936
INDEX
I’’, 359-68
Lista, Norway
tritium concentrations since 1961, 651,
657
Liu, Benjamin Y. H.
‘Particle Charging at Low Pressures’’,
260-80
Local deposition
(see Deposition (local))
Lockhart, Luther B., Jr.
‘‘Atmospheric Radioactivity along the
80th Meridian (West)’’, 477-96
“Distribution of Airborne Radioactivity
with Particle Size’’, 119-33
Lowder, Wayne M.
**Dosimetric Investigations of Environmental Gamma Radiation from
Deposited Fission Products’’, 233-44
Loysen, Peter
‘Particle Size Distribution of Strato-
Washington, 206-7
content in northern stratosphere, 609-10,
613
determination in air filter samples,
198-99, 603, 605
determination by gamma ray spectros-
copy, 185, 198-99
determination in stratospheric aerosols,
158, 163-64
distribution with altitude in 1962 and
1964, 211
distribution in stratosphere, 212, 320-22,
327
fallout levels in 1962-1964, 196
ground surface amounts at various
times in 1963 and 1964, 195
levels in surface air, 497-501, 503-5
origin in atmosphere, 693
precipitation effects on deposition,
214-15
spheric Aerosols at 110,000 Ft’’,
134-43
Manila, Phillipines
tritium concentrations since 1961, 654
Mariana Islands
tritium concentrations since 1961, 653
tritium concentrations since 1961, 654
Marion Island
tritium concentrations since 1961, 652,
Luang-Prabang, Laos
Machta, Lester
‘Status of Global Radioactive Fallout
Predictions’’, 369-91
**Strontium-90 on the Earth’s Surface.
Tl’, 359-68
Madshus, Kjell
‘Correlation Between Precipitation and
Amount of 137Cs in Milk in Norway’’,
865-76
Magnesium oxide systems (MgO-Rb,O-~SiO,)
(fused)
equilibration diagram for 12729C, 36-7
Mahlman, Jerry D.
‘‘Atmospheric Transport Processes
Leading to Radioactive Fallout over
the United States in November 1962’’,
450-63
“Relation of Upper Air Hemispheric
Index Patterns to Seasonal Fallout
Fluctuations’’, 464-76
Make, Seychelles
tritium concentrations since 1961, 652
Malan, Union of South Africa
tritium concentrations since 1961, 652,
657
Manaus, Brazil
debris deposition data, 793
Manganese
activity ratios in stratosphere, 327
Manganese~54
activity in atmosphere above Pacific
Northwest, 432, 433
activity~particle size relations in
stratosphere, 172
activity ratio in atmosphere, 435-35,
500-1, 693
activity ratios in stratosphere, 174,
180, 411-12
concentration in air at Richland,
657
Martin, William E.
‘‘Early Food-Chain Kinetics of Radionuclides Following Close-In Fallout
from a Single Nuclear Detonation’’,
758-82
Mass transfer
fission product deposition on substrate
materials, 12-23
a
in stratospheric lower levels, 396-400
Massachusetts Institute of Technology
**Some Aspects of the General
Circulation of the Lower Stratosphere”’, 392-404
Mathematics
coagulation, theory of self-preserving
size distribution, 253-59
food chain kinetics model, 760-64,
775-80
iodine-131 uptake model for herbivo-
rous animals, 800-18
mass transfer in stratosphere, 396-400
milk food chain, model for debris
incorporation, 723-36
particle charging equations, 261, 279
stratospheric deposition kinetics,
378, 380
Mauna Loa volcano
temperature inversion effects on
stratification of nuclear debris, 600
Maximum permissible concentrations
(see Radiation Protection Guides)
Maizena
strontium-90 content of, in Argentina,
851-53
Markee, Earl H., Jr.
**Controlled Environmental Radioiodine
Testa’’, 821-35
Meats