Pm. Outridge, Lead biogeochemistry in the littoral zones of south-central Ontario lakes,Canada, after the elimination of gasoline lead additives, WATER A S P, 118(1-2), 2000, pp. 179-201
Stable Pb isotope ratios were used to trace the sources and pathways of Pb
between the atmosphere, surficial sediment fractions, the white water-lily
Nymphaea odorata, and waters collected at 26 littoral sites in 23 Ontario l
akes in summer 1993, three years after alkyl Pb additives were finally elim
inated from Canadian gasoline. Based on similarities of isotopic compositio
n, the exchange of Pb between lakewater and sediment 'carbonate', and subse
quently between 'carbonate', 'oxide' and other sediment fractions, was the
most likely water-sediment pathway of Pb movement. pH controlled Pb fractio
nation within surficial sediments, with the 'organic' pool comprising 80-97
% of total Pb in most acidic lakes and 15-60% in alkaline lakes. About 28%
of the Pb in N. odorata shoots was accumulated directly from water, whereas
there was no evidence of root uptake of Pb from sediments. The Pb in plant
tissues was isotopically homogeneous and dissimilar to the variable compos
ition exhibited in ambient waters and sediments. Plant Pb isotopes strongly
resembled the historical Canadian atmospheric (alkyl Pb) signature. A poss
ible explanation is that, like essential trace metals, historically-accumul
ated Pb was highly conserved during the annual growth cycle of this long-li
ved, clonal macrophyte, being stored over-winter in underground rhizomes an
d recycled into spring growth. Given the low rate of 'new' Pb uptake, histo
rical alkyl Pb may continue to dominate plant tissues for some time, even t
hough it was not detectable in littoral waters and sediments.