Transport of Radionuclides and Chemicals

Blaylock, B.G. 1997. Environmental Pathways and Radiological Dosimetry for Biota. In: Proceedings of the Symposium on Radiological Impacts from Nuclear Facilities on Non-Human Species, December 1-2, 1996.Canadian Nuclear Society, Toronto, Ontario, Canada. 

Kocher, D.C. 1991. “A Validation Test of a Model for Long-Term Retention of 129I in Surface Soils.” Health Phys. 60, 523.

Blaylock, B.G. (ed.) 1990. Mercury in Aquatic Ecosystems. BIOMOVS, Technical Report No. 7. Swedish Radiation Protection Institute, Stockholm, Sweden. 29.

Blaylock, B.G. 1988. Analysis of Chernobyl radionuclides in aquatic ecosystems. In: The potential use of Chernobyl fallout data to test and evaluate the predictions of environmental assessment models (Richmond, C.R., et al., eds). ORNL-6466. pp. 91-103. 

Killough, G.G., and Kocher, D.C. 1988. “A Model for Global Cycling of Tritium.” Fusion Technol. 14, 1115.

Kocher, D.C. 1987. “Evaluation of a Terrestrial Food-Chain Model Using Natural Analogs.” Health Phys. 52, 79.

Blaylock, B.G., Hoffman, F.O., and Frank, M.L. 1986. Tritium in the aquatic environment. Radiation Protection Dosimetry 16: 65-71.

Killough, G.G., and Kocher, D.C. 1985. “Global Environmental Transport Models for Tritium,” Fusion Technol. 8, 2569.

Blaylock, B.B. 1982. Radionuclide Data Bases Available for Bioaccumulation Factors for Freshwater Biota. Nuclear Safety 23 (4):427-438.

Blaylock, B.G., and DeAngelis, D.L. 1982. Bioaccumulation of 95mTc in fish and snails. Health Physics 42 (3):257-266.

Kocher, D.C. 1981. “A Dynamic Model of the Global Iodine Cycle and Estimation of Dose to the World Population from Releases of Iodine-129 to the Environment.” Environ. Int. 5, 15.

Blaylock, B.G., and Frank, M.L. 1979. Distribution of tritium in a chronically contaminated lake. In: Behavior of Tritium in the Environment. International Atomic Energy Agency. IAEA-SM-232/74. pp. 247-256.

Cember, H., Curtis, E.H., and Blaylock, B.G. 1978. Mercury bioconcentration in fish: temperature and concentration effects. Environmental Pollution 17: 311-319.

Blaylock, B.G., and Witherspoon, J.P. 1978. Evaluation of radionuclides released from the light water reactor fuel cycle to the aquatic environment. In: Environmental Chemistry and Cycling Processes (Adriano, D.C. and Brisbin, Jr., I.L. eds.). CONF-760429. Technical Information Center, Oak Ridge, Tennessee.

Blaylock, B.G., and Witherspoon, J.P. 1976. Evaluation of radionuclides released from the light water reactor nuclear fuel cycle to the aquatic environment. Environmental Sciences Division, ORNL No. 1086.

Blaylock, B.G., and Witherspoon, J.P. 1976. Radiation Doses and Effects Estimated for Aquatic Biota Exposed to Radioactive Releases from LWR Fuel-Cycle Facilities. Nuclear Safety 17:351-361.

Huckabee, J.W., and Blaylock, B.G. 1974. Microcosm Studies on the Transfer of Hg, Cd and Se from Terrestrial to Aquatic Ecosystems. Trace Substances in Environmental Health - VIII A Symposium (D.D. Hemphill, ed.). University of Missouri, Columbia.

Blaylock, B.G., and Huckabee, J.W. 1974. The uptake of methyl mercury by aquantic biota,” International Conference on Transport of Persistant Chemicals in Aquantic Ecosystems. Ottawa, Ontario Canada, May 1-3, 1974.