Abstract

To assess the long-term effects of atmospheric deposition on forest floor chemical composition, we took quantitative samplings of L-(Oi), F-(Oe), and H-(Oa) layers at an old-growth sugar maple-yellow birch stand on a till soil at the Turkey Lakes Watershed near Lake Superior, Ontario, Canada, in 1981 and 1996. We then assessed these samples for contents of organic matter (OM), total N, K, Ca, Mg, S, and Na, and exchangeable NH 4 + , NO 3 - , K + , Ca 2+ , Mg 2+ , SO 4 2- , and Na + . Over the 15-year period, total OM and element contents remained unchanged, with the exception of N, which increased significantly from 61.3 kmol/ha in 1981 to 78.4 kmol/ha in 1996. On an area basis, there were significant increases in exchangeable Ca 2+ (from 3.8 to 4.6 kmol/ha) and Na + (from 0.05 to 0.08 kmol/ha) and decreases in exchangeable NH 4 + -N (from 1.41 to 0.95 kmol/ha) and SO 4 2- -S (from 1.29 to 0.96 kmol/ha). There were no significant differences in average annual litterfall OM, N, Ca, Mg, S or Na inputs between 1980 and 1985 and between 1992 and 1997. Average annual wet-only SO 4 2- -S deposition during 1981-86 was 0.30; during 1992-97, it was 0.21 kmol/ha. Annual wet-only NO 3 - -N averaged 0.33 kmol/ha during 1981-86 and was similar during 1992-97. Throughfall was less rich in SO 4 2- and Ca 2+ , Mg 2+ , and Na + during 1992-97 than earlier. Throughfall NH 4 - and NO 3 - fluxes were unchanged. Efflux of cations from the forest floor reflected reduced throughput of SO 4 2- . Overall, the results suggest that in spite of atmospheric inputs, active biological processes-including litter input, fine-root turnover, and tree uptake-serve to impart stability to the mineral composition of mature sugar maple forest floor.

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