Beaulieu, J. J. 2007. Controls on greenhouse gas emissions from headwater streams. Ph.D. Dissertation, University of Notre Dame, South Bend, Indiana, USA.

Citable PDF link: https://lter.kbs.msu.edu/pub/2340

Anthropogenic activities have increased the concentrations of greenhouse gases in the atmosphere destabilizing global climate patterns. Together, carbon dioxide (CO 2 ), methane (CH 4 ), and nitrous oxide (N 2 O) are responsible for over 70% of the increased radiative forcing of the atmosphere relative to pre-industrial levels. Identifying the sources of these gases is key to controlling their emissions. I investigated whether headwater streams are an important source of greenhouse gases to the atmosphere and how emission rates respond to anthropogenic land use.

Employing a variety of methods including 15 N stable isotope tracer experiments, I demonstrated that N 2 O was produced in the sediments of headwater streams, and that production rates were correlated with stream water NO 3 – concentrations, an indicator of agricultural land use. At the basin scale, the streams had high areal N 2 O emission rates relative to soils, but only emitted about 5% of the N 2 O evading from soils due to the small total surface area of streams.

Although N 2 O emissions from streams have received more attention than CH 4 , I found that CH 4 emissions induced by anthropogenic activity had a global warming potential 12 times that of N 2 O. Methane emission rates were highest in streams affected by agriculture and urbanization, likely because the accumulation of fine sediments in these streams promoted sediment anoxia and methane production.

In a separate line of research, I investigated the environmental fate and transport of a new class of chemical compounds (ionic liquids, ILs) that may replace traditional solvents that indirectly promote the accumulation of CH 4 in the atmosphere. I found that ILs do not strongly sorb to aquatic sediments and are unlikely to bioaccumulate if released into aquatic ecosystems via industrial effluent.

My dissertation research demonstrates that headwater streams are sources of greenhouse gases to the atmosphere, but that N 2 O emissions have been overestimated while CH 4 emissions have been overlooked. By linking in-stream CH 4 and N 2 O production to specific effects of anthropogenic land use (e.g., nitrate enrichment and sedimentation), I have identified management actions that could be taken to reduce these emissions.

Associated Treatment Areas:

  • KBS Landscape
  • Aquatic sites

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