Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 ----.?,,..07, . ? SIGNATURE RECORD AND CC? 11 SHEET - DOCUMENT DESCRIPTION REGISTRY SOURCE e i kile Air CIA CONTROL NO. -- DOC. NO. S i C /1 .." ?,..c. V DATE DOCUMENT RECEIVED ;,? 941- 3--v DOC. DATE .,R, tt ?cu.. ..94,i_ COPY NO. trax -0 i LOGGED BY 5 linil-eil p ' NUMBER OF PAGE& a a 44,6? &tali NUMBER OF ATTACHMENTSJ i il/nA4-, ATTENTION: This form will be attached to each Top Secret document received by the Central Intelligence Agency or classified Top Secret within the CIA and will remain attached to the document until such time as it is downgraded, destroyed, or transmitted outside of CIA. Access to Top Secret material is limited to those individuals whose official duties relate to the material. Each alternate or assist- ant Top Secret Control Officer who receives and/or releases the attached Top Secret material will sign this form and indicate period of custody in the left-hand columns provided. The name of each individual who has seen the Top Secret document and the date of han- dling should be indicated in the right-hand columns. REFERRED TO RECEIVED RELEASED SEEN BY Cle,L, JETT rInT DATE TIME DATE _ TIME NAME AND OFFICE SYMBOL DATE STA' OFFICE 9c, ?'- I 03 O R, inh I VI. 1 1 1 12 0 IA A 11 r OB NO. -IILao [BOX NO..______ NO. 14 !FOLDER t 'TOTAL' , i DOCS HEREIN. -,-; N, DOCuMENITNO. NO NO ri CHANGE DECLASE ? IN CLASS. i , . CLASS. NEXT CHA REVIEW_DAT_F_;_____4__") IFIED \IGED TO: T C AM RETURN TO 1t ARMES & tiECUKUS aio f AFTER VSE AUT-:: DAT R 70-2 = EVIEWER. VIED;g .111B_M31,DkaBOX___3_9_,_ NOTICE OF DETACHMENT: When this form is detached from Top Secret material it shall be completed in the appropriate spaces below and transmitted to Central Top Secret Control for record. ' THE TOP SECRET MATERIAL DETACHED FROM THIS FORM WAS: BY (Signature) DOWNGRADED 0 DESTROYED ? DISPATCHED (OUTSIDE CIA) TO ...---- OFFICE DATE FORM !i?4 R1 TDCDT Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TifE PRESIDENT OF NE, UNITED STATES ortifir SECRET J. II,/ SPECIAL NATIONAL INTELLIGENCE ESTIMATE SOVIET CAPABILITIES FOR ATTACK ON THE US THROUGH 1957 SNIE 11-2-54 (Supersedes SE-36/1) Approved 16 February 1954 Published 24 February 1954 DOCUMENT NO. - NO CHP-.Nr.31.7. ;N CLASS. I. 1.] DECLASSIFIC-ID CLASS. CHANCED TO: T NEXT FiEVEW DATE: A'JTI-1: HR 70-2 DAT The Intelligence Advisory Committee concurred in this estimate on 16 February 1954. The following member organizations of the Intelligence Advisory Committee participated with the Central Intel- ligence Agency in the preparation of this estimate: The intelligence organizations of the Departments of State, the Army, the Navy, the Air Force, and The Joint Staff. REVIEWER:. er, CENTRAL INTELLIGENCE AGENCY ;les Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 ,in DISSEMINATION NOTICE NOTICE 1. This copy of this publication is for the information and use of the recipient designated on the front cover and of individuals under the jurisdiction of the re- cipient's office who require the information for the performance of their official duties. Further dissemination elsewhere in the department to other offices which require the information for the performance of official duties may be authorized by the following: a. Special Assistant to the Secretary for Intelligence, for the Department of State b. Assistant Chief of Staff, G-2, for the Department of the Army c. Director of Naval Intelligence, for the Department of the Navy d. Director of Intelligence, USAF, for the Department of the Air Force e. Deputy Director for Intelligence, Joint Staff, for the Joint Staff f. Director of Intelligence, AEC, for the Atomic Energy Commission g. Assistant to the Director, FBI, for the Federal Bureau of Investigation h. Assistant Director for Collection and Dissemination, CIA, for any other Department or Agency 2. This copy may be either retained or destroyed by burning in accordance with applicable security regulations, or returned to the Central Intelligence Agency by arrangement with the Office of Collection and Dissemination, CIA. 3. The overseas dissemination of this intelligence will be limited to a period of one year or less, at the end of which time it will be destroyed, returned to the forward- ing- agency, or permission requested of that agency to retain it in accordance with IAC-D-69/2, 22 June 1953. WARNING This material contains information affecting the National Defense of the United States within the meaning of the espionage laws, Title 18, USC, Secs. 793 and 794, the trans- mission or revelation of which in any manner to an unauthorized person is prohibited by law. Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 jilieSECRET SOVIET CAPABILITIES FOR ATTACK ON THE US THROUGH 1957 THE PROBLEM To estimate the capabilities of the USSR to attack the continental US by open or clandestine means, through 1957. SCOPE 01 This estimate is concerned solely with Soviet gross capabilities for attack on the continental US during the period through 1957. It does not attempt to assess whether the USSR intends to attack the US during that period or what courses of action the USSR would adopt before, along with, or after such an attack. Further- more, the paper estimates Soviet gross capabilities for attack on the US without refer- ences to any commitments of military forces which the USSR might make elsewhere and without reference to any advantages which the USSR might gain for an attack on the US by previously occupying territory that is not now within the Soviet Bloc. A' V" r 51' 0' 'i SOVIET MASS DESTRUCTION WEAPONS Nuclear Weapons 1. General. The Soviet nuclear energy pro- gram will continue through 1957 to have one of the highest priorities in the allocation of Soviet resources. The program, which is con- tinuing to expand, emphasizes weapon devel- opment and aims at reducing the relative advantage of the US both in weapon develop- ment and production. By the end of 1953 the USSR had established a substantial plu- tonium production capacity and achieved the production of weapon grade uranium-235. On the basis of data obtained from the 7 Soviet explosions detected to date, we con- clude that by the end of 1953 the Soviets had reached a point in weapons technology at PART I SOVIET GROSS CAPABILITIES which they were capable of producing weapon types with energy yields ranging from the equivalent of a few thousand tons of TNT up to the equivalent of one million tons of TNT. The numbers of these weapons would be limited by the supply of nuclear materials available rather than by technical limitations. P1'1-4 2. Weapons Stockpiles. While