Arctic Field Projects



Project Title: Determining the Source of Methane in Arctic Ocean Waters Adjacent to Subsea Permafrost (Award# 1417149)

PI: Kessler, John D ( john.kessler@rochester.edu)
Phone: (585) 273.4572 
Institute/Department: U of Rochester, Department of Earth and Environmental Sciences 
IPY Project?
Funding Agency: US\Federal\NSF\GEO\OPP\ARC\ANS
Program Manager: Dr. Henrietta Edmonds (hedmonds@nsf.gov )
Discipline(s): | Oceanography |

Project Web Site(s):
Data: http://www.nodc.noaa.gov/
NSF_Award_Info: http://www.nsf.gov/awardsearch/showAward?AWD_ID=14...
Logistics: http://www.rvukpik.com/

Science Summary:
Methane is a potent greenhouse gas that is present in large amounts in frozen soils and marine sediments in the Arctic. Both natural and anthropogenic climate change are influencing the methane dynamics in the Arctic Ocean, through thawing of subsea permafrost as well as the decreasing sea-ice extent; several recent investigations have documented seemingly elevated methane concentrations in seawater and releases of methane to the atmosphere associated with both of these processes. Release of stored methane can lead to further warming and then to further methane releases in a reinforcing cycle. Both subsea permafrost thaw and sea-ice melt can influence several methane reservoirs such as the stability of ancient methane stored within and below sediments as well as the production of methane by microorganisms both in the seafloor in recently deposited sediments and thawed permafrost and in subsurface ocean waters associated with phytoplankton blooms. Given the diverse sources of methane to ocean waters and the atmosphere in the continental margins of the Arctic Ocean, it is currently unknown which source is contributing most of the observed methane in Arctic waters and thus how the magnitude of this methane source may change. Measurements of the natural radiocarbon content of methane dissolved in ocean waters and sediments can be used to identify its source. For example, methane emitted from seeps and clathrate hydrates is radiocarbon-free, methane formed in recently deposited anoxic sediments or in the subsurface ocean as a result of phytoplankton blooms contains more modern levels of radiocarbon, and degrading permafrost is of Pleistocene age (27,000-43,000 years old). The work proposed here will aim to elucidate these sources through natural radiocarbon measurements of methane dissolved in ocean waters and sediments collected during transects across the continental margin of the Beaufort Sea. The major challenge associated with measuring the natural radiocarbon content of methane dissolved in seawater is collecting enough methane carbon for a quantitative Accelerator Mass Spectrometry (AMS) analysis. Previously published procedures have recently been modified enabling the extraction and collection of methane from approximately 10,000 liters of seawater in less than two hours. These new procedures will enable roughly 100 samples to be collected during a one week oceanographic expedition. Measured horizontal and vertical distributions of the natural radiocarbon content of methane dissolved in ocean waters will determine how the source of methane changes from the coast to the open ocean and from the seafloor to the sea surface. These methane isotopic distributions will also provide a solid test of the hypothesis that the aerobic oxidation of methane will provide a counterbalancing feedback removing the increased quantities of methane leaving the seafloor before it reaches the atmosphere. Graduate and undergraduate students will be involved in the entire scientific process with opportunities not only in their home lab, but also with visits to other facilities. The investigators will leverage firmly established pathways with the University of Rochester and the Rochester Museum and Science Center to promote educational programs within the Rochester City School District to serve underrepresented minority K-12 students.

Logistics Summary:
This two year project will investigate the natural radiocarbon age of methane in coastal ocean waters of the Beaufort Sea adjacent to subsea permafrost. In July 2015, for one season of field work, a field team of 4 will conduct fieldwork during a 7-day cruise aboard the R/V Ukpik. CH4 will be extracted from seawater and sediment, stored in HP aluminum cylinders, and returned to the lab for preparation. A seawater pump will collect water from depths up to 60 m. Researchers will conduct 4 transects in Prudhoe and Harrison Bays beginning close to the shore and extending perpendicular to the coast to a depth of 100 m. Each transect will collect 20 samples of CH4 dissolved in water for radiocarbon analysis. The team will collect 2-3 gravity cores and extract and collect methane from ~6 different depths in each core.

All logistics will be organized by the researcher and paid through the grant.
SeasonField SiteDate InDate Out#People
2015Arctic Ocean and Seas - Beaufort Sea08 / 27 / 2015 09 / 06 / 20154
 


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Parameters used to generate this report:, Grant# = "1417149", IPY = "ALL" 
     Number of projects returned based on your query parameters = 1
 
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