Lead-210 sedimentation in Lake Ontario |
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Authors: | S. R. Joshi B. S. Shukla A. G. Bobba |
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Affiliation: | (1) Lakes Research Branch, National Water Research Institute Canada Centre for Inland Waters Environment Canada, P.O. Box 5050, L7R 4A6 Burlington, Ontario, Canada;(2) Department of Chemistry, University of Toronto, M5S 1A1 Toronto, Ontario, Canada;(3) Rivers Research Branch, National Water Research Institute Canada Centre for Inland Waters Environment Canada, P.O. Box 5050, L7R 4A6 Burlington, Ontario, Canada |
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Abstract: | The sedimentation rates and diffusive sediment mixing coefficients at several Lake Ontario locations have been derived from measurements of unsupported210Pb profiles in sediment cores. The values of mixing coefficients obtained in the present study are significantly lower than those obtained previously through an analysis of porosity profiles. The present estimates, however, are consistent with the rather well-preserved pollutant profiles at some of these locations. It is observed that the more realistic value of the mixing coefficient, obtained by inclusion of the sedimentation rate parameter, follows the sign opposite to that for the constant obtained by regression analysis of the porosity data. Further work is required to delineate this apparent relationship between two important physical characteristics of deposited sediments.Analysis of available suspended sediment data shows that Niagara River supplies about 1.8 million tonnes of sediment annually to Lake Ontario. This value is significantly lower than that (4.6 mt/yr) used previously in constructing sediment and pollutant budgets for Lake Ontario. From the presently derived sedimentation rate and suspended solid discharge estimates, an average value of 441 km2 (range 220-938 km2) is obtained for the minimum area of Lake Ontario over which the Niagara River-supplied fine sediment is deposited. |
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