Forests play a critical role in the global carbon cycle, acting as carbon sinks that remove and store an estimated 0.4 to 4.1 Pg of atmospheric carbon annually. However, historical acid deposition and timber harvesting have disrupted nutrient cycles, leading to nutrient-deficient soils that hinder tree growth, particularly for sugar maple (Acer saccharum), a keystone species in Ontario sensitive to soil acidity and calcium (Ca) depletion. This study evaluates the effects of non-industrial wood ash (NIWA) applied at 0, 2, 4, 6, and 12 Mg ha-1 on soil chemistry, nutrient concentrations, microbial activity, CO2 fluxes, and sugar maple growth over two years. NIWA increased soil pH and exchangeable base cations, especially in the organic horizon, with some increase in forest floor metals, though foliar levels remained safe. Enzyme activity responses were minimal, and fine root biomass declined at higher doses. Soil CO₂ fluxes rose sharply at 12 Mg ha⁻¹, suggesting pH-driven effects. NIWA improves soil chemistry, but long-term impacts remain uncertain.
Author Keywords: carbon flux, extracellular soil enzyme, non-industrial wood ash, sugar maple