This study aimed to use nutrients in lake inflows as proxies for assessing human impact and
separating this from natural transformations of material in the soil active layer. Nutrients, conductivity and
δ18O were monitored in surface and subsurface (using ceramic tipped piezometers) lake inflows during
summer in near natural and human impacted catchments. The nutrient levels were highly variable but
generally higher during the last weeks of the flow, in both subsurface waters and in human impacted
catchments. Up to 2000 μgN l−1 subsurface dissolved inorganic nitrogen (DIN) was measured in human
impacted catchments but only 315 μg N l−1 in natural catchments. Subsurface levels of dissolved reactive
phosphorus (DRP) were up to 310 μgP l−1 in natural catchments and up to 108 μgP l-1 in human impacted
catchments. The maximum levels of both DIN and DRP in surface inflows were much higher in human
impacted than in natural catchments. Conductivity and δ18O data showed general enrichment of snowbank
meltwater presumably through evaporation from the active layer. This combined with fluctuating nutrient
levels in catchment waters indicated that soil brines and decaying organic matter of natural and human origin
were possible sources for nutrients and other salts. Marked salinization and substantially increased DIN
levels near the research stations indicated that lake waters were receiving nutrients generated by humans.