INDEX
Bombay, India
tritium concentrations since 1961, 653,
659
Bone
human, 137Cs content in Chicago, 788-90
human children, Sr content in Argentina,
854-57
human, diet effects on 9Sr uptake, 737-42
human, dose from hypothetical milk
contamination incident, 779
rabbits, 89Sr content after Sedan burst,
764-71
.
Borosilicate glass
|
wetting kinetics studies, 286, 291-92
Brar, 8. S.
**Fission-Product Deposition and Dietary
Levels in Chicago Area’’, 783-90
“Variation of Fission Products and
Natural Radioactivity in Surface
Air’’, 497-506
Brazil
air monitoring, 479, 798
debris sampling, 791-99
strontium-90 deposition data, 796
Brazilia, Brazil
strontium-90 deposition data, 796
Brisbane, Australia
strontium-90 content in rain, 671
tritium content in rain, 671
Brookhaven National Laboratory
“‘Cesium-137 and Strontium-90 Retention
Following an Acute Ingestion of
Rongelap Food”’, 743-57
Brownian motion
coagulation theory, 253-59
Burma
(see Union of Burma)
Bursts
(see Air bursts, Cratering bursts,
Row charge bursts, Underground
bursts, Underwater bursts, and speci-
fic bursts by name, e.g., Orange burst)
c
Cadle, R. D.
fractionation theory, 5
Cadmium-109
half-residence time in stratosphere, 325
origin in atmosphere, 693
stratospheric distribution, 409, 412,
417-20
tracer studies in atmosphereup to
20 km, 405-8
Cadmium-113m
origin in atmosphere, 694
Calcium
metabolism in humans, 738-40
Calcium ions
diffusion in fused silicates, 13-14
Calcium oxide systems (fused)
equilibration diagram for 12720C, 36-7
Calabash
strontium-90 content of, in Argentina,
851-53
California
923
environmental gamma ray levels, 240
strontium-90 content of rain in cyclonic
storm, 595-37
tritium concentrations since 1961, 655
California Inst. of Tech., W. M. Keck
Engineering Labs.
‘Theory of Self-Preserving Size
Distributions in a Coagulating
Dispersion’’, 253-59
California. Univ., Lawrence Radiation
Lab.
“Information Integration Project of
LRL-Livermore Program on ManMade Radiation in the Biosphere’”’,
836-49
“Particle Analysis Program at Lawrence
Radiation Laboratory’’, 150-57
‘*Prediction of Fallout from Subsurface
Nuclear Detonations”’, 331-53
California, Univ., Los Angeles
“Early Food-Chain Kinetics of Radionuclides Following Close-In Fallout
from a Single Nuclear Detonation’’,
758-82
‘*Fission-Product Cycles in an Agricultural System’’, 711-22
‘Uptake of Fallout Radionuclides by
Mammals and a Stochastic Simulation
of the Process’’, 800-20
Cambridge Research Laboratories
(see Air Force Cambridge Research
Laboratories)
Cameron, J. F.
“Trends in Global Distribution of
Tritium Since 1961’’, 646-74
Canada
air sampling, 479, 481, 484, 486,
489, 618-20
tritium decline after testing cessation,
663
tritium monitoring, 648-49, 655-56,
661, 672
Canton Island
tritium concentrations since 1961, 654,
660
Carbon-14
content in troposphere in 1964, 422-27
global inventory, 378, 379
Carbon dioxide
sampling for “C determination, 422-25,
430-32
Caribou
sodium-22 content, 220
Carrots
sodium-22 content, 219
Cascade impactors
stratospheric aerosol sampling, 158-60
Castle Operation
tritium release, 146-47
Cattle
cesium uptake from feeds, 896-97
iodine-131 uptake from plants, model
studies, 800-18
milk food chain contamination model,
775-80