there is no clear evidence as to the specific types and the numbers of each type of nuclear weapon that the Soviets will actually stockpile, we believe the weapons stockpiled will probably have the general characteristics and explosive powers of the models already tested. There are many courses of action which the USSR might adopt in establishing its stockpile of , nuclear weap- ons. The tables which follow are based upon four alternative hypothetical examples. SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 lopE6?.SECRET 2 Ckil) STOCKPILE EXAMPLE ONE (Based on the assumption that the USSR continues stockpiling composite and pure plutonium fission weapons as tested in 1951 and yielding approxi- mately the equivalent of 40,000 tons of TNT each.) End 1953 Mid Mid 1954 1955 Mid 1956 Mid 1957 Unboosted composite plutonium weapons (40,000 tons each) 180 240 _ 390 575 800 Total Yield (Million tons of TNT) 7.2 9.6 15.6 23 32 STOCKPILE EXAMPLE TWO (Based on the assumption that the USSR uses all its fissionable material with thermonuclear boosting as tested in 1953 to build a stockpile of plutonium com- ponent weapons of medium yield (60,000 tons of TNT) and small yield (5,000 tons of TNT) , and uranium-235 weapons yielding one million tons of TNT each.) End Mid Mid Mid Mid 1953 1954 1955 1956 1957 Boosted uranium-235 (1 million tons each) 12 18 34 54 80 Boosted plutonium weapons (60,000 tons each) 60 85 125 175 235 Boosted plutonium weapons (5,000 tons each) 190 250 375 525 700 Total Number of Weapons 262 353 534 754 1,015 Total Yield (Million tons of TNT) 16.5 24.3 43.4 65.6 97.5 STOCKPILE EXAMPLE THREE (Based on the assumption that the USSR uses all its fissionable material to build a stockpile of large yield boosted weapons, e.g., uranium-235 weapons yielding the equivalent of one million tons of TNT each, and pure plutonium weapons yielding the equivalent of 60,000 tons of TNT each.) End 1953 Mid 1954 Mid 1955 Mid 1956 Mid 1957 Boosted uranium-235 weapons (1 million tons each) 12 18 34 54 80 Boosted plutonium weapons (60,000 tons each) 120 170 250 350 470 Total Number of Weapons 132 188 284 404 550 Total Yield (Million tons TNT) 19 28 49 '75 108 STOCKPILE EXAMPLE FOUR (Based on the assumption that the USSR uses all its fissionable material to build a stockpile of small yield boosted weapons, e.g., composite and pure plu- tonium weapons yielding the equivalent of 5,000 tons of TNT each.) End 1953 Mid 1954 Mid 1955 Mid 1956 Mid 1957 Boosted composite pure plutonium weapons (5,000 tons each) 550 725 1,175 1,725 2,400 Total Yield (Million tons TNT) ir) tra. P 2.8 3.6 5.9 8.6 12 3.' Margin of Error in Estimate. While the figures given in the tables above represent the most probable estimates for the examples pre- sented, the actual figures for weapons stock- piled at the end of 1953 may be as much as one-third lower or higher than those given. The uncertainty as to amounts of fissionable material produced increases proportionately as estimates are projected into the future. Thus the actual figures for 1957 may be as low as one-half or as high as twice the figures given in the tables above. t -1 01 4y Future Developments. The USSR will probably continue work on small-yield and small-dimension weapons, and further devel- opments of this type of weapon could be tested during 1954. The possibility cannot be ex- cluded that the USSR will develop nuclear warheads for weapons other than bombs dur- ing the period of this estimate. The USSR will probably also continue Work on develop- ing weapons with energy yields in excess of a million tons of TNT. This program possibly could result in a prototype weapon by 1957. If this research is successful and as a conse- quence the USSR develops weapons in which thermonuclear reactions contribute directly a major portion of the energy yield, the energy yield of a portion of the Soviet weapon stock- pile could be multiplied by a factor of approxi- mately five without any increase in fissionable material production or in numbers of weapons. It is improbable, however, that conversion of weapons in stockpile in this way will take place on a substantial scale during the period of this estimate. josit4 SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 ??'SECRET 3 -C?C Radiological Weapons 5. It is most unlikely, for technological rea- sons, that the USSR will have the capability to produce militarily significant quantities of radiological warfare agents during the period of this estimate. However, the USSR will have available small quantities of gross or separated fission products which might be employed as RV agents. >(,I, Biological Warfare 6. The Soviet Union is in possession of all the necessary basic knowledge for the production of most BW agents. If they chose to do so, they would be able to construct or operate plants for BW production and weapons for dissemination could be available in adequate numbers. However, there is no evidence at present that such weapons are being devel- oped. Since it is not feasible to stockpile large quantities of most BW agents in pro- longed storage, operational requirements would have to be supplied largely from cur- rent production. f,-VC Chemical Warfare 7. The USSR can probably engage in chemical warfare on a large scale. We assume that the stockpile of standard agents and munitions accumulated during World War II has been maintained and will be available for use dur- ing the period of this estimate. The USSR has the facilities and scientific knowledge necessary to produce at least one of the nerve gases, and could employ nerve gases during the period of this estimate. DELIVERY OF CONVENTIONAL AND MASS DESTRUCTION WEAPONS BY AIRCRAFT eN JO/ Long-Range Aviation 8. The TU-4. Soviet Long-Range Aviation constitutes the long-range striking force of the USSR. It consists of 3 Air Armies, 1 in the Far East and 2 in the western USSR, plus 1 corps of undetermined subordination in the western USSR. The TU-4 medium bomber, which was copied from the American B-29, is the only Soviet bomber known to be in opera- tional use and capable of carrying nuclear weapons to distant targets. As of 1 January 1954 a total of about 1,000 TU-4's was esti- mated to be available in operational units. (Table of Equipment strength of Soviet air regiments known to be equipped with or in process of being equipped with TU-4 aircraft totals 1,220 aircraft, but the TU-4 regiments are currently estimated to be at only about 85 percent of T/E strength.) As of 1 January 1954 approximately 180 TU-4's (six regiments with an aggregate T/E strength of 220) were located in the Far East. It is believed that deliveries of TU-4's to operational units are continuing. 