ILLUSTRATIONS 1.1 Fallout Monitoring Network, Pacific Hemisphere . 1.2 Fallout Monitoring Network, Atlantic Hemisphere. 2.1 Winds Aloft for Castle Events. .....+s2ee- 2.2 Meteorological Trajectories for Burst No. 1, Bravo 2.3 Meteorological Trajectories for Burst No. 2, Romeo 2.1 Meteorological Trajectories for Burst No. 3, Koon. Meteorological Trajectories for Burst No. lh, Union . Meteorological Trajectories for Burst No. 5, Yankee. 2.7 Meteorological Trajectories for Burst No. 6, Nectar. Total Fallout From Castle Series as of July 1, 195k, 2.5 2.6 3.1 Pacific 3.2 e oe ° o eo e e e e * ea e e e e 8 10 13 1k 16 17 20 e Total Failout From Castle Series as of July 1, 195h, Atiantic 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 Hemisphere e Hemisphere. e e e e » e e e e os e e ° . 21 oe Total Fallout From Bravo, Pacific Hemisphere . . ah Total Fallout From Bravo, Atlantic Hemisphere. . 25 mS Total Fallout From Romeo. Pacific Hemisphere . . Total Fallout From Romeo, Atlantic Hemisphere. . Total Fallout From Nectar. . . «+» cere eeecre vee 27 28 29 30 31 32 3.12 Maximum Activity on Sampling Day at Individual Stations, Pacific Hemisphere . . 2 + ee es ee ee we we ewe owe 36 3.13 Maximum Activity on Sampling Day at Individual Stations, Total Fallout From Union, Pacific Hemisphere . . Total Fallout From Union, Atlantic Hemisphere. . Total Fallout From Yankee, Pacific Hemisphere. . Total Fallout From Yankee, Atlantic Hemisphere . Atlantic Hemisphere. ea e s o ° e s e e ° oe e e e e * ® 37 A.1 - A.186 Radioactive Fallout in the 2-hour Periods Beginning February 28 oe May 31, 195k. ee.°e#e#e 8 @# © @ A.187 = A.188 Average Daily Fallout During Month of June, WO... we ere we we eee ve ee ® 40-225 . 226-227