NATIONAL INTELLIGENCE SURVEY 26; SOVIET UNION; TRANSPORTATION AND TELECOMMUNICATIONS

APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 NATIONAL INTELLIGENCE SURVEY PUBLICATIONS The basic unit of the NIS is the General Survey, which is now published in a bound -by- chapter format so that topics of greater per- ishability can be updated on an individual basis. These chapters� Country Profile, The Society, Government and Politics, The Economy, Military Geog- raphy, Transportation and Telecommunications, Armed Forces, Science, and Intelligence and Security, provide the primary NIS coverage. Some chapters, particularly Science and Intelligence and Security, that are not pertinent to all countries, are produced selectively. For small countries requiring only minimal NIS treatment, the General Survey coverage may be bound into one volume. 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APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 WARNING The NIS is National Intelligence and may not be re- leased or shown to representatives of any foreign govern- ment or international body except by specific authorization of the Director of Central Intelligence in accordance with the provisions of National Security Council Intelligence Di- rective No. 1. For NIS containing unclassified rnoterial, however, the portions so ;narked may be made available for official pur- poses to foreign nationals and nongovernment personnel provided no attribuiion is made to National Intelligence or the National Intelligence Survey. Subsections and graphics are indivildually classified according to content. Classification /control designa- tions are: (U /OU) Unclassified /For Official Use Only (C) Confidential (S) Secret APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP0l- 00707R000200090035 -8 U.S.S.R. CONTENTS Thfs chapter sup, rsedes the transportation, and telecommunication coverage in the General Surrey dated March 1971. A. Appraisal B. Strctegic mobility C. Railroads ......I D. Highways E. Inland watem ays F. Pipelines G. Forts IL Merchant marine I. Civil air J. Airfields I X Telecommunications SECP -rT 1 3 4 11 19 34 39 56 61 65 76 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIGURES ii APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 Page Page Fig. 1 Electrification on the Trans Siberian Fig. 19 Ships constructed for the Soviet railroad (photo) 5 merchant fleet (table) 60 Fig. 2 Selected principal railroad lines Fig. 20 Merchant and fishing ships exported (table) 6 by the U.S.S.R. (table) 61 Fig. 3 French -built electric locomotive Fig. 21 Soviet aircraft (photos) photo) 10 Fig. 22 Selected major airfields table) 68 Fig. 4 ER -1 electric trainset (photo) 11 Fig. 23 Other important airfields table) 72 Fig. 5 Soviet highways photos) 13 Fig. 6 Selected principal highway routes Fig. 24 Comparison of telecom densities (table) 14 (chart) 77 Fig. 7 Major lock installation photo) 22 Fig. 25 National Telegraph Center, Moscow Fig. 8 Section of Krasnoyarsk port complex photo) 78 Kota p s e n g e (p 24 Fig. 26 Selected long- distance cable and Fig. 9 Meteor -class 150- passenger hydrofoil carrier telephone systems table) 80 photo) 25 Fig. 27 Selected radio -relay equipment Fig. 10 4,000- horsepower towboat photo) 26 table) 81 Fig. 11 Baltiskiy class dry-cargo vessel Fig. 28 Communications satellite facilities Kota 26 (photos) 82 Fig. 12 Selected principal inland waterways Fig. 29 Television standards (table) 84 (table) 27 Fig. 30 Ostankino TV Center in Moscow Fig. 13 Selected major petroleum pipeline (photo) 85 systems (table) 35 Fig. 31 Selected principal railroad lines Fig. 14 Selected major natural gas pipeline map) follows 86 systems (table) 37 Fig. 32 Selected principal highway routes Fig. 15 Odessa photo) 40 map) do Fig. 16 Nakhodka photo) 41 Fig. 33 Selected inland waterways map) do Fig. 17 Major ports table) 42 Fig. 34 Selected major pipeline systems Fig. 18 Merchant fleet strengths by base area map) do table) 60 Fig. 35 Terrain and transportation map) do ii APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 Transportation and Telecommunications A. Appraisal (C) The transportation and telecommunications (telecom) systems of the U.S.S.R. have not vet reached a stage of adequac for all sectors of the national economy and are undergoing improvements in varying degrees. The transportation industry, in particular, is suffering from poor bureaucratic planning and inept operating practices. Major developments in telecommunications and in virtually every mode of transportation are taking place through the governments continuing Five Year Plans. Progress in the growth and development of better facilities, however, is perhaps at a rate slower than Soviet planners anticipate or desire. The continental expanse of the Soviet Union, with its vast areas of sparse population and much of its terrain and climate hostile to the construction and maintenance of transport and telecom facilities, is apparently the main hindrance to this progress. Development of transportation and telecom facilities is especiall difficult or virtually impossible in the Siberian Arctic and sub- Arctic regions where foundations are seasonally unstable because of swamps, permafrost, and miry tundra soils. Distribution of the transportation and telecom systerns is uneven. The hest developed and most heavily utilized portions of these systems lie in European U.S.S.R. with Moscow" as it focal point; in sharp contrast, the remaining area (approximately 60% of the U.S.S.R.) is serviced by a sparse pattern of transport routes and telecorn facilities (Figure 35). The 'For diacritics on place names sec the list of names on the apron of the Terrain and "transportation map amt the nwp itself. east -west oriented Trans- Siberian rail line (Omsk to Vladivostok) provides the sole overland connecting link between the eastern and western transportation networks. In European U.S.S.R. the railroads and highways, and to a lesser extent the waterways, parallel each other in many areas. In the central and eastern parts of the U.S.S. R. the transportation lines tend to form it complementary pattern; this is especially characteristic of the central Soviet regions where several north south oriented giant river systems feed into the Tracts- Siberian rail route from the north, while it number of roads connect with the railroad from border connections to the south. Except for the lack of rail connections with Norway, overland international connections via rail or highway are made with all adjacent countries. Inland waterways provide direct connections only with Communist China, Mongolia, Afghanistan, Iran, Romania, Poland, and Finland; however, the inland fleet, using its river /seagoing vessels in combination with smaller river craft can navigate to the remaining adjacent countries via the Black Sea or the Danube River. The transportation and telecom systems are state owned and are controlled by various ministries of the Soviet bweaucracy. Traditionally, government policies have favored the development of railroads as the backbone of the overall surface transportation complex. As a result, the nations transportation system lacks the desired balance and coon dinaEon between the various modes, the railroads are overburdened, waterways are underutilized, and roads are qualitatively underdeveloped. There are, however, manifestations of it gradual change in government emphasis relative to transportation facilities. Soviet APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 -00707 R000200090035 -8 rail managers are increasingly siphoning off more of the traffic normally handled by rail to other modes the passengers to air or bus transport, and sonic freight to rivers, trucks, and pipelines. In line with this trend, the government is gradnally expanding its autonwtive industry, paving more roads, enlarging truck and port terminals, and constructing more pipelines. Over the years the railroads have continually outperformed all other modes of transport combined, in terms of long -haul traffic. This dominance is reflected in statistics for 1972 which indicate that of the total 2,193.1 billion short- tun -miles accomplished by the three major surface transportation modes, railroad, accounted for over 86` %f', highways SSA, and inland waterways less than 65( The railroads are also the chief means of passenger travel and, although their share of this traffic has been declining, in 1972 accounted for over 60% of the passengers transported. The highway system, while more extensive than the railroads and waterways, is only 15Si paved. Used mainly for short -haul and feeder services, motor transport is gradually assuming r.uore of the rail short distance traffic, and trucking now accounts for over Wi, of the freight moved by surface transport facilities. Soviet inland waterways, despite their limited areal distribution and lack of east -west oriented routes, are growing in importance to the national eccnomy� especially in the movement of raxw materials to developing industries. An expanding river /seagoing fleet is increasing the international- traffic capability of inland waterway vessels. The rapidly growing pipeline system is in important adjunct to the other surface transport modes but remains inadequate for national requirements �the oil industry still relying on rail and waterway carriers for the transport of significant amounts of crude ail to refineries and industrial consumers; in 1972, for example, the railroads accounted for about 44.551 of the total petroleum transported. Cavil air transport accounts for a comparatively small amount of domestic passenger and cargo traffic but is nevertheless significant for long distance travel and for providing services to isolated communities of the interior that are not reached by other nodes of transportation. Aeroflot, the sole Soviet civil airline, is the world's largest and flies to 66 countries in all continents except Australia. The Aeroflot fleet is estimated to total over 7,700 aircraft, most of .which are light aircraft including helicopters and special purpose types used for training or utility and liaison services. The civil air fleet is not expected to expand further; the probability is rather the opposite since the current trend is to replace Aeroflot's lighter aircraft with modern aircraft of greater capacities. Airfields in the Soviet Union are fairly well (list rihuted and adequately serve the needs of both commercial and military aircraft. The Soviet merchant marine, which early in 1973 ranked fifth in number of ships and eighth in dead-weight tonnage among the merchant fleets of the world, plies shipping routes reaching over 100 countries. Expansion of the fleet has slowed in recent years in contrast to the rapid rate of ship acquisition during the 1960'x; this slowdown may be attributed in