9. Turboprop Heavy Bomber. We have very little information on Soviet development work on new types of medium or heavy bombers. No medium or heavy bomber other than the TU-4 is known to be in series production in the Soviet Union. At the Moscow Air Show in 1951 a single four-engine aircraft considerably larger than the TU-4 was observed in flight and was designated by Allied intelligence as the Type-31. In mid-1953, 7 distinctive air- craft, with tails reported as being approxi- mately 5 feet higher than the TU-4, were seen on the ground by competent observers. This and other information (including the sighting at Kazan Aircraft Factory of 5 aircraft re- ported larger than the TU-4) suggest that a bomber larger than the TU-4 may have en- tered series production in 1953. This aircraft could be a heavy bomber similar to the Type- 31 and it could be powered by turboprop en- gines. The status of _ Soviet production, of turboprop engines is unknown, but the USSR has developed and tested a prototype turbo- prop engine based on the design of the Ger- man JUM0-022. 10. Jet Heavy Bomber. Part of the config- uration of a single new large aircraft with a swept-back vertical tail was observed at a So- viet experimental establishment in mid-1953 and designated by Allied intelligence as the Type-37. The aircraft appeared to be larger than the US B-47 medium jet bomber and could fall within the heavy or near-heavy bomber category. iiiT041 SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET 11. Jet Medium Bomber. Based on known development work stemming from German projects in the medium jet bomber field, it is estimated that a few Soviet bombers of this class will appear in operational units by mid- 1955. There is no indication that it is at present in production. 12. Summary Table. The following table of estimated strength and composition of the bomber force of Soviet Long-Range Aviation is based on the assumptions: a. that series production of a heavy bomber with turboprop engines began in April 1953; b. that series production -of a medium jet bomber will begin in 1954; and c. that series production of a heavy jet bomber will begin in 1956. ESTIMATED STRENGTH IN OPERATIONAL UNITS January 1954 End 1957 Medium Bomber Piston (TU-4) 1,000 Jet Heavy Bomber Turboprop (possibly a few) Jet TOTAL 1,000 E,0 Aircilift Characteristics 475 325 5001 (about 200 of these might have im- proved 7,000 ESHP engines) (a few) 1,300 13. The TU-4. The TU-4, under normal op- erating conditions, is estimated to have a combat radius of 1,700 nautical miles and a combat range of 3,100 nautical miles with a 10,000 pound bomb load. Under cruise con- trol conditions necessary to reach distant tar- get areas, its speed would be approximately 175 knots at an altitude of about 10,000 feet. However, it is capable of attaining a maximum speed of 350 knots at about 30,000 feet for short intervals. Although there is 1 Should the USSR be able to shorten the period necessary to produce a long-range jet bomber, the USSR might not produce a turboprop long- range aircraft in this quantity. 4 no intelligence to indicate that it has done so, the USSR is considered capable of modify- ing the TU-4 to increase its range in the same manner that the American B-29A was stripped to produce the B-29B. This modi- fication involves removal of defensive arma- ment, except for the tail turret, and increase in the fuel capacity, with a net weight reduc- tion of 2,600 pounds in take-off weight. So modified, a TU-4 would have markedly re- duced defense capabilities against interceptor attack, but its combat radius would be in- creased to 2,150 nautical miles and its combat range to 4,000 miles carrying a 10,000 pound bomb load. 14. Turboprop Heavy Bomber. Assuming in- stallation of a turboprop engine, a heavy bomber of the Type-31 class could have a combat radius of 2,500 nautical miles and a combat range of 4,800 miles, with combat speeds up to 325 knots at an altitude of 35,000 feet. By the end of 1957 technical modifica- tions and improvements, particularly in the engines, on such a heavy bomber might per- mit a combat radius of 3,000 nautical miles, and a combat range of 5,600 nautical miles, with combat speeds up to 360 knots at an alti- tude of 35,000 feet. 15. Jet Heavy Bomber. Available information on the Soviet jet engine program is not ade- quate to determine when a Soviet engine suit- able for use in a jet heavy bomber may be available. Based on an assumption of instal- lation of a 10,000 pound thrust power plant believed to be under development, a jet heavy bomber could have a maximum speed of 450 knots at 40,000 feet, a combat ceiling of 44,000 feet; a combat radius of 2,500 nautical miles, and a combat range of 4,800 nautical miles with a 10,000 pound load. 16. Jet Medium Bomber. It is estimated that the jet medium bomber which the USSR could have operational by mid-1955 could have a combat radius of 1,500 and a combat range of 2,900 nautical miles carrying a 10,000 pound bomb load. A Soviet jet medium bomber hav- ing these characteristics could reach targets in the United States only from the Chukotski base area. On a one-way mission it could TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET reach targets north of an arc drawn through Los Angeles, Denver, and Minneapolis. On a two-way mission with inflight refueling it could just reach Seattle. 17. Inflight Refueling. No intelligence is available concerning Soviet inflight refueling capabilities. However, inflight refueling tech- niques do not impose serious technical prob- lems, and the USSR has had access to the techniques and equipment employed by the US in this field. It is therefore necessary to consider the effect of inflight refueling in ex- tending the range of Soviet bomber aircraft. A fleet of tanker aircraft, and appreciable training in their operational use, would be necessary before two-way missions on a large scale could be conducted. The establishment of tanker units would require the conversion of TU-4's or production of new tanker air- craft. With one refueling the cofnbat radius of the USSR's long-range aircraft, with a 10,000 pound load, could be increased as shown in the following table. 