Autor: |
Pierre, Kyra A. St., Louis, Vincent L. St., Schiff, Sherry L., Lehnherr, Igor, Dainard, Paul G., Gardner, Alex S., Aukes, Pieter J. K., Sharp, Martin J. |
Předmět: |
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Zdroj: |
Proceedings of the National Academy of Sciences of the United States of America; 9/3/2019, Vol. 116 Issue 36, p17690-17695, 6p |
Abstrakt: |
Carbon dioxide (CO2) emissions from freshwater ecosystems are almost universally predicted to increase with climate warming. Glacier-fed rivers and lakes, however, differ critically from those in nonglacierized catchments in that they receive little terrestrial input of organic matter for decomposition and CO2 production, and transport large quantities of easily mobilized comminuted sediments available for carbonate and silicate weathering reactions that can consume atmospheric CO2. We used a whole-watershed approach, integrating concepts from glaciology and limnology, to conclusively show that certain glacier-fed freshwater ecosystems are important and previously overlooked annual CO2 sinks due to the overwhelming influence of these weathering reactions. Using the glacierized Lake Hazen watershed (Nunavut, Canada, 82°N) as a model system, we found that weathering reactions in the glacial rivers actively consumed CO2 up to 42 km downstream of glaciers, and cumulatively transformed the High Arctic's most voluminous lake into an important CO2 sink. In conjunction with data collected at other proglacial freshwater sites in Greenland and the Canadian Rockies, we suggest that CO2 consumption in proglacial freshwaters due to glacial melt-enhanced weathering is likely a globally relevant phenomenon, with potentially important implications for regional annual carbon budgets in glacierized watersheds. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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