Litcius/Paper detail

River Inflow Dominates Methane Emissions in an Arctic Coastal System

Cara C. Manning, Victoria Preston, Samantha F. Jones, Anna P. M. Michel, David Nicholson, Patrick J. Duke, Mohamed Ahmed, Kevin Manganini, Brent Else, Philippe D. Tortell

2020Geophysical Research Letters57 citationsDOIOpen Access PDF

Abstract

Abstract We present a year‐round time series of dissolved methane (CH 4 ), along with targeted observations during ice melt of CH 4 and carbon dioxide (CO 2 ) in a river and estuary adjacent to Cambridge Bay, Nunavut, Canada. During the freshet, CH 4 concentrations in the river and ice‐covered estuary were up to 240,000% saturation and 19,000% saturation, respectively, but quickly dropped by >100‐fold following ice melt. Observations with a robotic kayak revealed that river‐derived CH 4 and CO 2 were transported to the estuary and rapidly ventilated to the atmosphere once ice cover retreated. We estimate that river discharge accounts for >95% of annual CH 4 sea‐to‐air emissions from the estuary. These results demonstrate the importance of resolving seasonal dynamics in order to estimate greenhouse gas emissions from polar systems.

Topics & Concepts

EstuaryBayEnvironmental scienceGreenhouse gasMethaneHydrology (agriculture)Carbon dioxideArctic ice packInflowOceanographyArcticDischargeSea iceMelt pondCryosphereAtmospheric sciencesGeologyDrift iceDrainage basinGeotechnical engineeringCartographyGeographyEcologyBiologyArctic and Antarctic ice dynamicsMethane Hydrates and Related PhenomenaClimate change and permafrost