18. Summary Table. The estimated 1957 maximum performance characteristics of So- viet long-range aircraft are summarized in the following table: Type Medium Bombers Combat Rad./ Max Combat Range (n.m.) Spd/Alt Ceiling 10,000 lb. load (kn/ft) (feet) (1) TU-4 1,700/3,100 350/30,000 36,500 TU-4 (Modified) 2,150/4,000 360/30,000 37,500 TU-4 (Modified, with one refueling) 3,000/5,600 (2) Jet Med Bomber (with one refueling) 1,500/2,900 2,100 radius 500/30,000 48,000 Heavy Bombers (1) Type-31 class (with 5,600 ESHP turbo- props) (with one refueling) 2,500/4,800 3,500 radius 325/35,000 36,000 Type-31 class (with 7,000 ESHP turbo- props) 3,000/5,600 360/35,000 38,000 5 Type Combat Rad./ Max Combat Range (n.m.) Spd/Alt Ceiling 10,000 lb. load (kn/ft) (feet) (with one refueling) (2) Jet Heavy Bomber (with one refueling) 4,200 radius 2,500/4,800 450/40,000 44,000 3,500 radius It should be noted that the performance char- acteristics given for all aircraft are based on calculations which in turn depend on assump- tions. Base Areas for Direct Air Attack on the US 19. General. Three base areas, the Chukot- ski area in northeast Siberia, the Kola area in northwest USSR, and Soviet and Soviet-con- trolled territory along the Baltic and in East- ern Germany, are the closest to the United States.2 The Chukotski and Kola areas are particularly advantageous as bases for sur- prise attacks since great circle routes would avoid initial overflight of nations friendly to the US. The extension of bomber ranges by the end of 1957 will not be great enough to allow the enemy to dispense with these areas if important targets in the whole of the "United States are to be reached on other than one- way missions. It is therefore reasonable to suppose that at least until the end of the period of this estimate any large-scale attacks would involve the use of these areas. From any of these base areas the stripped-down TU-4 with one inflight refueling, and the Type-31 class and the jet heavy bomber, on one-way missions, could reach any target in the US. TU-4's having the 5,600 nautical mile range, and the Type-31 class could also operate from bases in the interior of the So- viet Union on one-way missions against the US. i 20. 'Chukotski Area. Of the three base areas mentioned, the Chukotski area is nearest to the United States. The standard TU-4 on a two-way mission (with no inflight refueling) could not reach the United States. On a one- 2 See Appendix A for maps depicting Soviet long- range bomber capabilities for attack on the con- tinental United States from these bases. TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET 6 way mission it could reach targets within an arc drawn from San Diego to Lake Superior. The stripped-down TU-4 on a two-way mission could reach Seattle without inflight refueling. With outbound inflight refueling on a two- way mission, this type of aircraft could reach targets within an arc drawn from San Diego through Lake Superior. A one-way mission, without inflight refueling, would permit the stripped-down TU-4 to reach targets in all parts of the United States except Florida from the Chukotski base area. By 1956 the im- proved Soviet Type-31 class turboprop heavy bomber, operating from the Chukotski area on a two-way basis with inflight refueling, could reach targets anywhere in the US, and with- out refueling could reach targets north and west of an arc drawn from San Diego through Lake Superior. The jet heavy bomber operat- ing from the Chukotski area on a two-way mission with inflight refueling, could reach targets north and west of an arc drawn through Dallas, Cincinnati, and Pittsburgh, and without refueling, could reach targets north of an arc drawn through San Francisco, Ogden, and Bismarck. .1) 21.0 operational Conditions in the Chukotski Area. Long-range air operations from the Chukotski area would encounter many diffi- culties because of basic logistic limitations and adverse climatic conditions. Logistically the area is served principally by sea-lift limited to the ice-free months of the year. Moreover, there are no known airfields which could be used for sustained operations from the Chukotski area, although it is estimated that the area contains four airfields capable of supporting limited medium bomber staging operations. There are additional airfields which could be improved to support long- range bomber operations. It is also possible that frozen surfaces might be employed dur- ing the Arctic winter to provide staging air strips or assembly parking areas. 22. Kola and Baltic-East German Areas. TU- 4 aircraft sortied from the Kola and Baltic- East German areas could not reach the United States (except the northern tip of Maine) and return to their bases, even with one outbound refueling. From the Kola area, a stripped- down TU-4 on a one-way mission (range 4,000 nautical miles), could reach targets roughly north and east of a line from Charleston, South Carolina, through southern Oregon. From the Baltic area, such a range would enable TU-4's to attack targets north and east of an arc drawn from Charleston, South Car- olina, through Montana. All of the north- eastern industrial centers of the United States could be reached from either area. The Type- 31 class heavy bomber, on two-way missions without refueling from either the Kola or the Baltic area, could only reach the northern tip of Maine. On two-way missions with one inflight refueling, the Type-31 class, operat- ing from the Kola or Baltic areas, could reach targets in all of the US north of an arc drawn from Charleston, South Carolina, through Minneapolis. A jet large bomber operating from these areas could not reach the United States on two-way missions without refueling, but with one inflight refueling could reach the New England area. 1-1 11'23. Operational Conditions in Kola and Baltic-East German Areas. There are 2 air- fields estimated to be capable of supporting medium and heavy bomber operations for at least a limited period from this area. In addi- tion, there are 7 airfields of 4,000 feet or more in length, some of which could probably be improved and extended to support long-range bomber operations. Both Alakurtti and Mur- mansk-Vayenga are favorably situated logisti- cally, and great circle routes from this area would avoid initial overflight of nations friendly to the United States. The Baltic- East German area has adequate bases to sup- port large numbers of medium and heavy bombers. The Leningrad area contains at least 4 airfields which are presently suitable for long-range operations. Improvements of other airfields in the area could provide addi- tional facilities during the period. The area including Poland and the Soviet Zone of Ger- many has at least 40 airfields that could be used for long-range bomber operations. These bases are favorably situated with respect to communications and weather and are ade- quately served by existing