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Mercury emission from terrestrial background surfaces in the eastern USA. Part I: Air/surface exchange of mercury within a southeastern deciduous forest (Tennessee) over one year |
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| Authors: | Todd Kuiken Hong Zhang Mae Gustin Steve Lindberg |
| Institution: | 1. Center for the Management, Utilization and Protection of Water Resources, Tennessee Tech University, Cookeville, TN 38505, USA;2. Department of Chemistry, Tennessee Tech University, Cookeville, TN 38505, USA;3. Department of Natural Resources and Environmental Science, University of Nevada, Reno (UNR), NV 89557, USA;4. Oak Ridge National Laboratory (ORNL), USA;5. University of Tennessee, USA;6. University of Michigan, USA |
| Abstract: | This study focused on the development of a seasonal data set of the Hg air/surface exchange over soils associated with low Hg containing surfaces in a deciduous forest in the southern USA. Data were collected every month for 11 months in 2004 within Standing Stone State Forest in Tennessee using the dynamic flux chamber method. Mercury air/surface exchange associated with the litter covered forest floor was very low with the annual mean daytime flux being 0.4 ± 0.5 ng m−2 h−1 (n = 301). The daytime Hg air/surface exchange over the year oscillated between emission (81% of samples with positive flux) and deposition (19% of samples with negative flux). A seasonal trend of lower emission in the spring and summer (closed canopy) relative to the fall and winter (open canopy) was observed. Correlations were found between the air/surface exchange and certain environmental factors on specific days sampled but not collectively over the entire year. The very low magnitude of Hg air/surface exchange as observed in this study suggests that an improved methodology for determining and reporting emission fluxes is needed when the values of fluxes and chamber blanks are both very low and comparable. This study raises questions and points to a need for more research regarding how to scale the Hg air/surface exchange for surfaces with very low emissions. |
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