part to the governments efforts to develop prototypes of more sophisticated ships, and also to the increasing exportation of Soviet -built vessels. Soviet seaborne trade, which it is estimated totaled 150 million tons in 1972, is supported by some 180 major and minor ports adequately distrihnted along the various seacoasts. Of growing signfficancc is the establishment of container facilities at some of the mayor ports. The Soviet telecom complex is basically extensive and comparable in many respects to systems found in the more advanced nations of the ,world. But satisfactory telecom services are still lacking in many communities; for example, on a per capita basis there are now only about five general- purpose telephones per 100 persons. The government is, however, airing to establish a modern and versatile telecom system for the entire country. The Soviets current live Year Plan (1971 -75) has provided for significant improvements to the transportation and telecom systems. Among the major projects underway or planned are the following: Railroads� construction of some new lines, double tracking the remaining single -track trunk lines, ac- quisition of some new motive power and rolling stock, expansion of electrification. Highways Increasing the amount of paved routes, construction of bypasses or circumferential highways around some major cities, establishment of more fueling and repair stations, improving truck terminals. Inland waterways� Expansion of some of the port facilities, development of new ports, installation of new handling equipment especially for container operations, continue modernization of the river fleet. Maritime ports Development of some new ports; improve existing facilities including reconstruction of wharves and construction of special berths for container ships; modernization and expansion of several shipyards. Merchant marine Continue fleet modernization, ac- quisition of 550 new ships. Pipelines� Construction of additional crude -oil lines, extensic,n of CEMA Friendship) system. Civil Air Replacement of older aircraft with larger, modern types; expansion of international services. Telecommunications Modernization and expansion of facilities including new intercity communications and TV relay networks, automation of intercity telegraph and telephone facilities, expansion of local telephone services, improve broadcasting facilities, expand color TV. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 -00707 R000200090035 -8 B. Strategic mobility (S) The transportation systems of the U.S.S.R. could provide substantial support for it,tcrnal military logistical operations, but any large -scale movement of forces would be severely limited by the uneven areal distribution of routes, physical deficiencies of the networks, and various en', ironmental factors. Regionally, European U. S. S. R., which has the heaviest concentration of overland routes, affords military forces the greatest degree of mobilih�; in contrast the sparsity of the surface transport networks elsewhere in the U. S. S. R. would i,nposc severe limitations on force movements. Owing to the enormity of the U.S.S.R., great distances would generally be involved in tilt� movement of troops and supplies, specially if logistical support lines had to extend from European U.S.S.R. to the central and far eastern regions. The railroads would be the mainstay of any internal overland militim supple movement, with the highways and inland waterways playing supplemen- tim roles. The most strategic and high capacity rail lines are those extending frorn Moscow and Leningrad to the Baltic and Black Sea areas, those that afford international connections with neighboring countries, and the "Trans- `;;berian line and its extensions. Because of many bridge crossings, most of the cast -west rail trunk lines are highly vulnerable to interdiction. Except for i"inland and Mongolia, cross border movement from the U.S.S.R. into the adjacent countries is cotttPlicated by the differences in rail gages, which necessitate transloading delays of up to 6 hours for troop trains moving with equipment. The capability of the highway systern to support major militar operations is seve�rcly limited by the insufficient number of paved arterial routes. Most roads are inferior types having low supporting characteristics. European U.S.S.R., which has the greatest density of roads and most of the paved mileage, affords considerable flexibility of movement for motorized forces. In the central and eastern regions of the country, the sparse and poor quality roaelnets have extremely limited capacities, and road movement for large -scale military operations would be generally confined to deployment to or from railheads along the "Trans- Siberian rail route. Like the railroads, the major points of interdiction on the roadnet are the bridges over the nunerous watercourses. The Caucasus, the Urals, and otber mountainous regions are also areas where motor convovs would be vulnerable to interdiction. Adverse climatic conditions �hcayy snws, ice conditions, freezing temperatures, the spring thaw, and seasonal rains and floods �would seriously hamper overland military operations. The inland waterway system provides an important, but slower, means of transporting both troops and supplies. Because of military exigencies, Soviet waterways probable would play it minor role in any initial reinforcement or logistical movement; howcycr, over a prolonged supple and resupply period of operations, they could serve as effective long distance lines of communication over which large tonnages of military equipment and supplies� including 1`01,� could be transported at it sustained rate of delivery. The major Soviet waterways arc amply equipped with night navigational aids allowing for 24 -hour operations and have relatively modern river fleets and port facilities, some of which could be readily made available for military use. Soviet inland witterway cargo craft are capable of transporting various types of military bardware and supplies including such items as tracked vehicles, armored trucks, personnel carriers, missiles, and components loo large: for transport by other modes. Additionally, nuncrous units of the inlauid fleet could easily be converted into hospital ships, troop carriers, antiaircraft barges, patrol craft, and minesweepers. The Greater Volga waterways system provides extensive high- capacity routes for logistical movements from interior points deep within European U.S.S.R. to maritime and river ports along the Baltic, White, Black, and Caspian Seas where cargoes would, as necessary, be transloaded to oceangoing vessels and traussbipped to overland modes of transportation. A major weakness of the inland waterways system is the winter ice conditions. which prevent navigation for periods of from 2 to 9 months �these periods depending on the geographic locale. Serious interdiction or complete stoppat *,c to through traffic movements could be achieved by destruction of the vulnerable dam and lock installations. TlIv Soviet merchant fleet would provide substantial scalift logistic support for military operations: its cargo vessels have it combined lift capability of more than 7.8 million long tons, and its passenger ships excluding the combination car- go; lrssenger hypes �could transport over 24,000 troops. Tile 278 merchant tanker vessels could provide for it scalift of over -1.5 million tons of POI.. "file maritime interregional scalift capability could be asgnuvthed by the inland waterways river /seagoing fleet of From S00 to -100 vessels whose capacities range APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 from 1,850 to 5,000 tons; additionally, vessels of the sizeable fishing fleet could be converted to carry troops and military equipment. The maritime fleet is adequately dispersed in the Baltic and Black Seas and along the coasts of the Arctic and Far East regions. Marine movement is restricted in some areas especially along the Arctic seacoast� during seasonal periods of fast ice conditions. Mobilization of Aeroflot personnel and equipment for military purposes would entail relatively minor technical and administrative adjustments. The carrier's military potential is enhanced by the fact that many of the different types of Soviet manufactured transport aircraft are in common use by both military and civil aviation. Transition from a civil to a military role would require only minor modifications. In addition, a substantial number of Aeroflot flight personnel are reservists in the air forces, and all employees are believed to hold mobilization assignments. The Ministry of Civil Aviation and several of his deputies are military officers. Personnel and equipment of civil airfields, air traffic control centers, and aircraft maintenance and overhaul bases are readily available and provide equipped installations for rapid conversion to military use. If all heavy and medium transports in the civil fleet were made available to the military, it is estimated that military cargo airlift capability would increase by 25% and troop airlift more than double. Most Aeroflot aircraft are not particularly well suited for military use because they are not rear loading and cannot be used for the transport of large vehicles. However, nearly all of them could be �and on several occasions some have been �used for transporting troops. The telecom systems could adequately support military operations. Owing to the many facilities available for alternate routing and the special measures taken to protect telecom systems, total disruption of services by military action would be difficult. C. Railroads (S) The 81,500 -route -mile U.S.S.R. railroad network, owned and operated by the government, occupies the primary position in the Soviet transportation industry, handling most of the long -haul freight transportation. In many areas the railroads are hard- pressed to handle freight traffic requirements, particularly during the harvest seasons. To cape with the problem, the government is investing heavily iii modernizing railroads and equipment and in constructing new lines. The present network� compared with the U.S. 212,000- route -mile system� comprises the second largest railroad complex in the world. Most of the trackage is in the west; eastward the network gradually becomes a series of individual lines running to Siberia, Central Asia, and the Soviet Far East. The network density is lower than that of any other developed country in the world �only 0.96 mile of mainline track per 100 square miles of territory. Moscow, the largest rail center, has 11 lines radiating in all directions and is served by two circumferential lines. Foremost among other rail centers are Leningrad, Sverdlovsk, Kharkov, and Chelyabinsk. The highest freight densities occur on lines joining the Donets