transportation facilities. A major disadvantage is that great circle routes to the United States from these TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 ? f _ Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP761401012A063400040001-1 TOP SECRET cr( 7 bases pass over portions of Western Europe off Scandinavia, and any attempted air strike might be detected early enough to provide warning. vy. ,o? 24. Targeting and Bombing Accuracy. Soviet long-range aviation has available through open sources virtually complete target and navigation data on North America and ap- proach routes. It is even probable that in the event of a surprise attack, certain Western electronic navigational aids would be avail- able, at least during part of the flight. Sim- ilarly, meteorological reports, including profile data at all altitudes, are regularly broadcast in the United States and Canada in simple cipher. We estimate the Soviet blind-bomb- ing and navigational radar equipment is capa- ble of at least equal or better performance than the US World War II equipment which the USSR acquired. It is also possible that clandestinely placed navigational beacons may be used for aircraft homing. The cur- rent Soviet training program points to contin- uing improvement in air crew proficiency. In view of these factors and Soviet ability to select a time of attack with respect to favor- able route and target weather conditions, there can be little doubt that Soviet air crews would have the ability to navigate with suffi- cient accuracy to reach the major population and industrial centers of the United States and to achieve bombing accuracy, by either visual or radar means, generally within the effective radius of the weapons available, al- though the effectiveness of attack delivered by radar alone could be materially reduced by defensivp,@lectronic countermeasures. _01_1+,2-4 -s 25. Availability, Abort Rate, Replacement Fac- tor. Maintenance of Soviet aircraft, although below US standards, has improved since World War II and is considered adequate. By the end of 1957 the Soviets should be capable of achieving in the forward staging areas a serv- iceability rate of 85 percent for an initial, de- liberately prepared surprise attack against North America. The sustained serviceability rate for bombers is estimated at about 40 per- cent for normal operations. Cold weather operations might cause some reduction in the foregoing figures. In addition, we estimate that up to 20 to 25 percent of the aircraft taking off would fail to reach target areas for reasons other than our air defense activity. In view of the fact that most US target areas could be reached only by one-way missions or on two-way flights employing range extension techniques, aircraft losses would be high. No appreciable reserves of TU-4's are believed to exist at the present time. If a tanker fleet is created, or TU-4's are converted for other spe- cial purposes, appreciable numbers of TU-4's, phased out of operational bomber units dur- ing the period of this estimate, would probably not be available as a reserve. There will be no appreciable reserves of any new types of air- craft introduced during the period of this estimate.01 26. Weaker. The USSR has consistently de- voted considerable emphasis to both short and long period meteorological forecasting. Spe- cial techniques for upper air research and improved synoptic methods are being devel- oped for use in weather forecasting for periods longer than one month, although we cannot estimate the degree of success which will be achieved during the period of this estimate. By 1955 it is believed that the USSR will have achieved a short period prediction capability in at least the European USSR of 85 percent reliability as compared with the present reli- ability of 60 percent. This prediction capa- bility plus extensive experience in meteorolog- ical research in the extreme northern lati- tudes, good weather reporting facilities in Siberia, availability of records of weather con- ditions which have prevailed throughout North America for many years, and constant access to current North American weather conditions and forecasts should enable the USSR to predict both route and target weather with reasonable accuracy. 8- 27. Electronic Countermeasures. The USSR has had access to a wide variety of US defen- sive radar and to some US jamming equip- ment. The USSR is apparently well aware of the tactical advantage to be gained by jam- ming defensive radar and other communica- tions. We believe that the USSR is now tech- nically capable of producing limited quantities TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET 8 of ground based and airborne jamming equip- ment to cover frequencies through 10,000 megacycles, and that the USSR can seriously disrupt long-range radio communications be- tween the continental US and its overseas fa- cilities. We further believe that the USSR will increase the effectiveness of its jamming equipment as well as the proficiency and num- ber of its trained personnel throughout the period of this estimate. Airborne counter- measures are likely to be available for use against defensive radars and ground/air fight- er control communications in use at the pres- ent time for the defense of North America. The effectiveness of the future countermeas- ures will depend on the degree of success ob- tained from Soviet analysis of signal radia- tions and from other means of obtaining technical data on the defense radar that will then be in use. It is believed probable that the USSR has produced sufficient electronic countermeasures devices to equip some TU-4 aircraft. It is not known whether Soviet TU-4's have in fact been equipped with such jamming equipment, or how effective those devices would be against US defensive radar. Use of effective jamming equipment probably would require the employment of extra air- craft equipped specially for this purpose. 01 -3 28. Estimated tScc_gpi Air Attack in 1954.3 Soviet gross capabilities for air attack on tar- gets in the continental United States are pres- ently limited by dependence on the TU-4 bomber, by the apparent lack of a developed inflight refueling capability, and by the rela- tively undeveloped character of the Chukotski and Kola base areas. Nevertheless, it is esti- mated that the USSR, by a maximum effort, could launch approximately 300 aircraft from the Chukotski and Kola areas in a surprise attack against the United States. If the bulk of these aircraft were committed to one-way unrefueled missions, approximately 250 might reach target areas, not considering combat losses. If, however, approximately 50 aircraft were refueled inflight, requiring the use as tankers of 65 of the aircraft launched, the number reaching target areas might be ap- proximately 200, not considering combat losses. Some of these aircraft reaching the target probably would not be bomb carriers, since a number would be used for electronic countermeasures, escort, or diversionary tasks. 