950
INDEX
human, 131] uptake from milk, 834
rabbits, t51I content after Sedan
burst, 764-71
iodine-131 uptake, probabalistic model,
800-18 _
Tokyo, Japan
tritium concentrations since 1961, 654,
660, 672
Tomatoes
consumption in U. S. diets, 880
strontium-90 content of, in Argentina,
851-53
Tompkins, R. C.
fractionation theory, 5
Topography
effects on 137Ca deposition in Norway,
865, 875-76
Tornados
distribution in U. S., 526
Touzet, R.
‘Studies of Sr and Stable Strontium in
Diet and Bone in Argentina’’, 850-58
Tracer studies
cadmium-109 in atmosphere up to
20 km, 405-8
of cloud growth, using nuclear debris,
523
of convective storms, using nuclear
debris, 523
rhodium-102 in atmosphere up to
20 kin, 405-8
stratospheric circulation, 393-94, 400,
695
stratospheric radioactivity in
southern hemisphere, 409-20
Tracerlab, Inc.
“Physical Characteristics of Single
Particles from High-Yield Air
Bursts’’, 98-107
‘*Radiochemical Fractionation Characteristics of Single Particles from
High-Yield Air Bursts’’, 108-118
Transport processes
(see also Deposition, Diffusion, Jet
streams, Meteorology, and Winds)
atmospheric circulation changes with
weight, 694-95
large scale atmospheric motions, 451-62
water circulation on global scale, 675-85
Tri-City Sampling Program, 737-42, 783
Trindade Island, Brazil
debris deposition data, 794, 796
Tritium
activity ratios in global rain samples,
668-72
chemical state in the atmosphere, 144-49
content in oceanic air, 692
cumulative production from 1952 through
1963, 648-49
global distribution since 1961, 646-74
inventory estimates, 672-74, 685
measurement technique, 647-48
self-labeling of organic compounds, 148
transfer in global circulation of water,
675-85
uptake by plants, 697
vertical transport, 697
Tritium/hydrogen ratio
changes with time in atmosphere, 144-49
Tropopause
cyclogenesis, effect on stratospheric~
tropospheric exchange, 464-75
effect on 90Sr content of precipitation,
583, 591
folding, radioactivity transfer by,
436-49
heights in Oklahoma spring storms,
537, 540
Troposphere
activity fraction in, from air bursts,
640-43
air exchange with stratosphere, 689
air exchange with stratosphere,
cyclone effects, 464-75
carbon-14 content in 1964, 422-27
deposition of debris from, 369-76
effects on circulation of lower stratosphere, 394
particle size measurement in, 222-32
radioisotope content since 1962,
428-35
sampling along 80th meridian, 477-96,
616-28
storm effects on exchange with
stratosphere, 426-27
transfer of radioactivity to, by
tropopause folding, 436-49
Trough lines
effect on 90Sr content in rain, 596, 599
Tungsten-181
activity ratios, from Dominic I
Operation, 504
air sampling along 80th meridian,
479, 481, 484, 486, 489
presence in Sedan shot debris, 90
Tungsten~185
latitudinal variation of surface
deposits, 370-71
residence time in stratosphere, 381-82
stratospheric circulation tracing, 393-94
Turkey
tritium concentrations since 1961, 651,
658
Turner, Frederick B.
“‘Uptake of Fallout Radionuclides by
Mammals and a Stochastic Simulation
of the Procesa’’, 800-20
UAR
Uu
(see United Arab Republic)
Uganda
tritium monitoring, 652, 671, 672
Underground bursts
fallout from, prediction of, 331-53
fractionation correlations, 72-81
long range sampling, 82-97
Underwater bursta
fractionation correlations, 34
Union of Burma