Basin with Moscow, Leningrad, and regions of the Ukraine, and on those connecting the Kuznetsk Basin with the Ural mountains. The highest freight flow intensity on a single line is probably that along the Omsk Novosibirsk sector of the Trans Siberian railroad. The gage of the track on most Soviet railroads is 5'0" as compared to standard gage (-1'8'/2 used in the United States and most of the other countries of the world. Most narrow -gage trackage on the Russian mainland is 2'i 1 gage, and the relatively small network on the island of Sakhalin is predominately 3'6" gage. As of 1 January 1973, the mainland network totaled 81,506 route -miles of which 82,269 miles were broad -gage lines and 2,237 miles narrow gage. About 72% of the broad -gage net is single track; most of the remainder is double track. Roughly 26% of the network is electrified (Figure 1), and about 61 uses mostly diesel traction. Steam traction, in use in only 13% of the system, is disappearing rapidly. International connections are made with the rail systems of all adjacent countries except Norway. Afghanistan has no rail system, but the border is crossed by a short broad -gage extension of a U.S.S.R. branch line. Except for the 5'0" -gage networks of Finland and Mongolia, all international connections are with standard -gage (4'8 systems and transloading is necessary. The 24 change -of -gage points connecting the U.S.S.r.. rail network with the systems of the Eastern European Communist countries use the densest concentration of transloading facilities in the world. Other transloading sites are located on both sides of borders with Turkey, Iran, Communist China, and Nor Korea. All goods moving through the transloading zones usually must be transferred to the cars of the receiving country since rolling stock trucks are interchanged only on relatively few freight cars and on certain Russian passenger coaches. Development work on an automatic dual -gage wheelset, carried on for many years, may have been discontinued. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 ,t 1 2 Since most of the railroad network traverses plains and lowlands, grades are generally low, the steeper grades and most tunnels are situated in mountainous areas ;long the -southern edges of the country. Rail operations are affected by great variations in climate, ranging from the winters of Siberia to the subtropical summers of Turkestan. Snow clearance during the long winters is often it m: for problem. Characteristics of selected principal rail 1. 's are tabulated in Figure 2 and the lines are shown on Figure 31. The standard rail is of the T- section type the R -50 (103.8 pounds per yard), R -65 (130.8 pounds per yard), and the R -75 (151.4 pounds per yard) are the principal rails used on main lines. Lighter rails, ranging from 67.4 to 87.8 pounds per yard, are used elsewhere. Rails are produced by Soviet rolling mills in lengths of -11 and fit feet. For "seamless track the 82- foot .rails are prewelded into 2,625 foot lengths. Wooden crossties predominate and continue to be used throughout the system, prestressed reinforced concrete ties, which are preferred, are used in most new mainline constriction and in reconstruction of important routes. As of 1 January 1973, roughly 10,000 miles of line had been placed on concrete ties. Because of nume waterw the railroad system has many bridges. Steel -truss construction is most common for large- hridges, and steel girder and concrete slat) for smaller hridges. Double -trick bridges are uncommof., in following a generally worldwide practice, the Soviet rail planners add second tracks (and second hridges) only when increased traffic justifies the expenditure. 'funnels are !ocated mostly in the Caucasus and Sayan Mountains, on the Trans Siberian line sections around southern Lake Baikal, and between Ulan -Ude and Khabarovsk. The Amur river tunnel at Khabarovsk, built as a backup facility for the single -track bridge situated just south, is the only known underwater railroad tunnel in the U.S.S.R. Railroad ferries cross the Amur (Kom- somol'sk -na- Amore- Pivan'), the Caspian Sea (Baku Krasnovodsk), and Kerch* strait (K.rym- Kavkaz). Longstanding plans call for additional routes +cross the Caspian and for a connection with the island of Sakhalin (Sovetskaya Cavan- Kholmsk). The nianual -block sy stem of train control is employed on about 60 of the bread -gage network; automatic block, supplemented by Centralized Traffic Control, is used on about 33,600 route miles, including the most important lines. Locomotives operating within automatic -block territory are usually equipped with call signals and automatic- train -stop devices. The principal means of rails )ad communications is the telephone; all railroad stations are connected t)v an independent railroad telephone network, and a separate telephone system enables the Ministry to sat up conferences with the 26 regional railroads. Strategically placed radio stations supplement the telephone lines and serve as backup facilities in the event of line failure. Most Soviet locomotives are powered by diesel fuel or electricity. The relatively few steam locomotives still in service use mazut (a petroleum residual) or coal. Provision of water presents no difficulty. In 1972 the railroads carried 3,477.7 million short tons of freight and producz:r! 1,891.4 billion ton miles. During the same year they carried 3,053.4 million passengers and produced 170.6 billion passenger miles. Suburban passengers, mostly commuters, purchased about 90% of all tickets sold and accounted for approximately 27% of the passenger miles. In 1970 gross and net weights of freight trains amounted to 2,837.3 and 1,611.5 short tons, respectively; freight car turnaround was 5.5 days, and the average length of haul was 535 miles. Chief commodities normally transported are coal and coke, petroleum, ores, ferrous metal products, lumber and other building materials, and grain. 5 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIG:'tE 1. Electrification on the Trans Siberian railroad (Line 8) near Lake Baykal (U /OU) APPROVED FOR RELEASE: 2009106/16: CIA- RDPOI- 007078000200090035 -8 0' FIGURE 2. Selected principal railroad lines (5'0" broad gage. Direction of maximum grades no) LINE LOCATION AND LENGTH (SEE NO. MAP, Flu. 31) PHYSICAL CHARACTERISTICS OPERATIONS 1 Moscow- Leningrad; 403.9 miles.. All double track. Nlax. grade, 0.5 radius of curvature, 2,865 ft. 2 Moscow -Brest (Poland border); All double track. Max. grade, 0.8% 683.5 miles. radius of curvature, 2,200 ft. 3 Moscow -Vadul Siret (Romania border); 935.8 miles. 4 Moscow- Sevastopol; 958.1 miles.. 5 Bakhmach- Odessa; 413.8 miles.. 6 Moscow -Baku; 1,587.6 miles..... 7 Ryazan -Omsk; 1,654.7 miles..... Arl.. Electrified; automatic block. Average train speeds, excluding stops: 35 m.p.h. (freight.); up to 60 m.p.h. (passenger). Min. Electrified Moscow- Borodino (75.2 miles). Automatic block. Average train speeds, excluding stops: 30 m.p.h. (freight). Single track, 227.5 miles; double track, 708.3 miles (Moscow Zhmerinka). Known max. grades: Fastov Kazatin, 2.0 Vinnitsa- Zhmerinku, 0.9 Known min. radius of curvature: Kazatin Vinnitsa, 656 ft. Zhmerinka- Oknitsa: max. interval between passing tracks, 8.1 miles. Single track, 48.5 miles; double track 909.6 miles. Known max. grades: Kursh -Sim- feropol, 0.8 Simferopol Sevastopol, 1.2 Known min. radius of curvature: Kursh- Simferopol, 2,099 ft.; Simferopol Sevastopol, 984 ft. Simferopol- Sevastopol: max. interval between passing tracks, 6.8 miles. Single track, 334.3 miles; double track, 79.5 miles (Kolosovka- Odessa). Known max. grade, Grebenka Zolotonosha, 0.8 Known min. radius of curvature (Grebenka- Zolotonosha) 2,100 ft. Serviceable length of shortest passing track, about 2,000 ft. All double track. Known max. grades: Rostov Prokhladnyy, 1.2 Prokhladnyy -Baku, 0.7 Known min. radius of curvature: Otrozhka- Rostov, 2,099 ft.; Rostov -Baku, 1,049 ft. All double track. Known max. grades: Kinel- Kurgan, 1.0 Known min. radius of curva- ture: Kinel Kurgan, 885 ft. Electrified Moscow Kazatin (640.6 miles). Automatic block Moscow Zhmerinka. Aver- age train speeds, excluding stops: Moscow Kazaiin, 30 m.p.h. (freight). Electrified; automatic block Moscow -Sim- feropol; manual 'block Simferopol-Sevas- topol. Known train speeds, excluding stops: Moscow- Simferopol, 35 m.p.h. (freight). Electrified Pomoshnaya Odessa (170.2 miles). Manual block Bakhmach Pomoshnaya; automatic block Pomoshnaya- Odessa. Known average train speeds, excluding stops: Pomoshnaya Kolosovka, 30 m.p.h. (freight); Kolosovka Odessa, 35 m.p.h. (freight). Electrified: Moscow Mine:alnyye Vody (1,069.4 miles), Derbent -Baku (152.8 miles). Automatic block. Average speeds, including stops, 30 m.p.h. (freight). REMAPKS 5 major bridges, 480 -1,020 ft. long. 6 major bridges, 330 -550 ft. long. 10 major bridges, 420 -3,060 ft. long. 7 major bridges, 350 -2,000 ft. long; 4 tunnels, 950 -2,000 ft. long. 2 major bridges, 1,650 and 3,700 ft. long. 19 major bridges, 390 -1,900 ft. long. All electrified. Average !.rain 4peeds, excluding 12 major bridges, 492 -4,720 ft. long. stops, 35 m.p.h. (freight). APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 007078000200090035 -8 S 8 Moscow- Vladivostok; 5,776.9 miles. 9 Moscow Kotelnich; 503.9 miles. 10 Zaudinskiy Naushki (Mongolia border); 153.5 miles. 11 De...,nevka- Sovetskaya Gavan; 499.0 miles. 12 Baranovskiy- Khasan (Korea bor- der); 147.3 miles. 13 Ussuriysk- Rassypnaya Pfd (China border); 72A miles. 14 Tars kaya- Zabaykalsk (China bor- der); 220.6 miles. 15 Uglovoye Tikhookeanskaya; 108.1 miles. 16 Danilov- Arkhangelsk; 480.3 miles. 17 Leningrad- Vayenga; 917.1 miles.. Footnotes at end of table. Single track, 318.7 miles; double track, 5,458.2 miles (221.8 miles Moscow Kanilov, 5,236.4 miles Kotelnich- Vladivostok). Ruling grade, 2% in each direction (Irkutsk Sludyanka). Min. radius of curvature: 738 ft. (Omsk Novosibirsk). Danilov Kotelnich: max. in- terval between passing tracks, 9.3 miles. All double track. Gork Kotelnich: max. grade, 0.7 min. radius of curvature, 1,738 ft. All single track. Max. grade, 1.2 Min. radius of curvature, na. Max. interval be- tween passing track, 16.7 miles. All single track. Max. grade, 0.8 Min. radius of curvature, na. Max. interval be- tween passing track, 13 miles. All single track. Max. grade, 1.5 Min. radius of curvature, na. Max. interval be- tween passing tracks, 13.6 miles. All single track. Max. grades, 1.5 Min. radius of curvature, na. Max. interval L tween passing tracks, 11.1 miles. All single track. Max. grade, 1.7 Min. radius of curvature, 905 ft. Max. interval between passing track, 13 miles. All single track. Max. grade and min. radius of curvature, na. Max. interval betweer, pass- ing track, 11.8 m2es. Single track, 80.2 miles; double track, 400.1 miles. Max. grade, 0.8 Min. radius of curvature, 1,700 ft. Max. interval between passing tracks, 12.4 miles. Single track, 784.9 miles; double track, 132.2 miles. Known max. grades: Leningrad Volkhovstroy, 0.8 Volkhovstroy-Mur- mans'r, 1.5 Known min. radius of curva- ture: Leningrad Volkovstroy, 1,968 ft.; Volkovstroy Petrozavodsk, 1,395 ft.; Petro zavodsk-Murn.ansk, 1,049 ft. Volkhovstroy- Belomorsk: max. interval between passing tracks, 12.0 miles. Electrified: Moscow Sverdlovsk (1,129.6 miles); Nazyvayevsk- Petrovskiy -Zavod (2,002.6 miles); Ussuriysk- Vladivostok (69.6 miles). Automatic block on most of line. Average train speed, excluding stops, 30 m.p.h. (freight). Entire line electrified; automatic block. Aver- age train speed, excluding stops. 