A meteorological survey of the Oak Ridge area : final report covering the period 1948-52 /

"November 1953."

Supplementary meteorological data for Oak Ridge /

"March 15, 1963 [DTI Issuance Date]."

Abbreviations of periodicals cited in publications issued by the Technical Information Service, Oak Ridge /

"December 1953."

The role of atomic energy in agricultural research. Proceedings of the fourth annual Oak Ridge Summer Symposium, Aug. 25-30, 1952;

"Sponsored by University of Tennessee-Atomic Energy Commission Agricultural Research Program, August 25-30, 1952."

Oak Grove Cemetery inscriptions, Chelsea Michigan /

Includes index.

Proceedings of the Conference on Radiation Biology held at the Oak Ridge Associated Universities, August 2-5, 1965.

Sponsored by the Oak Ridge National Laboratory and other groups, in cooperation with the U. S. Atomic Energy Commission.

Status of highly enriched uranium processing capability at Building 9212 Oak Ridge Y-12 Plant.

"December 8, 1995."

Address of President Hoover at the dedication of the remodeled tomb of Abraham Lincoln. Springfield, Ill., Wednesday, June 17, 1931 ...

Mode of access: Internet.

Board of Governors, MMPP Oak Ridge, Fall 1958, standing outdoors

2 scans, 1of2 = full sheet, 2of2 = image alone

Report on labor dispute at Oak Ridge National Laboratory. Message from the President of the United States transmitting Report to Congress concerning the labor dispute which recently existed at the Oak Ridge National Laboratory.

Mode of access: Internet.

A copy of inscriptions on the gravestones in the old cemetery, or Pine Ridge cemetery, so called, in Hancock, New Hampshire.

Andrew B. Stone, Edgar L. Ware, and Wilfred M. Davis, committee appointed by the selectmen of the town to make a survey and plan of the cemetery, with a copy of the inscriptions on all the gravestones. cf. p. 3.

The role of atomic energy in agricultural research. Proceedings of the fourth annual Oak Ridge Summer Symposium, Aug.25-30, 1952.

U.S. Atomic Energy Commission: TID-5115.

Biogeochemical factors affecting the fate and transport of mercury in the terrestrial environment at Oak Ridge, Tennessee

Mercury (Hg) contamination problem in the United Sates has been an important issue due to its potential threat to human and ecological health. This thesis presents a study of two Hg-contaminated sites along the East Fork Poplar Creek (EFPC) at Oak Ridge. The top soils from the terrestrial areas, along with the soils from three vertical soil horizons at the EFPC bank were sampled and analyzed for total-Hg (THg), methyl-Hg, total-organic-carbon (TOC), and pH. The stream bank soils were also analyzed for the stable-Hg-isotopes (198Hg, 199Hg, 200Hg, 201Hg, and 202Hg). Furthermore, some of the soil samples (n=7) from the same study sites were investigated for phytoavailability of mercury as measured by degree of Hg translocation in aboveground biomass of Impatiens walleriana plants grown in the soils.^ The results showed a significant difference (p<0.001) in THg concentrations for the forest soils (42.40±4.98 mg/kg) and the grassland soils (8.71±2.30 mg/kg). The higher THg and methyl-Hg concentrations were commensurate with the higher TOC content in the soils (p<0.001). Also, the THg concentrations for the upstream site was higher (129.08±34.14 mg/kg) than the downstream site (24.31±3.47 mg/kg). The two sites also differed in their stable Hg isotope compositions (p<0.001 for δ199Hg). The stable isotope analysis indicated the increased level of mass dependent isotopic fractionation with increasing depths along the EFPC bank. The difference between the two study sites was also prominent in case of the Hg uptake by the plants, with higher Hg uptake from the upstream soils compared to that from the downstream soils. A significant correlation, r=0.93 p<0.01, was observed between the Hg uptake and the soil-THg concentrations. THg was higher in the leaves (1161.87±310.01 μg/kg) than in the flowers (206.13±55.23 μg/kg) or the stems (634.54±403.35μg/kg). ^ The level of Hg contamination increased with decreasing distance from the point source and was highly influenced by plants/microbes, soil-organic-content, and Hg-speciation. The isotopic study indicated the existence of an additional Hg source in the EFPC watershed, possibly atmospheric Hg-deposition. These findings are worth taking into account while planning any Hg remediation effort and developing Hg loading criteria as per the National Pollutant Discharge Elimination System (NPDES) Program.^

An integrated flow and transport model to study the impact of mercury remediation strategies for East Fork Poplar Creek watershed, Oak Ridge, Tennessee

An integrated flow and transport model using MIKE SHE/MIKE 11 software was developed to predict the flow and transport of mercury, Hg(II), under varying environmental conditions. The model analyzed the impact of remediation scenarios within the East Fork Poplar Creek watershed of the Oak Ridge Reservation with respect to downstream concentration of mercury. The numerical simulations included the entire hydrological cycle: flow in rivers, overland flow, groundwater flow in the saturated and unsaturated zones, and evapotranspiration and precipitation time series. Stochastic parameters and hydrologic conditions over a five year period of historical hydrological data were used to analyze the hydrological cycle and to determine the prevailing mercury transport mechanism within the watershed. Simulations of remediation scenarios revealed that reduction of the highly contaminated point sources, rather than general remediation of the contaminant plume, has a more direct impact on downstream mercury concentrations.