Shifting DOC concentration and quality in the freshwater lakes of the Kangerlussuaq region: An experimental assessment of possible mechanisms Rachel A. Fowler Jasmine E. Saros Christopher L. Osburn 10.6084/m9.figshare.6223763.v1 https://tandf.figshare.com/articles/journal_contribution/Shifting_DOC_concentration_and_quality_in_the_freshwater_lakes_of_the_Kangerlussuaq_region_An_experimental_assessment_of_possible_mechanisms/6223763 <p>Since 2003, concentrations of dissolved organic carbon (DOC) in lakes in the Kangerlussuaq region declined by 14–55 percent, with these decreasing DOC concentrations potentially altering lake ecology and reflecting changes in regional carbon (C) cycling. To evaluate possible mechanisms responsible for this shift, we performed experiments to test the effects of dust addition, bacterial activity, or photodegradation on DOC concentration and two DOC quality metrics: the specific ultraviolet absorbance (SUVA<sub>254</sub>) and the chromophoric DOC spectral slope coefficient (S<sub>275–295</sub>). Lake-water DOC concentrations did not decline in any treatments, but there were changes in DOC quality. Dust addition increased SUVA<sub>254</sub> and decreased the magnitude of S<sub>275–295</sub> in one lake, the impacts of bacterial activity were variable, and sunlight exposure elicited a decline in SUVA<sub>254</sub> and an increase in the magnitude of S<sub>275–295</sub> in all lakes. These results suggest that DOC pools in the study lakes are photoreactive, even though the lakes are characterized by long residence times, but that declining DOC concentration did not result from this mechanism. While the tested mechanisms did not explain the decline in DOC concentration observed in recent years, they did yield new information about how dust, bacterial activity, or light can influence DOC quality in the lakes of the Kangerlussuaq region.</p> 2018-05-04 22:04:41 Dissolved organic carbon dust bacterial processing photoreactivity lake C cycling