35 m.p.h. (freight). Manual block. Average train speed, excluding stops, 25 m.p.h. (freight). do 83 major bridges, 296 -8,550 ft. long; 4 tunnels, 2,900- 18,480 ft. long. 6 major bridges, 500 -3,680 ft. long. Broad -gage connection continues into Mongolia; transloading facilities at China border (Erh- lien). 4 major bridges, 650 -1,850 ft. long. 11 major bridges, 300 -2,000 ft. long. do 14 major bridges, 400 -1,770 ft. long. do 1 major bridge, 420 ft. long. do 2 major bridges, 770 -1,300 ft. long. Entire line electrified. Average train speed, 3 major bridges, 340 -380 ft. 1 ng. 1 excluding stops, about 25 m.p.h. (freight). tunnel, 720 ft. long. Double track, automatic block Danilov- Obozerskiy. Average train speeds, excluding stops: Danilov- Obozerskiy, 30 m.p.h. (freight). Obozerskiy Arkhangelsk, 25 m.p.h. (freight). Double track and electrified Leningrad Volkhovstroy (75.2 miles), Kandalaksha- Apatity (57.1 miles). Automatic block throughout. Average train speeds, excluding stops, 30 -35 m.p.h. (freight). 3 major bridges, 350 -3,500 ft, long. 14 major bridges, 330 -1,244 ft. long. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 007078000200090035 -8 Go FIGURE 2. Selected principal railroad lines (S) (Continued) LINE LOCATION AND LENGTH (SEE NO. MAP, FIG. 31) PHYSICAL CHARACTERISTICS= 18 Novosibirsk -Arys; 1,559.6 miles.. 19 Magnitogorsk- Tayshet; 1,944.6 miles. Single tri&0, 895.5 miles; double track, 664.1 miles. Known max. grades: Novosibirsk Semipalatinsk, 0.8 Semipalatinsk -Arys, 1.4 Known min. radius of curvature, 1,749 ft. Novosibirsk Semipalatinsk sector, 984 ft. Semi palatinsk -Arys. Semipalatinsk Chu: max. interval between passing tracks, 11.8 miles. Single track, 1,272.7 miles; double track, 721.E miles. Max. grade, 0.6 Min. radius of curvature, 1,312 ft. Tselmograd Barnaul: max. interval between passing tracks, 25.4 miles. 20 Petropavlovsk -Chu; 940.7 miles. 21 Michurinsk- Gudermes; 978.0 miles. 22 Pushkino- Tashkent; 1,480.7 miles. 23 Shepetovka Mostiska (Poland border); 214.9 miles. 24 Lvov -Chop (Czechoslovakia and Hungary borders); 165.3 miles. 25 Armavir -Baku; 873.0 miles.... Single track, 715.8 miles; double track, 224.9 miles. Max. grade, na. Min. radius of curva- ture, 1,312 ft. Petropavlovsk Tselinograd: max. interval between passing track, 29.3 miles. Single track, 640 miles; double track, 338 miles. Max. grade, 1.1 Min. radius of curvature, 1,312 ft. Pushkino- Astrakhan: max. interval between passing tracks, 12.4 miles. Single track, 1,326.7 miles; double track, 154 miles. Known max. grades: Dzhusaly -Arys, 0.8 Arys- Tashke, t, 1.6 Known min. radius of curvature: Dzhusaly -Arys, 2,296 ft.; Arys- Tashkent, 1,968 ft. Yershov- Iletsk: max. interval between passing track, 10.5 miles. All double track. Max. grade, 0.8 Min. radius of curvature, 1,436 ft. All single track. Max. grade, 2.5 Min. radius of curvature, na. Max. interval be- tween passing tracks, 6.8 miles. Dual gage (5 and 4181/2') Mukachevo -Chop. Single track, b84.8 miles; double track, 306.2 miles. Max. grade, 2.9 Min. radius of curvature, 1,049 ft. Komsomisk-na-Amure- Tbilisi: max. interval between passing tracks, 6.8 miles. OPERATIONS Double track: Novosibirsk Berdsk (24.2 miles), Talmenka- Semipalatinsk (308.8 miles), Chu -Arys (331.1 miles). Electrified Novosibirsk Barnaul (141.6 miles). Manual block. Average train speeds, excluding stops, 20 -25 m.p.h. (freight). Double track Magnitogorsk Tselinograd (597.7 miles), Barnaul Artyshta (124.2 miles). Electrified Magnitogorsk-Tselino- grad (597.7 miles), Barnaul- Tryshet (804.8 miles). Automatic- and manual -block opera tiona. Average speeds, excluding stops, 30 -35 I..p.h. (freight). Double track Tselinograd Zharyk (224.9 miles). Electrified Tselinograd- Karaganda (149.7 miles). Automatic- and manual -block operations. Average train speeds, 25 -30 m.p.n. (freight). Double track, automatic block Michurinsk- Pushkino sector. Average train speeds, ex- cluding stops, 20 -25 m.p.h. (freight). Double track Pushkino Yershov (57.7 miles), Arys- Tashkent (96.3 miles). Manual block throughout. Average train speeds, excluding stops, 20 -25 m.p.h. (freight). Electrified throughout. Average train speeds, excluding stops, 30-35 m.p.h. (freight). Electrified throughout. Average train speeds, excluding .Mops, 20 -25 m.p.h. (freight). Double track T;,ilisi -Baku. Electrified throughout. Automatic- and manual -block operations. Average train speeds, 20 -25 m.p.h. (freight). REMARKS 8 major bridges, 395 -2,080 ft. long. Passing track entry applies to Semi- palatinsk -Chu sector. 21 major bridges, 470 -2,900 ft. long; 2 tunnels, 7,879 and 8,236 ft. long. 2 major bridges, 420 and 890 ft. long. 9 major bridges, 520 -5,410 ft. long. 6 major bridges, 500 -2,400 ft. long. 1 major bridge, 440 ft. long. 5 major bridges, 330 -875 ft. long. 1 tunnel, 5,500 ft. long. 42 major bridges, 300 -1,550 ft. long. 12 tunnels, 3,018 -6,650 ft. long. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDPOl- 007078000200090035 -8 26 27 28 29 30 Leningrad Lososna (Poland bor- der); 540.0 miles. Kaliningrad Bakhmach; 641.8 miles. Navtlugi Pervyye Alyat; 591.5 miles. Sverdlovsk Guryev; 970.6 miles.. Krasnovo6sk- Tashkent; 1,157.6 miles. Single track, 318.9 miles; double track, 221.1 miles. Known max. grades: Leningrad- Lugs, 0.6 Daugavpils- Pytalovo, 1.6 Known min. radius of curvature: Leningrad- Lugs, 971 ft. Max. interval between passing tracks, 7.5 miles. Single track, 216.2 miles; double track, 425.6 miles. Known max. grade, Zhlobin- Osipo- vichi Pervyye, 0.8 Known min. radius of curvature, Zhlobin- Osipovichi Pervyye, 1,844 ft. Max. interval between passing tracks, 11.2 miles. All single track. Max. grade, 2.9 Known min. radius of curvature: Dzhulfa- Alyat, 869 ft. Masis Alyat: max. interval between passing tracks, 14.3 miles. Single track, 759.1 miles; double track, 211.5 miles. Known max. grades: Sverdlovsk Orsk, 0.8 Kondurovka- Guryev, 0.6 Known min. radius of curvature: Sver- dlovsk-Orsk, 1,394 ft. Orsk Curyev: max. interval between passing tracks, 27.3 miles. Single track, 1,037.7 miles; double track, 119.9 miles. Known max. grade: ZiE.Iin- Khavast, 1.6 Known min. radius of curvature: Ziadin- Khavan, 1,868 ft. Khavast- Krasno- vodsk: max. interval between passing tracks, 13.6 miles. Double track Leningrad- Siverskaya (42.2 miles), E-ukshtas- Lososno (178.9 miles). Electrified Leningrad -Lugs (85.1 miles). Automatic block Dukshtas- Lososna. Aver- age train speeds, 20 -30 m.p.h. (freight). Single track Bobruysk- Bakhmach. Electrified Molodechna- Pukhovichi (86.9 miles). Auto- matic block Kaliningrad-Bobruysk. Aver- age train speeds, excluding stops, 30 m.p.h. (freight). Electrified Navtlugi Pervyye Norashen (309.4 miles). Manual block. Average train speeds, 17 -20 m.p.h. (freight). Double track, electrified, automatic block Chelyabirsk -Orsk (340.5 miles). Average train speeds, excluding stops, 20-30 m.p.h. (freight). Double track Samarkand Dzhizak (70.2 miles), Khavast Tashkent (94.4 miles). Electrified Syr Darinskaya- Tashkent. Manual block. Average speeds, excluding stops, 20-25 m.p.h. (freight). 5 major bridges, 300 -910 ft. long. 1 tunnel, 1,470 ft. long. 6 major bridges, 530 -1,130 ft. long. 1 tunnel, 3,940 ft. long. 8 major bridges, 320 -760 ft. long. 1 tunnel, 5,000 ft. long. 4 major bridges, 500 -1,800 ft. long. 4 major bridges, 410 -5,300 ft. long. na Data not available. 'Direction of maximum grades is unknown. ir APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 As of I January 1972 the locomotive inventory totaled about .30,100 units, mostly diesels and electries. Steam locomotives, now used on low density lines and as switchers, move only 3.5% of the rail hauled freight. Although Soviet produced locomotives are technically somewhat inferior, the inventory is generally adequate to handle traffic re(Iuirements. Production of electric locomotives is concentrated at plants in Novocherkassk and Tbilisi, which have an annual combined output of 300 units. Diesel production: is concentrated tit Kharkov, Voro- shilovgrad, and Kolomna, with a combined annual production of about 1,500 units. Additional locomotives (mo electric), are imported from France (Figure 3). E ast Germany, Hungary, Austria, and Czechoslovakia. At the beginning of 1972 the freight car inventory wtaled about 1.2 million units. The (I'nality of freight ca-' is somewhat inadequate, and the quantity does not me; present -day demands. Approximately 9550 of the fleet consists of 4 -axle (or snore) cars; all cars have automatic couplers and airhrakes. Domestic production of freight cars amounts to about 64,000 units annually; builders are located throughout the country, but the larger plants are at Nizi niy "Tagil, Atltayskaya. 