Increased mercury loadings to western Canadian alpine lakes over the past 150 years.

We reconstructed historical trends in mercury (Hg) accumulation over the past ∼ 150 years in nine western Canadian alpine lakes. Recent Hg accumulation rates (fluxes) ranged between ∼ 7 and 75 μg m(-2) yr(-1), which were an average of 1.8 times higher than preindustrial (i.e., pre-1850) fluxes. Increased Hg fluxes in these lakes were less than at lower elevation sites, showing that despite the potential for increased deposition, alpine lakes are no more susceptible to Hg accumulation. Unlike other studies, we found that geographic setting, changes in chlorophyll-inferred algal production, and climate were not significant predictors of [Hg] or Hg flux in lakes. Instead, our findings highlight how a combination of atmospheric deposition and site-specific processes, including organic matter supply and catchment weathering, better explain sequestration of Hg in alpine lakes.