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Base Cation and Nitrogen Budgets for a Mixed Hardwood Catchment in South-central Ontario

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Abstract

There is growing concern that available base cation pools in soil are declining in eastern North America and that some forests are approaching nitrogen (N) saturation due to the combined effects of acid deposition and harvesting. To assess these concerns, elemental mass balances for calcium (Ca), magnesium (Mg), potassium (K), and N were conducted over a 17-year period in a representative mixed hardwood forest (HP4) in the Muskoka-Haliburton region in central Ontario, Canada. On average, 76% of the N measured in bulk deposition, which is a conservative estimate of total N deposition, was retained in HP4, with tree uptake accounting for over half of the retained N. Year-to-year variations in annual NO3 export were affected by climate variations, although the low annual NO3-N concentrations (80–156 μg/L) suggest that HP4 is not approaching N saturation. Losses of Ca, Mg, and K in stream export plus accumulation in trees (more than 12 cm in diameter at breast height) exceeded inputs in deposition by 296, 76.2, and 53.6 kg/ha, respectively, over the 17-year period. Inclusion of mineral weathering estimates obtained using PROFILE, zirconium (Zr) depletion, and total analysis correlation failed to balance Ca losses from HP4, and calculations indicate that between 98 and 145 kg/ha (depending on mineral weathering estimate) was lost from the soil exchangeable pool between 1983 and 1999. These losses were supported by repeated field measurements, which showed that the exchangeable Ca concentrations and soil pH decreased over the 17-year period, particularly in the upper soil horizons. When mineral weathering estimates are included, mass balance calculations generally indicated that there was no net loss of Mg and K from HP4, which was confirmed by our soil measurements. At present, there is sufficient Ca in the soil exchangeable pool to sustain forest growth at HP4; however, continued losses of Ca due to leaching and harvesting at the present rate may ultimately threaten the health and productivity of the forest within just a few decades.

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Acknowledgements

This study was supported by grants from the National Science and Engineering Research Council of Canada (NSERC), Ontario Power Generation, Inc., and by funding from the Ontario Ministry of the Environment. We thank Lem Scott, Joe Findeis, Carolyn Paterson, Jim Jones, and Catherine Eimers for assistance with the field work and data management.

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  1. Environmental and Resource Studies Program, Trent University, Peterborough, Ontario, K9J 7B8, Canada

    Shaun A. Watmough & Peter J. Dillon

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Watmough, S., Dillon, P. Base Cation and Nitrogen Budgets for a Mixed Hardwood Catchment in South-central Ontario. Ecosystems 6, 675–693 (2003). https://doi.org/10.1007/s10021-002-0164-y

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