Effects of lake size, water clarity, and climatic variability on mixing depths in Canadian Shield lakes

Abstract

The depth of the summer mixed (E_d) of 21 Canadian Shield lakes in northwestern Ontario was examined in relation to lake size (surface area, A_o) and water clarity (extinction coefficient, K_d) for periods ranging from 2 to 23 yr (n = 1,408). The lakes range in A_o from 4 to 4.9 × 10⁵ ha, and midsummer (mid‐June through mid‐August mean) K_d varied from 2.5 m^‒1 with greatest variation in small lakes that were experimentally eutrophicated or acidified or whose terrestrial basins were burned. Over the full spectrum of lake sizes, A_o was the primary determinant of E_d; transparency significantly modified this relationship but only in small lakes (A_o 2 climate change) would cause transparency to increase, resulting in 1–2‐m‐deeper epilimnia in small lakes; there would be no similar effect in large lakes.