Groundwater Flow and Exchange Across the Land Surface Explain Carbon Export Patterns in Continuous Permafrost Watersheds

Groundwater flow regimes in the seasonally thawed soils in areas of continuous permafrost are relatively unknown despite their potential role in delivering water, carbon, and nutrients to streams. Using numerical groundwater flow models informed by observations from a headwater catchment in arctic A...

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Bibliographic Details
Main Authors: Neilson, Bethany T., Cardenas, M. Bayani, O'Connor, Michael T., Rasmussen, Mitchell T., King, Tyler V., Kling, George W.
Other Authors: AGU
Format: Text
Language:unknown
Published: Hosted by Utah State University Libraries 2018
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Online Access:https://digitalcommons.usu.edu/cee_facpub/3603
https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=4606&context=cee_facpub
Description
Summary:Groundwater flow regimes in the seasonally thawed soils in areas of continuous permafrost are relatively unknown despite their potential role in delivering water, carbon, and nutrients to streams. Using numerical groundwater flow models informed by observations from a headwater catchment in arctic Alaska, United States, we identify several mechanisms that result in substantial surface‐subsurface water exchanges across the land surface during downslope transport and create a primary control on dissolved organic carbon loading to streams and rivers. The models indicate that surface water flowing downslope has a substantial groundwater component due to rapid surface‐subsurface exchanges across a range of hydrologic states, from unsaturated to flooded. Field‐based measurements corroborate the high groundwater contributions, and river dissolved organic carbon concentrations are similar to that of groundwater across large discharge ranges. The persistence of these groundwater contributions in arctic watersheds will influence carbon export to rivers as thaw depth increases in a warmer climate.