'Lhdanov (hunk cars), and Kryukov. Container shipping between Japan and Western Europe via the Trans Siberian Railroad is increasing steadily and is expected to nnushro;w.i during div next few years. According to the Soi irts, such traffic amounted to 3,000 containers dwing the first half of 1972, a figure which is expected to grow to between 15,000 and 20,000 units during 1973. Container transfer yards have been established in Moscow, Leningr [crest, and other areas. About 80% of all Soviet containers have capacities of .3 tons or less, but larger units are being used increasingly with development of modern facilities. Experimental flatcars are available to transport 10- and 20 -ton containers. Most of the passenger cars a.e built tit Kaliningrad, Riga, and Leningrad. All -metal cars comprise most of the total fleet, which has 2-, 3 and 4 -axle cars. Most of the 2 -axle equipment is in service on suburban lines, and the heavier equipment on Ivrig- distance routes. Electric (Figure 4) and aicscl multiple -unit trains are used for local and commuter service within large metropolitan enters. The Soviet railroads am divided into 26 regional systems functioning as independent units under the Ministry of Railways. The railroads had 2,337,000 employees in 1971, of whom 2,013,000 were classified as operating personnel. Considerable attention is given to research, education, and training. The Central Scientific Institute of Railroad Transportation, located just south of Moscow, is probably the largest and most advanced railroad instihnte in the c:rumtry. About 14 institutes offer degrees in railroad engineering, and other railroad schools provide job training as well as basic educational courses. The current Five Year Plan (1971 -75) calls for further dieselization and electrification, double tracking the remaining single -track trunk routes, acquiring new motive power and rolling stock, installing modern signaling, and construction of sonic new lines. The 'Tyumen- Surgut route, one of the most important construction projects underway in Western Siberia, will provide service front a major oil producing region in the northern part of the Tyumen Oblast. Presently completed to it point north of FIGURE 3. French -built electric loco- motive, series F.05 (C) IO APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 FIGURE 4. ER -1 electric train- set (U /OU) Tobolsk, the line %will eventually cross the Oh River at Surgrat and run eastward along; the Oh to terminate at Nizhnevartovskiy. The Central Siberian and South Siberian railroads probably will be completed by 197.3 and should provide considerable relief for the highly overworked Trans- Siberian line in this area. The Central Siberian line, originating north of Rarnaul at the Talmenka junction, runs west through Karasuk, Kokelhetov, Kustanay, and terminates at Dzhetygara. The South Siberian Railroad, originating on the 'Trans- Siberian line at Tayshet and running west through Abakan, Novokuznetsk, Tsclinograd, and Kartaly to Mag- nitogorsk, is to be extended to Chishmy, on the Moscow- Kurgan trunk -Dote. After several years of delay, the Soviets have started work on the highly difficult task of bridging the Amur River between Komsomol sk -na -Amore and Pivan in the Far East. The structure, when completed, not only will elieiinate the need for train ferry operations across the Arnor, but also will obviate the custom, in winter, of laying tracks across the frozen river. D. Highways (S) highway transport is used primarily for short -haul movement of freight and passengers, and provides a feeder and distribution service to other modes of transport. Long distance international and domestic intenirh;ni trucking exist on several routes, but the amount of freight hauled in these operations is coanpor:,tively small. The average length of haul is slightly over 9 miles. In 1972 trucks carried 18.8 billion short tons of freight and produced 178 hillion ton miles. Quantitatively, the road network is generally adequate to meet current economic requirements. In terms of quality, however, the network is deficient; over 84% of the total mileage comprises loose- or natural- surface roads. The unevenly distributed national network ranges from a relatively dense net in European U.S.S.R. to a very s .arse network in Asiatic U.S. S.R. Most paved or improv -rd roads are located in the central and western parts of European U.S.S.R and along the southern border. The north central and northeastern regions of the country have few roads. The Pacific oastal region and Sakhalin island are served by sev(,ril improved r,; .ids. No continuous paved road crosses the entire country in an east -west direction. The U.S.S.R. road network makes connections with all bordering countries. The network density of slightly less than 0.1 -rile of road per square mile of area is less than the densities in countries along the western border; about equal to neighboring Communist China, Mongolia, North Korea, and 'l'urkey; and greater than that of Iran and Afghanistan. From the standpoint of duality, the countries along the western border have superior roads, while the countries along the southern horder have equal or inferior roads. In 1971 the U.S.S.R. had 845,618 miles of roads. A breakdown of this mileage by surface type: is as follows: PERCENT SURFACE MILES OF'IOTAL Paved concrete; bituminous, includ- ing surface treatment; stone block; cobblestone) 128,340 15.2 Crashed stone, gravel 188,852 22.3 Earth including tracks) 528,426 62.5 U.S.S. R. roads are classified administratively into four categories: all- union; republic; oblast, kray, or autonomous republic; and local. All -union roads are primaril v long distance main routes which connect large hadustrial and agricultural centers, serve APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 international traffic, and carry heavy freight or passenger traffic. Republic roads are main or secondary routes which connect the main administra- tive, political, and economic centers of autonrmous republics, krays, and oblasts within a union republic. Roads of oblast, kray, or autonomous republic importance are short distance routes which connect important areas within an oblast, kray, or autonomous republic. Local roads link rayon centers, rural settlements, villages, and state and collective farms. Although the administrative classification of roads does not signify any particular type of road construction, the all -union roads are generally paved, these routes comprising less than 10% of the total network. Most main routes in European U.S.S.R. have bituminous surfaces (Figure 5) 16 to 23 feet wide, with 3- to 10 -foot earth or gravel shoulders. Other main routes have surfaces 30 to 40 feet wide. Four -lane divided highways total about 500 miles, including the 68 -mile Moscow circumferential highway, the Kaunas to Vilnyus highway, and approaches to some large urban areas. In Asiatic U.S.S.R. most main routes are constructed of crushed stone or gravel and are 16 to 20 feet wide. Bituminous surfaced roads 18 to 20 feet wide connect the more important cities in Soviet ':antral Asia. These roads generally have a surface thickness of less than 2 inches laid on a crushed stone, gravel, or sand base 10 to 20 inches thick, depending on the condition and type of subsoil. The surface of gravel roads in areas of stable soil and good drainage usually consists of 2 inches of gravel and sand; elsewhere the gravel or crushed stone roads range in thickness from 4 to 12 inches and have a base of large rocks, slag, or rubble. Improved earth roads are usually constructed by grading and rolling the natural surface. Earth shoulders are predominant throughout the roads network, but the better roads have gravel shoulders from 3 to 10 feet wide. Because of the flat to rolling terrain in European U.S.S.R., roads there have gentle curves and grades, while in the Caucasus and the mountainous southern border areas many roads have steep grades and sharp curves. Information is riot available on the total number of road bridges in the U.S.S.R. Timber bridges, although common on secondary and local roads, are gradually being replaced by prefabricated, reinforced- concrete, deck -type structures. Steel bridges are used mainly in large urban areas and at wide -gap river crossings. In several of the cities there are doubled. combination rail- highway bridges. Load capacities of bridges vary 12 considerably; recently constructed reinforced- concrete bridges have load capacities of about 66 short tons under controlled speeds and spacing of vehicles; however, low capacity bridges (less than 10 short tons) still exist on many roads. Reinforced- concrete, steel, and masonry bridges are in fair to good condition; the timber bridges are generally in poor condition. There are few road tunnels and galleries, and the small number of ferries and fords are usually limited to secondary roac`. crossings. known tunnels and galleries are of reinforced concrete construction. Ferry craft vary from cable- operated barges with capacities of one or two vehicles to modern, diesel- powered craft each with a capacity of at least 25 vehicles. Characteristics of selected principal highway routes are tabulated in Figure 6; the routes are shown on Figure 32. Road construction and maintenance activities are government controlled. The Main Administration for Highway Construction (Glavdorstroy), subordinate to the Ministry of Transport Construction, is responsible for the planning, design, and construction of all -union roads and any others of military significance. Planning and construction of the other roads, as well as road maintenance, is carried out by units of the Ministry of Motor Transport and Highways in each republic, with subordinate directorates at kray and oblast levels. In addition. some industries and enterprises build and maintain roads to serve their own needs. Roads are constructed by highly mechanized groups assigned to specific road construction districts. Road maintenance and repair are performed by units (Road Repair Points) of 25 to 35 men, each unit being responsible for sectors 30 to 55 miles in length. Supplementary sources of labor include military personnel and members of collective and state farms, industrial enterprises, and other economic organiza- tions. In general, roads are slowly and poorly constructed. Many problems bar effective and efficient road construction and maintenance. There is a general shortage of appropriated funds, road construction materia,ls, roadbuilding equipment, and skilled personnel. Moreover, mountainous terrain, unstable soils, and poor drainage hinder cons' suction and maintenance in many areas. Road construction materials, in particular suitable gravel and crushed rock, are in short suppiv in some parts of the country and must be transported to construction sites �at times by rail over long distances. Bituminous materials are available in a .equate amounts; Portland cement, although sufficient in quantity, is used only in the construction of especially important roads. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 Bituminous- surfaced stretch of Len%grad. Murmansk road. A lengthy part of this route has a gravel surface which is being replaced with bituminous surfacing. (U /OU) Moscow- Minsk -Brest highway. This 668 -mile route is the most important road connecting Moscow with Poland and routes leading to Western Europe. (S) The U.S.S.R. has rolotively few routes similar to the re.ently completed 59 -mile Vllnyus- Kaunbs highway shown here (U /OU) FIGURE 5. Soviet highways 13 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009106/16: CIA- RDPOI- 007078000200090035 -8 FIGURE 6. Selected principal highway routes (S) ROUTE LOCATION AND LENGTH N. (SEE MAP, FIG. 32) PHYSICAL CHARACTER :STiCS 1 Poland border Moscow; 668 miles Bituminous, concrete surface 30 -42 ft. wide; 5- 10 -ft. earth shoulders. Gentle grades, moderate curves. 6 large bridges, 500 -1,300 ft. long; 8 underpasses. 2 Finland border Moscow via Lenin- grad; 560 miles. 3 Poland bonder- Rostov via Kiyev, Kharkov; 967 miles. 4 Poland border- Leningrad via Riga; 616 miles. 