were signif
icantly greater than the corresponding values of K-d, indicating that parti
tioning of contaminants was not limited to lipophilic regions of the biofil
m.