Northeastern Section - 38th Annual Meeting (March 27-29, 2003)

Paper No. 6
Presentation Time: 3:40 PM

SOME APPLICATIONS OF ISOTOPE GEOCHEMISTRY IN DETERMINING SOURCES OF CARBON DIOXIDE GAS CONTAMINATION IN WESTERN PENNSYLVANIA


LAUGHREY, Christopher D., Pennsylvania Geological Survey, 400 Waterfront Drive, Pittsburgh, PA 15222 and BALDASSARE, Fred, Pennsylvania Department of Environmental Protection, 400 Waterfront Drive, Pittsburgh, PA 15222, abaldassar@state.pa.us

Accumulations of stray CO2 in buildings are an emerging environmental hazard in portions of the Appalachian coalfields. In western Pennsylvania, potentially lethal concentrations of CO2 (>25%), attended by low volumes of O2 (<10%), have driven families from their homes. This CO2 is anthropogenic in origin, although the specific source is often uncertain. Isotope geochemistry provides the most accurate technique for identifying the specific gas source.

Both organic and inorganic processes in the coalfields generate CO2. Variations in 13C/12C of CO2 help identify gas from these different sources. CO2 generated from organic substrates by microbial activity is enriched in 12C; we measured organic d13CO2 as light as –23.14 per mil. The activity of 14C assists the recognition of recent microbial gas generation. CO2 derived from carbonate materials is enriched in 13C; we measured d13CO2 values between –7.01 and +3.86 per mil in gases accumulated in building spaces. Groundwater chemistry supports interpretations of an inorganic CO2 source based on stable isotope data.Three case studies from western Pennsylvania demonstrate the ambiguity of compositional gas data alone for determining a gas source, and the utility of isotopic analyses to correctly determine specific sources of stray CO2 in buildings.