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Mountain glaciation drives rapid oxidation of rock-bound organic carbon.

Kate HoranRobert G HiltonDavid SelbyChris J OttleyDarren R GröckeMurray HicksKevin W Burton
Published in: Science advances (2017)
Over millions of years, the oxidation of organic carbon contained within sedimentary rocks is one of the main sources of carbon dioxide to the atmosphere, yet the controls on this emission remain poorly constrained. We use rhenium to track the oxidation of rock-bound organic carbon in the mountain watersheds of New Zealand, where high rates of physical erosion expose rocks to chemical weathering. Oxidative weathering fluxes are two to three times higher in watersheds dominated by valley glaciers and exposed to frost shattering processes, compared to those with less glacial cover; a feature that we also observe in mountain watersheds globally. Consequently, we show that mountain glaciation can result in an atmospheric carbon dioxide source during weathering and erosion, as fresh minerals are exposed for weathering in an environment with high oxygen availability. This provides a counter mechanism against global cooling over geological time scales.
Keyphrases
  • carbon dioxide
  • hydrogen peroxide
  • physical activity
  • mental health
  • machine learning
  • electron transfer
  • drinking water
  • air pollution
  • solid state