Microbiological Comparison of Core and Groundwater Samples Collected from a Fractured Basalt Aquifer with that of Dialysis Chambers Incubated In Situ |
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| Authors: | R Michael Lehman Sean P O'Connell Amy Banta James K Fredrickson Anna-Louise Reysenbach Thomas L Kieft |
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| Institution: | 1. Biotechnology Department, Idaho National Engineering and Environmental Laboratory , Idaho Falls, Idaho, USA;2. Department of Environmental Biology, Portland State University , Portland, Oregon, USA;3. Department of Environmental Microbiology, Pacific Northwest National Laboratory , Richland, Washington, USA;4. Biology Department, New Mexico Institute of Mining and Technology , Socorro, New Mexico, USA |
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| Abstract: | Microorganisms associated with basalt core were compared to those suspended in groundwater pumped from the same well in the eastern Snake River Plain Aquifer (Idaho, USA). Two wells located at different distances from the source of a mixed-waste plume in the fractured basalt aquifer were examined. In the well more distal from the plume source, an array of dialysis chambers filled with either deionized water or crushed basalt was equilibrated to compare the microorganisms collected in this fashion with those from core and groundwater samples collected in a traditional manner from the same well. The samples were characterized to determine the total amount of biomass, presence of specific populations or physiological groups, and potential community functions. Microorganisms and their activities were nearly undetectable in core and groundwater collected from the well farthest from the plume source and substantially enriched in both core and groundwater from the well closest to the plume source. In both wells, differences (statistically significant for some measures) were found between bacteria associated with the cores and those suspended in the groundwater. Significantly higher populations were found in the basalt- and water-filled dialysis chambers incubated in the open well compared with core and groundwater samples, respectively. For a given parameter, the variation among dialysis chambers incubated at different depths was much less than the high variation observed among core samples. Analyses on selected basalt- and water-filled dialysis chamber samples suggested that these two communities were compositionally similar but exhibited different potential functions. Documented knowledge of cell physiological changes associated with attachment and potential differences between attached and unattached communities in aquifers indicate that careful consideration should be given to the type of sample media (i.e., core, groundwater, substrata incubated in a well) used to represent a subsurface environment. |
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| Keywords: | aquifer attached free-living groundwater microbiology subsurface TCE |
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