29. Estimated Scale of Air Attack in 1957. The Soviets could, by a major effort, have suffi- cient facilities to launch a maximum of ap- proximately 1,000 aircraft in an initial air operation against the US by the end of 1957, if their entire heavy and medium bomber force were employed. The number of mission aircraft in this total would vary considerably, depending on the types of missicins employed. If a combination of missions designed to achieve optimum weight of attack with recov- ery of a sizable part of the attacking force were employed, approximately 550 aircraft could be mission aircraft with approximately 450 used as tankers. (This is a maximum capability under the stated conditions. Its exercise would involve very difficult opera- tional and logistical problems, particularly those pertaining to the creation of a tanker The Director of Naval Intelligence and the Assist- ant Chief of Staff, G-2, Department of the Army, feel that available intelligence on over-all Soviet capabilities for long-range air attack is insuffi- cient to warrant a finite estimate of the number of aircraft which might arrive over target areas in the US in 1954. They therefore believe that paragraph 28 should read as follows: Soviet gross capabilities for air attack on tar- gets in the continental United States are pres- ently limited by dependence on the TU-4 bomber, by the apparent lack of a developed inflight re- fueling capability, and by the relatively unde- veloped character of the Chukotski and Kola base areas. The Soviets have sufficient TU-4's to attempt the delivery of all or a substantial part of their atomic stockpile (the number depending upon types of weapons stockpiled) against the United States from bases in Soviet-controlled territory.I'his capability is dependent upon their willingness to accept the loss on one-way missions of a substantial portion of their long- range aircraft and to risk the loss of surprise for a portion of the attacking force by launching an attack from Baltic-East German bases, and upon their employment of range extension techniques. Such an attack might be launched without de- tection, although aircraft launched from Euro- pean bases would in all probability be detected while transiting non-Soviet territory. Some of the aircraft reaching target areas probably would not be bomb carriers since a number would be used for electronic countermeasures, escort, or diversionary tasks. TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001:1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET fleet and the training of both tanker and mis- CLANDESTINE DELIVERY sion aircrews.) Of these 550 mission aircraft approximately 450 could arrive over target Nuclear:1 Weapons areas, not considering combat losses. If the USSR should decide not to create a tanker fleet, and to commit the bulk of its forces to one-way unrefueled missions, it is estimated that the magnitude of the attack might be on the order of 700 aircraft reaching target areas, not considering opposition or combat losses. Some of these aircraft reaching the target areas probably would not be bomb carriers, since a number would be used, as in 1954, for electronic countermeasures, escort, or diver- sionary tasks. DELIVERY OF CONVENTIONAL AND MASS DESTRUCTION WEAPONS BY OTHER MEANS Guided Missiles 30. 'General. There is no positive information that the USSR now has any guided missiles in series production. It is known that the USSR has been conducting an intensive research and development program, and has made certain developmental improvements on the V-1 and V-2 type weapons, which were used operation- ally by the Germans during World War II. 31. V?.1 Characteristics. The USSR has con- tinued development on the V-1 missile. A single pulse-jet version could carry a 2,000 pound warhead to a range of 210 nautical miles at a speed of 370 knots. A twin pulse- jet version has been developed which could carry a warhead up to 4,500 pounds for shorter distances. There is no positive evidence of Soviet experimentation in the field of sub- marine-launched guided missiles; however, it is estimated that the Soviet Union could equip a number of submarines for the launching of V-1 type missiles. It is probable that such missiles could be given some guidance up to a range of about 200 nautical miles, although accuracy limitations would probably preclude general use against other than area targets. 32. V-2 Characteristics. The USSR has car- ried forward the development of the German V-2 type ballistic missile. This missile, how- ever, could not be a threat against the con- tinental US during the period of this estimate. 9 33. General. The USSR is capable of pro- ducing nuclear weapons which could be smug- gled into the US either as complete assemblies or as component parts or subassemblies. The assembled devices could range from small- yield weapons (equivalent of 5,000 tons of TNT or less) weighing a few hundred pounds to larger-yield weapons (possibly up to the equiv- alent of 1,000,000 tons of TNT) weighing sev- eral thousand pounds. Their size could range from that of a package small enough to fit into the luggage compartment of an automo- bile to that of a packing case large enough to contain an automobile. All of these weapons could be designed to break down into a num- ber of relatively simple and readily transport- able components. Those designed to give a relatively low yield would not require much labor or technical training assemble. Some- what more labor and training would be re- quired to assemble weapons designed to give high yields, and, once assembled, they would be more difficult to transport. It is conceiv- able that only the fissionable material, in small pieces, need be smuggled into the US, since other components could be fabricated or procured in this' country. This scheme, however, would require careful advance plan- ning and coordination by supervisory person- nel with engineering skill and familiarity with the US sources of needed components, and would take a longer time to carry out. It would probably result in a reduced yield for a given amount of fissionable material. It would incur a substantially greater security risk than the clandestine introduction of all components. 