5 Finland border- Leningrad via Murmansk, Petrozavodsk; 1,051 miles. Czerhoslovakia border Rovno via L'vov; 303 miles. Bituminous, concrete surface 24 -80 ft. wide, short stretches of 4 -lane divided highway lead N. from Moscow and Leningrad for 18 and 2: miles respectively; 3- 15 -ft. earth and gravel shouders. Moderate grades and curves. 8 main bridges, 500 -1,720 ft. long; 7 underpasses, 1 tunnel (at Moscow), 2 limited clearance bridges. Bituminous, concrete surface 20 -25 ft. wide; 3 -8 -ft. earth and gravel shoulders. Gentle to moderate grades and curves. 12 large bridges, 500 -5,000 ft. long; 8 underpasses. Bituminous, concrete surface 20 -30 ft. wide; 3 -8-ft. earth and gravel shoulders. Gentle to moderate grades and curves. 6 large bridges, 750 -2,275 ft. long; 12 underpasses, 1 limited clearance bridge. Finland border -about 30 miles N. of Kola: gravel surface 21 -26 ft. wide; 0 -3 ft. probably earth shoulders. 30 miles N. of Kola- vicinity oi' Loukhi; bituminous sur- face 20-24 ft. wide; 3 -5 ft. gravel shoulders. Loukhi vicinity of Medvezh'yegorsk: gravel surface 22 -24 ft. wide. Medvezh'- yegorsk Petrozavodsk: bituminous surface 22 -24 ft. wide; 5 ft. gravel shoulders. 7 large bridges, 500 -2,000 ft. long. Bottle- necks include 2 limited clearance bridges, I ferry. Bituminous surface, 17 -20 ft. wide; 2 -6 -ft. earth and gravel shoulders. Moderate curves and grades. No large bridges or bottlenecks. OPERATIONS Most important road Moscow- western Europe. Provides best approach to Moscow from W., N. of extensive Pripet Marshes. All towns or urban areas of appreciable size skirted or bypassed thus facilitating rapid vehicular movement. About 17 fueling points, 7 repair shops along route. In addition to providing major highway connection with Finland, road connects 2 largest Soviet population and industrial centers, Moscow and Leningrad. Only few urban areas bypassed. About 12 fueling points, 6 repair shops along route. Major highway connection with Poland. Route serves most important U.S.S.R. mining and basic metallurgical district and vast agricultural areas of Ukraine. Only few urban areas bypassed. About 18 fueling points, 12 repair shops along route. Major highway connection with Poland. Route also connects with lateral routes extending from various ports and naval bases on Baltic Sea. Very few urban areas bypassed. Fuel and repair facilities located in large cities and some of large towns or villages. Major highway connection with Finland; branch road links with Norway. highway connects Leningrad, largest port, with Murmansk, only ice -free seaport cn U.S.S.R. Arctic coast. Road supplements existing RR. to provide only 2 overland, N. -S. lines of communication in region. Principal connection with Czechoslovakia. Route serves L'vov, transportation and light industries center, and petroleum fields of western FkraipP. REMARKS Generally fIP'. terrain. Usually in fair to good condition. Flat to undulating terrain. Usually in fair to good condition. Mostly flat to undulating terrain. In fair to good condition. Rovno- Kiyev being converted to 4 -lane divided highway. Generally flat terrtrin. In fair to good condition. Mostly flat to undulating terrah Loukhi Medvezh'yegorsk section being reconstructed; to be bitu- minous surfaced and probably in operation by 1974. Hilly terrain. In fair to good condi- tion. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA� RDPOl- 007078000200090035 -8 7 Romania border Zhitomir via Chernovtsy, and Vinnitsa: 286 miles. 8 Romania border Rostov via Kishinev, Odessa, Melitopol; 634 miles. 9 Odessa -Pskov via Kiyev, Vitebsk; 849 miles. !0 Minsk Sovetsk via Vilnyus; 281 miles. 11 Sevastopol- Moscow via Khar'kov; 920 miles. 12 Junction 40 miles S. of Orel Junction 56 miles N. of Kiyev; 226 miles. 13 Shakhty Kashira; 613 miles..... 14 Volgograd- Moscow; 627 miles... 15 Moscow- Dzhusaly via Kuyby- shev; 1,810 miles. Z" Bituminous surface 16 -26 ft. wide; 0 -6 -ft. earth shoulders. Moderate curves and grades. 5 large bridges, 550 -984 ft. long; 1 underpass. Bituminous, gravel surface 20 -26 ft. wide; 2 -6 -ft. earth shoulders. Moderate curves and grades. 4 large bridges, 600 -2,465 ft. long; 2 underpasses. Bituminous, concrete surface 16 -30 ft. wide; 3- 12 -ft. earth and gravel shoulders. Mod- erate curves and grades. 9 large bridges, 500 -5,000 ft. long; 8 underpasses. Vilnyus- Kaunas: 4 -lane divided highway. Concrete surface, each roadway 24.5 ft. wide, 3 -ft. concrete shoulders. Remainder of route: Bituminous surface 20 -26 ft. wide, 3 -6 -ft. shoulders. Moderate curves and grades along entire route. 1,150 -ft. bridge at Kaunas, 2 underpasses. Bituminous surface 18-40 ft. wide. 3 -8 -ft. gravel and earth shoulders. Sharp curves near Sevastopol; 8 large bridges, 500 -1,560 ft. long; 17 underpasses. Concrete surface 23 ft. wide, 10 -ft. gravel shoulders, gentle grades; 1,300 -ft. bridge over Seym at Baturin, 2 underpasses. Bituminous, concrete surface 26 ft. wide, 3 -6 -ft. earth, gravel shoulders. 18 -mile stretch S. of Voronezh is 4 -lane divided highway. Moderate grades and curves. 5 bridges, 720- 1,600�ft. long; no bottlenecks. Bituminous, gravel, earth surface 18 -30 ft. wide, 0 -2 -ft. earth and gravel shoulders. Moderate grades and curves. 3 large bridges, 600 -1,000 ft. long; 5 underpasses. Moscow- Ryazan (109 miles): Bituminous, concrete surface, 4 -lane divided highway. Remainder of route: Bituminous, crushed stone, gravel surface 15 -25 ft. wide; 3 -8 -ft. earth, gravel shoulders. Moderate curves and grades. 12 large bridges, 500 -2,340 ft. long. Road crosses Volga atop 15,400 -ft. concrete dam. 8 underpasses, 2 limited clearance bridges. Principal connection with Romania.......... Undulating to hilly terrain. In good condition. Principal connection with Romania. Route Flat to undulating terrain. In fair serves Black Sea port of Odessa and to good condition. industrial, military, and transportation centers of Nikolayev, Kherson, Melitopol, and Zhdanov. Route intersects all important E. -W. through Mostly flat to undulating terrain. routes in European U.S.S.R. and roughly In fair to good condition. parallels border of Communist Eastern Europe. Route connects 2 important E. -W. through Flat to undulating terrain. In good routes in European U.S.S.R. condition. Originating at Sevastopol, largest Black Sea naval base and major shipbuilding and industrial center, route serves heavy industry complexes of Khar'kov and Dnepropetrovsk and Moscow industrial center. Road bypasses all major cities. Route connects 2 important N. -S, through routes in European U.S.S.R. All large cities and villages bypassed. Important N.-S. route connecting Rostov and Moscow areas. Mostly undulating terrain. Hilly near Sevastopcl. In fair to good condition. Flat to undulating terrain. In good condition. Do. Important N. -S. route linking industrial and Flat to undulating terrain; gravel and transportation center of Volgograd with earth sections, in fair to poor Moscow. condition, being rebuilt and sur- faced with bituminous. Route serves Moscow and important indus- Flat to undulating terrain. In fair trial centers of Kuybyshev, Orenburg, Orsk. to good condition. Route also serves as overland connection between European U.S.S.R. and Soviet Central Asia. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 007078000200090035 -8 FIGURE 6. Selected principal highway routes (S) (Continued) ROUTE NO. 16 LOCATION AND LENGTH (SEE MAP, FIG. 32) PHYSICAL CHARACTERISTICS OPERATIONS Major E. -W. route connecting industrial areas of Moscow, Gor'kiy, Kazan with petroleum producing area around Perm and iron and steel producing areas around Sverdlovsk and Chelyabinsk. Ferries on route severely restrict sustained vehicular movement. Moscow Chelyabinsk via Gor'kiy, Kazan, Sverdlovsk; 1,265 miles. Important N. -S. route serves Moscow, indus- trial city Yaroslavl, transportation center Vologda, and White sea port Arkhangel'sk. Route is alternate for RR. line into Arkhangel'sk. N. of Vologda numerous ferries and fords severely restrict and hamper sustained vehicular movement. Important N. =S. route connects industrial and transportation centers of Rostov, Volgograd, Saratov, Kazan. 2 ferries across Volga restrict and hamper vehicular move- ment. Important N. -S. route connects European U.S.S.R. with Caucasus. Also serves indus- trial and transportation centers and inland waterway ports of Volgograd and Astrakhan. Major N.--S. trunk route in Caucasus. Con- nects industrial and transportation center of Rostov, industrial center of Tbilisi, petro- leum producing and refininZ area of Baku. Ordzhonikidze Tbilisi (Georgian Military Highway) subject to washouts, landslides, snow blockage. Traffic restricting tunnels and galleries are on this section. Major N. -S. trunk route in Caucasus. Alternate approach route to Baku. Baku Ordzhonikidze; 435 miles.. Principal connection with Turkey. Major N. -S. trunk route in Caucasus. Steep grades and sharp curves severely hamper vehicular movement. 17 Moscow Arkhangel'sk; 804 miles 18 Rostov -Kazan via Volgograd; 959 miles. 19 Grozryy- Volgograd; 580 miles... 20 Baku- Rostov via Ordzhonikidze; 921 miles. 21 22 Turkey border Junction Route 20; 664 miles. Moscow -near Orekhovo- Zuyevo: (40 miles): Bituminous, concrete surface 4 -lane divided highway. Also 4 -lane divided highway for short distance W. approach to Gor'kiy. Remainder of route: Bituminous, gravel surfaced 20 -30 ft. wide, 3 -6 -ft. earth shoulders. Moderate curves and grades; 3 large bridges, 700 -2,810 ft. long; 9 under- passes. Ferries cross Volga, Vyatka, and Kama. Bituminous, gravel, earth surface 15 -25 ft. wide; 0- 10 -ft. earth, gravel shoulders. Gentle grades and curves. 3 large bridges, 1,300 -3,430 ft. long; 6 underpasses, 3 ferries, 5 fords, 1 limited- clearance bridge. Bituminous, concrete, gravel, improved earth surface 18 -25 ft. wide; 2 -5 -ft. earth shoulders. Moderate grades and curves. 2 large bridges. 750 and 530 ft. long; 1 underpass; 2 ferries. Bituminous, gravel, improved earth surface 20 -29 ft. wide, 0 -6 -ft. earth shoulders. Gentle grades and curves. 3 large bridges 655 -2,500 ft. long; 1 limited- clearance bridge. Bituminous, concrete, crushed stone surface 12-40 ft. wide; 0 -6 -ft. earth shoulders. Steep grades and sharp curves. 4 large bridges, 492 -2,000 ft. long; 5 underpasses, 3 tunnels, 2 galleries. Bituminous, stone block surface I8 -30 ft. wide; 2 -6 -ft. earth shoulders. Moderate grades and curves. 3 large bridges, 690 -1,000 ft. long; no bottlenecks. Bituminous, concrete, gravel, improved earth surface 15 -30 ft. wide; 0 -6 -ft. earth, gravel shoulders. Numerous steep grades and sharp curves. 