Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 49, Issue 19, Pages 11492-11499Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.est.5b02685
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Funding
- Department of Interior Alaska Climate Science Center
- National Science Foundation [EAR-0943599, DEB-1145885, DEB-1146161, Alaska EPSCoR OIA-1208927]
- Office Of The Director
- Office of Integrative Activities [1208927] Funding Source: National Science Foundation
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Dissolved organic carbon (DOC) plays a fundamental role in the biogeochemistry of glacier ecosystems. However, the specific sources of glacier DOC remain unresolved. To assess the origin and nature of glacier DOC, we collected snow from 10 locations along a transect across the Juneau Icefield, Alaska extending from the coast toward the interior. The Delta C-14-DOC of snow varied from -743 to -420 parts per thousand showing progressive depletion across the Icefield as delta O-18 of water became more depleted (R-2 = 0.56). Older DOC corresponded to lower DOC concentrations in snow (R-2 = 0.31) and a decrease in percent humic-like fluorescence (R-2 = 0.36), indicating an overall decrease in modern DOC across the Icefield. Carbon isotopic signatures (C-13 and C-14) combined with a three-source mixing model showed that DOC deposited in snow across the Icefield reflects fossil fuel combustion products (43-73%) and to a lesser extent marine (21-41%) and terrestrial sources (1-26%). Our finding that combustion aerosols are a large source of DOC to the glacier ecosystem during the early spring (April-May) together with the pronounced rates of glacier melting in the region suggests that the delivery of relic DOC to the ocean may be increasing and consequently impacting the biogeochemistry of glacial and proglacial ecosystems in unanticipated ways.
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