T. Pham et al., SEASONAL-VARIATION OF DDT AND ITS METABOLITES IN THE ST-LAWRENCE-RIVER (CANADA) AND 4 OF ITS TRIBUTARIES, Science of the total environment, 179(1-3), 1996, pp. 17-26
Water samples were collected in the St. Lawrence River and at the mout
hs of four major tributaries, the Richelieu, the Yamaska, the St. Fran
cois and the Nicolet, between August 1990 and November 1991. Analyses
were done for p,p'-DDT, o,p'-DDT, p,p'-DDE, p,p'-DDD and o,p'-DDD. In
the St. Lawrence River, the highest mean ((x) over bar = 3.02 ng/l) wa
s measured in April, during the period of spring thaw, and concentrati
ons subsequently decreased. The seasonal patterns in the tributaries v
ary. In April, the two most likely sources of DDT in the St. Lawrence
River art the release of atmospherically-derived DDT from snowpack, an
d inputs from the Great Lakes. In the tributaries, the increase in con
centration in April could be attributed to the melting of snowpack, an
d also to the runoff of contaminated soil particles from the watershed
s. Ratios of p,p'-DDT/p,p'-DDE + p,p'-DDD in the tributaries decreased
from April to September, indicating an annual cycle of time and tempe
rature dependence on degradation. The same trend was not detected in t
he St. Lawrence River, which may be attributed to the recent use of di
cofol containing DDT as an impurity in the Great Lakes Basin which wou
ld 'unbalance' the ratios of p,p'-DDT/transformed DDT. The difference
between the ratios of p,p'-DDT/Sigma DDT in marine mammals and in the
river suggests that metabolic transformation of p,p'-DDT is occurring
faster than the degradation in the aquatic environment and that there
are still continuous inputs of p,p'-DDT in the St. Lawrence River Basi
n.