17 large bridges, 525 -2,310 ft. long; 4 underpasses, 1 limited clearance L_:a REMARKS Flat to hilly terrain. In fair to good condition. Mostly flat terrain. Some sections of earth surfaced roads in poor condi- tion. Vologda Arkhangel'sk being rebuilt; will be bituminous sur- faced. Mostly flat to undulating terrain. Some sections of loose- surface roads in poor condition. Flat to undulating terrain. In fair to good condition. Hilly to mountainous terrain. Some sections in fair to poor condition. Ordzhonikidze -Baku requires fre- quent maintenance. Some mountainous terrain. In fair condition. Mountainous terrain. Some sections (loose surface) in poor condition. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009106/16: CIA� RDPOl- 00707R000200090035 -8 22A 22B 22C 22D 23 23A 23B 24 25 25A ff APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 Samtredia- junction 19 miles N of Tbilisi; 147 miles. Turkey border Tbilisi; 137 miles. Iran border Kazakh; 232 miles.. Iran border -Baku; 108 miles.... Chelyabinsk- Irkutsk via Novosi- birsk; 2,155 miles. Mongolia border Novosibirsk; 613 miles. Mongolia border- Aclnnsk; 690 miles. Chimkent- Chelyabinsk; 1,061 miles. Iran border Barnaul via Tashkent, Alma -Ata; 2,557 miles. Afghanistan border Khavast; 293 miles. Bituminous surface 18 -25 ft. wide; 3 -6 -ft. earth, gravel shoulders. Some steep grades. 1 large bridge, 530 ft. long. Bituminous, crushed stone surface 18 -25 ft. wide, 0 -6 -ft. shoulders. Sharp curves, steep grades. No large bridges or bottlenecks. Bituminous surface 20-25 ft. wide; 3 -ft. shoulders. Sharp curves, steep grades. 2 large bridges, 505 and 1,260 ft. long; I limited clearance bridge Bituminous surface 18 -25 ft. wide; 6 -7 -ft. earth shoulders; moderate curves and grades. 1 large bridge, 1,020 ft. long; no bottlenecks. Predominantly gravel surfaced, some bitu- minous and unimproved earth 18 -25 ft. wide. Moderate curves and grades. 14 large bridges, 550 -3,305 ft. long. Bottlenecks include 2 limited- clearance bridges, ferry crossing Yaya about 56 miles E. of Tomsk. Concrete, bituminous, crushed stone surface 15 -25 ft. wide; 0 -3 -ft. earth shoulders. Steep grades, sharp curves. 5 large bridges, 500 -1,525 ft. long; bottlenecks include 3 underpasses. Mostly crushed stone, some bituminous, unimproved earth surface 20 -25 ft. wide. Steep grades, sharp curves. 6 large bridges, 580 -1,625 ft. long; 2 limited clearance bridges. Mostly gravel, some bituminous surface 15 -20 ft. wide. Gentle curves, grades. One large ;ridge, 485 ft. long; no bottlenecks. Short stretches of 4 -lane divided highway near Tashkent, Alma -Ata. Remainder of route bituminous, gravel surface 15 -30 ft. wide; 0- 10 -ft. gravel, earth shoulders 0 -10 ft. wide; moderate grades, curves. 5 large bridges, 500 -2,600 ft. long; bottlenecks include 10 underpasses, 2 limited- clearance bridges. Bituminous, cobblestone surface 15 -26 ft. wide, 0- 10 -ft. gravel shoulders. 4 -lane divided highway 13 miles N. from Dushanbe. Numerous sharp curves, steep grades. One large bridge, 980 ft. long; one underpass; ferry crossing at Afghanistan U.S.S.R. border. Important E. -W. route connects 2 N. -S. Some mountainous terrain. trunk routes. Principal connection with Turkey. Road subject to closure by snow mid -Dec. to end of Mar. Principal connection with Iran. Route subject to closure by snow mid -Dec. to end of Mar. Principal connection with Iran. Route subject to flooding after heavy rains in marshy areas. In places road runs on embankment thus impeding off -road dispersal. Important E. -W. highway connects 5 major industrial urban areas: Chelyabinsk, Omsk, Novosibirsk, Krasnoyarsk, Irkutsk. Some mountaineus terrain. In fair condition. Mountainous terrain. 4 -lane divided highway under construction Yere- van-Sevan vicinity, 7 -mile stretch Sevan N. completed. 8,000 -ft. tunnel under construction between Sevan and Dilizhan. Flat terrain. Some sections in poor condition. Mostly flat to undulating terrain. Some sections in poor condition. Principal connection with Mongolia. Route serves coal- and iron -ore mining Kuznetsk Basin and heavy- industry centers of Biysk, Barnaul, Novosibirsk. Principal connection with Mongolia. Route serves Kyzyl, transportation center, and coal mining and industrial centers of Minusinsk, Abakan. Principal N. -S. route connecting Soviet Central Asia with Chelyabinsk and rich industrial Urals region. Sections subject to drifting sand in desert areas. Southernmost E. -W. route parallels Iran, Afghanistan, China border regions. Prin- cipal connection with Iran. Mountainous terrain. Hilly to mountainoue terrain. Flat to undulating terrain. Some mountainous terrain. In fair to good condition. Principal connection with Afghanistan. Sub- Hilly to mountainous terrain. In fair ject to snow blockage during winter. 3 condition. mo;intain passes facilitate interdiction. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 007078000200090035 -8 FIGURE 6. Selected principal highway routes (S) (Continued) co ROUTE NO. 25B 25C 25D 26 26A 26B 27 28 29 LOCATION AND LENGTH (SEE MAP, FIG. 32) PHYSICAL CHARACTERISTICS OPERATIONS REMARKS Principal connection with China. Road subject Mountainous terrain. Probably in to snow blockage in winter, early spring. fair condition. China border- junction 38 miles W. of Frunze; 513 miles. Principal connection with China........... do China border Sary -Ozek; 142 miles. China border Ayaguz; 196 miles.. Irkutsk -China border; 996 miles. Mongolia border Ulan -Ude; 147 miles. Mongolia border junction 40 miles S. of Chita; 191 miles. Never Magadan; 1,908 miles..... Svobodnyy- Khabarovsk; 538 miles. North Korea border Khabarovsk; 530 miles. Bituminous, improved earth surface 15 -22 ft. wide; 0 -3 -ft. earth shoulders. Numerous steep grades, sharp curves. One large bridge, 800 ft. long; 2 tunnels, 5,340 and 8,830 ft. long. Bituminous surface. 20 ft. wide; gentle grades, curves. No large bridges, bottlenecks. Bituminour., gravel surface 20 -25 ft. wide. Moderate grades, curves. No large bridges, bottlenecks. Mainly gravel, crushed stone surface, some bituminous stretches, 18 -25 ft. wide. Steep grades, sharp curves. 5 large bridges, 500 -2,500 ft. long; 2 limited clearance bridges. Bituminous surface 18 -20 ft. wide. Some sharp curves. 2 large bridges, 1,100 and 1,195 ft. long; 2 limited clearance bridges. Bituminous surface 20 ft. wide. Some sharp curves. 2 large bridges, 855 and 2,040 ft. long; 2 limited clearance bridges. Mainly gravel, crushed stone, some bitu- minous surface 9 -20 ft. wide. Several sharp curves, steep grades. 7 large bridges, 550- 900 ft. long; 1 limited clearance bridge, 3 ferries. Mostly gravel, some bituminous surface 18 and 25 ft. wide, 3 -5 -ft. shoulders. Moderate grades, curves. No large bridges, bottle- necks. Bituminous, gravel surface 20 -25 ft. wide; 0.5 -2 -ft. shoulders. Moderate grades, curves. 16 large bridges, 500 -2,700 ft. long; 1 limited clearance bridge, 2 underpasses. 30 Khabarovsk- Sovetskaya Cavan; Bituminous, gravel, unimproved earth surface 460 miles. 15 -25 ft. wide. Moderate curves, grades. No large bridges; 9 fords Pivan- Sovetskaya Cavan. Fla' terrain. Probably in fair condi- tion. Flat to undulating terrain. Probably in fair condition. Principal connection with China. Roue connects 3 major transportation, industrial, military centers of Irkutsk, Ulan -Ude, Chita. Most important road connection with Mon- golia. Extension of road into Mongolia connects its capital, Ulaanbaatar, with the industrial, commercial, and transporta- tion center of Ulan -Ude and the Trans Siberian Railroad. Principal connection with Mongolia........ Provides only overland mode of transport through base area of E. Siberia. Serves rail facilities at Never, river port of Yakutsk, Okhotsk seaport of Magadan. Road also serves widespread areas of important resources including iron ore, gold, coal. Road serves river port of Blagoveshchensk, major transportation, industrial, oil- distri- bution urban area of Khabarovsk. Principal connection with North Korea. Most important trunk route serves most highly industrialized area of U.S.S.R. E. of Lake Baykal. Short lateral road links important naval base and RR. center of Vladivostok and seaport of Nakhodka, largest com- mercial port on U.S.S.R. Pacific coast. Route serves important river port and industrial center of Komsomol'sk -na -Amure and important naval base of Sovetskaya Cavan.. Some hilly to mountainous terrain. In fair to good condition. Hilly terrain. Usually in good condi- tion. Hilly to mountainous terrain. Prob- ably in fair condition. Some hilly to mountainous terrain. Road crosses several swampy areas; usually in fair to good condition. Flat to undulating terrain. In good condition. Flat to undulating terrain. In fair to good condition. Flat terrain. In fair to good condition. Combination road -RR. bridge under construction at Konisomol'sk- na- Amure. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 Motor transport op ^rations are performed by union republic organizations which provide bus, truck, and taxi services for the general public, and by truck fleets operated by the sociali red industries and state and collective farm% for their own needs. Each of the 15 union republics has a Ministry of Motor Vehicle Transport, or similarly named organization, which controls and regulates motor transport activities including the hauling of passengers and various kinds of freight for state and public and cooperative organizations. Bus lines connect most popuiated centers. Several motor transport organizations are engaged in international haulage tinder the trade name Sovtransavto. Truck lines connect the U.S.S.R. with the Mongolian People's Republic, Afghanistan, Iran, 'Turkey, Finland, the Eastern European Warsaw Pact Countries, and France, Italy, Austria, Switzerland, and the Netherlands. Although rapid industrial growth, improvement of the road network, and increased niotor vehicle production have caused a considerable increase of traffic volume, the overall amount is less than that of Western Europe. The largest part of road traffic is short -haul trucking operations concentrated around densely populated centers, large industrial or construction sites, and collective farms. Motor transport is the principal mode of transportation only in areas of central Asia and eastern Siberia, in districts without railroads or waterways. Overall, traffic consists mainly of trucks; animal -drawn vehicles continue to be significant outside the major cities and especially in the northern rural areas of the country. The principal types of freight hauled by motor transport consist of manufactured goods, agricultural products, construction materials, and fuel. Automotive repair and fueling facilities are generally inadequate. "There are shortages of garages, gasoline or diesel -fuel stations, spare parts, and skilled technical personnel. Garages equipped for major repair work are few and mainly in large cities. The government has been engaged in extensive construc- tion of gasoline stations and