34. Methods of Delivery. A variety of meth- ods of clandestine delivery suggest themselves. Assembled weapons could be dropped by ap- parently friendly aircraft, could be detonated in the hold of a merchant ship, or could be sown as underwater mines. Either compo- nents or assembled weapons could be brought in under diplomatic immunity, smuggled across land or sea frontiers, introduced through normal import channels, or brought TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET in as bonded merchandise awaiting transship- ment. The selection of the method of intro- duction and of transport and assembly within the US would depend on the Soviet objective and the risk of detection which the USSR was willing to accept. 35. Security Considerations. Considering the known limitations of the means of physical detection, it is probable that the USSR could introduce into the US and detonate in place a considerable number of nuclear weapons by clandestine means. However, the USSR would have to take into account not only the esti- mated chances of detection, but also the con- sequences of possible detection in forfeiting the element of surprise in any intended overt attack and in provoking US counteraction. As the number of weapons clandestinely in- troduced was increased, the risk of compromise would increase. This increased risk would be less a function of US capabilities for physical detection then of the scope and complexity of the clandestine operations, particularly inso- far as larger numbers of Soviet agents became involved. Considering the consequences of a breach of security, the USSR would probably be unwilling to risk the use of even selected and trained agents in such numbers as would be involved in a clandestine attack on a scale comparable to that which might be delivered overtly by aircraft. We conclude, therefore, that, although clandestine attack with atomic weapons might occur against specially se- lected targets as a supplement to overt deliv- ery by air, such an attack, on a scale com- parable to that which might be delivered overtly by air, would probably be precluded by security considerations. 36. Lack of Evidence on Clandestine Delivery Plans. We have no evidence to indicate whether or not the USSR has actually made any plans or preparations for the clandestine delivery of nuclear weapons. Biological Weapons 37. Some BW agents are peculiarly adaptable to clandestine introduction. The introduc- tion of small amounts of BW agents would be difficult to detect or identify as to source, but 10 Soviet operatives would be required for their dissemination. A large number of people would be required for extensive dissemination of BW agents, and Soviet security considera- tions would be a limiting factor in the scale and timing of such an attack. A 'Chemical Weapons 38. CW agents are not easily adaptable to clandestine use. In addition to the limita- tions noted above as applicable to BW attack, CW agents are easily identifiable by their im- mediate effects and it probably would not be feasible to build up sufficient supplies or to procure the means clandestinely for their dissemination against large population cen- ters. The most practicable use would be against personnel in key installations, but even this would be difficult. We have no evi- dence to indicate whether or not the USSR is developing the means for the clandestine de- livery of chemical weapons. ATTACK ON THE US WITH CONVENTIONAL NAVAL AND AIRBORNE FORCES pr).- eal (t^:\ Conventional Naval Attack 39. The submarine force of the USSR could, at least in the initial phases of an attack, inflict serious damage on US overseas communica- tions and carry out offensive mining in the shipping approaches to US harbors, in addi- tion to its potential for delivery of mass de- struction weapons. It is expected that during the period of this estimate the submarine forces will be enlarged and strengthened by the addition of additional numbers of im- proved ocean patrol types, by the progressive modernization of existing types (including in- stallation of snorkel) , and by the possible adaptation of submarines to missile launch- ing. The capabilities of surface naval forces for attack on the US are low. The Soviet sur- face fleet is geographically divided, lacks ad- vance bases, and does not possess a shipborne air arm. Sporadic raider operations are pos- sible, but the surface fleet in general, lacking aircraft carriers and long-range amphibious types, is unsuitable for transoceanic naval or amphibious attack an any significant scale. TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET 11 Airborne Attack 40. Soviet capabilities for airborne attack upon the continental US (except Alaska) are also very limited. Attacks would require the use of TU-4's adapted for troop-carrying serv- ice and operating at the same ranges and un- der the same conditions as the TU-4 bomber. We have no evidence to indicate whether or not the USSR had made any plans for the dropping of airborne forces in the US, but the USSR could, if it chose, drop small specially trained assault and sabotage forces for attack upon important but difficult bombing targets., PART II CERTAIN FACTORS AFFECTING SOVIET EMPLOYMENT OF THE FOREGOING CAPABILITIES ASSUMING A SOVIET DECISION TO ATTACK THE US 41. The Soviet rulers would expect a direct attack on the United States to precipitate gen- eral war. In such a war the Soviet rulers would expect to have an initial preponderance of military power on the Eurasian continent, but in their attack upon the continental US would be concerned to prevent: (a) US air attack on the Soviet Union with nuclear weap- ons; (b) mobilization of the superior war potential of the Western allies, particularly that of the United States; and (c) US rein- forcement of anti-Soviet forces in Eurasia. 11' ;(- ()) 42. _11 e Soviet rulers have demonstrated their sensitivity to the danger of US air attack with nuclear weapons by the high priority which they have given to the development of de- fenses against such an attack. Despite the substantial progress already achieved in build- ing up their defenses, it is unlikely that they would regard their defensive capabilities as adequate to prevent substantial numbers of attacking aircraft from reaching strategic targets in the USSR. It is likely, therefore, that in initiating nuclear warfare the USSR would be concerned: (a) swiftly to destroy or cripple US capabilities for retaliation in kind; (b) to deliver such an attack on industrial and psychological targets in the United States as would prevent, or at least hinder, the mobilization of the US war potential; and (c) to retain the means to counter any US rein- forcement of Europe. Moreover, in any at- tack on the United States it is considered al- most certain that some portion' of the nuclear stockpile would be employed against other objectives outside the continental limits of the United States, or retained against other con- tingencies. 43. As among the available forces and weap- ons for attacking the continental US, the USSR's highest capability lies in open mili- tary attack with nuclear weapons delivered by long-range aircraft, for the following reasons: a. the limited capabilities of conventional naval forces and airborne forces; b. the security difficulties inherent in the delivery of comparable numbers of nuclear weapons by clandestine, means; c. the insufficient development of other methods of delivery of nuclear weapons on a large scale; and d. the insufficient development of other mass destruction weapons, or handicaps in their large-scale use. 44. The Soviet rulers might, however, employ other methods Of attacking the US concur- rently with or immediately following an open and direct nuclear attack. In the cases of guided missiles, airborne attack, submarine bombardment, chemical and biological war- fare, Soviet capabilities appear to be relatively limited. - 45. Clandestine attack in the form of sabo- tage or small-scale biological warfare might occur at any time, and without an overt attack TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TOP SECRET S4` ever being launched. The USSR must weigh the timing and value of the sabotage in rela- tion to their complete plan of attack and its effect upon the capability of the United States to? launch__ a retaliatory military attack. Clandestine attack with nuclear, weapons might occur against specially selected targets as a supplement to overt delivery by aircraft. 12 Subsequent to an overt attack, clandestine at- tack in any form could be expected to the maximum practicable extent. 46. We believe that the considerations affect- ing Soviet employment of their capabilities will remain throughout the period of this esti- mate essentially the same as those outlined above. TOP SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 TSECRET 13 APPENDIX A Range Capabilities of Soviet Long-Range Bombers, Mid-1954 to End-19571 I. From Chukotski Area Map 1 TU-4 Standard TU-4 Modified Map 2 Type-31 class (5,600 ESHP engine) Type-31 class (7,000 ESHP engine) Map 3 Jet Medium Bomber Jet Heavy Bomber II. From Kola Area Map 4 TU-4 Standard TU-4 Modified Map 5 Type-31 Class (5,600 ESHP engine) Type-31 class (7,000 ESHP engine) Map 6 Jet Medium Bomber Jet Heavy Bomber III. From Baltic-East German Area Map 7 TU-4 Standard TU-4 Modified Map 8 Type-31 class (5,600 ESHP engine) Type-31 class (7,000 ESHP engine) Map 9 Jet Medium Bomber Jet Heavy Bomber The estimated capabilities of aircraft using inflight refueling are based on an assumed single refueling point for attacks launched from each area. The esti- mated area coverage is thus subject to considerable error. E CR E T Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 SECRET ? \ ,,,,,,--' "?:_?:. -f--< Pi! REFUEL ? \ 17 AREA \\ T , 0- \ \ rli,k?li \ 4Oancler ?Botte .11 srnarck r nlo .Minneapolis Buffalo .Priladelphio ?tiValsington ?CIncinn. ? .lamond TWO-WAY/ ONE \ ONE REFUEL ?phan. Map 1 laa,aaa Louis Cy 3100 N50,1/y4,AY ?Dollas ?Knoxville 4Memphis Charleston 'Atlanta r , Jacksonvilte?\ Houston. TU-4, STANDARD AND MODIFIED From the CHUKOTSKI AREA ---Standard -- Modified Ranges are in nautical miles and are assumed ? on the basis of i0,000 lb. bomb load. 4700 / SECRET ONE-WA ONE REF EL \ 6 -5600 or?i:WAy A ONE REFUEL 13152 CIA, 2.54 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 SECRET , ? ," 7' 66 ? REFUEL AREA 14) f'`C, \\ \\TA \.pSidd10 I/\ Soke /\ t, ..tan Francisco ,Anchora .Holifo .BrAgor Angeles ? A.San Diego , _ -,,iii, .?-Boston Asmarck / ---`, tar n / ?-", 1 , ,roli j`, ? Buffalo1. .4.York Detroit olls? aulree. 00,06--7.p.,hilldelphia Chicogo "?'1nrashington - _3000?TW0:WAY "rdin.*nd .Kccorir .1(o-to:vine -(3'18; ;Memphis Atlanta Charleston ' Map 2/? , ')J\-A HEAVY TURBO-PROP s;r:IrR-eFuL\,( BOMBER (Type 31 Class) .) From the CHUKOTSKI AREA ?5600 6-IP Engine TWO\--.WAY, ONE REFUEE:-...,"" -- 7000 ESHP Engine Ranges are in nautical miles and are assumed on the basis of 10,000 lb. bomb load. /SECRET 13153 CP, 2-54 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 SECRET ...,cAnchorog JO?WAY ONE 'REFUEL / .Butte .Bcrise Ouebec? Montreol? Map 3 . ',San Diego ?Phoe +ix 'Albuquerque snrortkz t-or inneopolisi(1 Bulf?1? .14w.York Detroit Milwaukee: Piosbuzg 2900 ''01"" / ??Illenond .Kutsr .51. Louis / ? Zphis .Charleston .Dallos/// locksonville? JET MEDIUM AND'..-o_wAy ( JET HEAVY BOMBER ONE REFUEL From the CHUKOTSKI AREA -- Medium -- Heavy Ranges are in nautical miles and are assumed ? on the basis of 10,000 lb. bomb load. / SECRET 13154 CIA, 2-54 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 SECRET ? Vel'kal'. Map 4 0 ??-???-- Anchorage jr;iSeot e *Porilaid fon Francisco 00 r I k A a urth 4' 8 g ????????21,50 \\ ? \-4 -? 4. ? ?EFUEL AREA 3100 ONE-WAY k?*1lSoll lake City *EV ;muck Sioco Falls' Cheyenne \\4000 ONEJWAY -?,tos Angeles ;Van Diego \ *Alb *pho,,, ONE-WA N ONE REF TU-4, STANDARD AND MODIFIED From the KOLA AREA --- Standard --- Modified Ranges are in nautical miles and are assumed on the basis of 10,000 lb. bomb load. SECRET Il , \--.7t(717?' /aebecWO.YVAY / ONE REFUEL 1-r:83),%- Buffalo ',Washington ?RIchmond tint? anncipolis! cDetrol \Chica/a *Cincinnati *St./Alls ,Ku7 / *Memphis .0k181;;rna "Atlanta *Dallas/ lockconville? HO ,rvew UMA'. *Knoxville ONE-WAY ONE REFUEL ?TCharleston a X% 13155 CIA, 2-54 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 Declassified in Part - Sanitized Copy Approved for Release 2013/07/18: CIA-RDP79R01012A003400040001-1 SECRET Ala ci j h urtti 8Ck To ,56 --e WO-WAY Seattle '.Porila id ? .But .Elsruarck ?Ainneopolii Milwaukee! - salt toke (ion F ancisco City ls Ange' 4800 ?oscno? ON E-WA/Y Siou .Cheyenne *Denver Folls? ?Phoenix *Albuquerque Ko ?sj City .0 18yonwa Map 5 HEAVY TURBO-PROP BOMBER (Type 31 Class) From the KOLA AREA 5600 ESHP Engine -- 7000 ESHP Engine Ranges are in nautical miles and are assumed on the basis of to,000 lb. bomb load. 'ECRET , lousier, ? us Orleans Oeirol/ Gtk\ E Ft) EL Af AREA II / ander ( uebec? ntreol? ;;!:iston TWO-WAY\ ON E REFU EL P 'Woihington .Cincinnati ?4TAInuund ? .Knoxville :Memphis .4sswws. TWO-WAY lockson;Sille? 5600 0 N E,WAY ONE REFUEL