technical repair stations. Most of these facilities arc located in large cities. Elsewhere, gasoline stations and garages are few and far between. The U.S.S.R. is self- sufficient in motor fuels. Gasoline with octane ratings up to 96, diesel fuel, and lubricants are available in adequate amounts. Road transport operations are greatly hampered by climatic conditions. Most traffic interruptions occur during periods of prolonged rain, especially in spring and autumn, when many secondary roads become muddy and virtually impassable. During dry periods dust conditions prevail on earth, gravel, and crushed stone roads. In winter, freezing temperatures, ice conditions, and snowdrifts obstruct vehicle movement )n most roads. In the northern regions permafrost damages bridges, roads, and culverts. Roads in mountainous areas have numerous sharp curves, steep grades, and narrow 1.nd low- capacity bridges and are subject to snow blockage and spring washouts. As of January 1972, the U.S.S.R motor veiieles inventory was estimated at 7,240,000 units comprising 4,900,000 trucks, 2,050,000 passenger cars and 290,000 buses. Many of the vehicles are of recent manufacture and in fair to good condition. The U.S.S.R. produces its own vehicles but imports a small number of special- purpose vehicles, buses, and motorcycles from Communist Eastern Europe. In 1971, the U.S.S.R produced 613,700 trucks and buses and 529,000 passenger cars. The Soviet Union has been modernizing and greatly expanding its motor vehicle industry. During the past few years, several vehicle assembly plants have been established, and others are being built or planned. The Italian Fiat Motor Company is equipping a passenger -car plant at Tolyatti. The planned output is to be 600,000 units per year when full production is reached, probably in 1974. Moreover, a large heavy truck plant is currently tinder construction at Naberezhnyye Chelny on the Kama River: upon completion it will be the world's largest truck plant with a planned production capacity of 150,000 three -axle, diesel- powered trucks a year. The U.S. S. R.'s road development program is primarily concerned with the reconstruction and improvement of the existing network and secondly with the building of new, long- distance intercity and short- distance feeder roads. Under the current Five Year Plan about 68,000 miles of paved roads are programmed to be constructed. Significant new roads under construction include the following: Tambov to Volgograd, Leningrad to Murmansk, Arkhangel'sk to Vologda, and Kuybyshev to Ufa. Large bridges are under construction at Komsomol'sk- na- Amure, Astrakhan' and Riga. In many large cities bypasses or circumferential roads are under construction in order to expedite through traffic. E. Inland waterways (S) The extensive and well developed Soviet inland waterway system is used primarily in providing mining and other basic processing industries a dependable low -cost means in long -haul transportation of strategically and economics ly important bulk commodities. The system also clays a significant role 19 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 in sL. scheduled interurban passenger service combined river maritime operations in foreign trade, and the internal intersea transfers of small naval vessels. Undergoing extensive improvements, the inland waterways are playing an increasingly important part in the national transportation pattern and are most instrumental in supporting the Soviot's efforts to increase industrial output ao.d foreign commerce and to expand mining and agric!dtural production. The system is utilized far be;ow capacity and is more than adequate for current traffic requirements. Port facilities, craft, and shipping channels on most major routes are well developed and maintained. There are high operating efficiency standards, and the work force is generally ample in numbers and is well trained and efficient. Major weaknesses in the system include a lack of lengthy east -west interconnected routes necessitating in many instances costly and time- consuming transshipment operations, the closure of many routes from 2 to 9 months each year because of fast ice conditions, and the need of modern and more efficient managerial techniques and procedures. Excluding the Caspian Sea, there are 89,850 route miles of navigable inland waterways in the U.S.S.R., comprising the Inrgest inland waterwav system in the world. The system serves most of the Soviet union's major centers of population, production, and transportation, including the largest maritime ports and major railheads. They are oriented mainly in a north -south directional pattern with few lateral sast- west) interconnections. The European U.S.S.R. waterways provide strategically important internal transport links between the Baltic, White, Black, and Caspian Seas and international connections �some indirectly �with adjacent countries. The unevenly distributed system is dense and fairiv well integrated in the heavily populated and highly productive areas with numerous interconnections made by a high degree of canalization and many dam /lack installations. They provide by far the most important waterwa routes in terms of volume of traffic, types of cargo hauled, and significance of areas served. Except for the Amur system, the waterways in Asiatic U.S.S. R. form lengthy north -south routes, are widely separated and unconnected, and must rely on maritime /river or rail /river transshipment for through east -west, north south cargo movements. In vast area% ni ;ill;i of the "Trans- Siberian railroad, where increasing industrial development requires north -south freight movement, the Asiatic waterways are the primary means of surface transport. 20 Tl:e most significant inland waterways are grouped in seven large systems as follows: the Greater Volga and Dnepr systems in European U. S.S. R. and the Aral Sea- Am.udar'va, Ob- Irtysh, Yenisey, Lena and Amur systems in Asiatic U.S.S.R. Taternationa! connections are made with inland waterways of Poland, Romania, Finland, Iran, Afghanistan, Mongolia, and the People's Republic of China. Connections to Poland are made via the Pripyat' waterway and the Soviet Polish controlled parts of the Frisches Haff on the Baltic. Soviet access to Central Europe from the Black Sea is available on the Communist controlled international 7anubr, of which its uppermost delta channel forms part of the common boundary between the U.S.S.R. and Romania. Joint Soviet Finnish control is exercised over the Saymenskiv Canal, a route crossing the international border northwest of Leningrad. Other significant connections include: the upper Amudar'ya, forming part of the common boundary between the U.S.S.R. and Afghanistan, the jointly shared Soviet- Iranian Caspian Sea, and the jointly shared sections of the Amur and the Ussuri with the People's Republic of China. Minor approaches to the latter are made via the Argun, Sungacha, Khanka Lake, Ili and the upper Irtysh, and to Mongolia via the Selenge Gol. The Greater Volga and Dnepr systems in European U.S.S.R. are the most highly developed and active waterways in the country, characterized by numerous dam /lock installations, extensive canal links between major rivers and waterways, and long sections of large man -made reservoirs and natural lakes. Accounting for more than half of the total inland waterway freight, the Greater Volga provides heavily trafficked access to, exit from, and transit between the most industrially advanced and urbanized areas west of the Ural Mountains, including such major centers of Soviet waterway activity as Moscow, Rybinsk, Yaroslavl', Kazan', Saratov, Gor'kiy, Kuybyshev, Volgograd, and Perm. The Volga river and eight other connecting waterv�ys, comprising the Greater Volga system, p.-,,vide unified deep -water inland transport network. It currently accommodates the internal passage of 2,000- and 2,700 -ton river /seagoing vessels between the Baltic, White, Black and Caspian S ^as and 5,000- and 6,000 -ton craft between the Baltic, Black and Caspian Seas. During low -water periods, reduced loads are required for all river /seagoing vessels on the lower Don exit to the Black Sea and on u short section of the mid -Volga near Chevoksary for 5,000- and 6000 -ton craft where cargo is temporarily APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 transloaded to an accompanying barge. Small naval c +ift movements, including newly constructed submarines from Gor'kiy and Leningrad, are made to fitting -out facilities on the White Sea. Only upon completion of a dam under construction at Chevoksary, the cascading of the lower Don, and the expansion of the Belomorsk !ock on the White Sea Canal, will the deep water system permit the unimpeded passage of fully loaded river /seagoing vessels of all types between the four seas. The Dnepr system is the most important waterway system west of the Volga. It provides important transportation within the Dnepr basin, particularly from the iron and coal regions to important industrial complexes such as Kherson, Zaporozh've, Dnepropetrovsk, Kiyev, and Gomel'. The system allows access to the Black Sea and makes an international connection with the Polish waterway system in the vicinity of Brest, where through movement is impeded by lockless dams and /or weirs near the border. The major Asiatic systems, comprising mostly natural free flowing rivers with relatively little regulation, are becoming increasingly active and are playing a major role in the exploration and industrial development of the vast regions east of the Ural Mountains including the current exploitation of petroleum and natural gas resources in western Siberia. Except for the self- contained Aral Sea Amudar'ya waterway, the individual Asiatic systems provide rapidly growing industrial, mining, and agricultural centers of the interior access to important maritime /river ports in their northern or eastern Extremities and make vital connections in the south to key rail /river transshipment points along the Trans Siberian railroad. River shipping is closely allied with the movement of cargo in maritime or river /seagoing vessels and is closely coordinated with the east -west movement of freight on the Trans Siberian railroad. From a strategic standpoint, the Amur and its tributaries comprise one of the more important systems, occupying a key position in the industrial, agrarian, military, and political activity of the Soviet Far East. The system serves major port areas with shipbuilding, aircraft- production, steel- production, petroleum refining, and machine tooling capabilities. Komsomol'sk -na -Amore and Khabarovsk, two important ports, rank as two of the most important industrial complexes, and the former has the only naval shipbuilding activity in the Soviet Far East capable of building nuclear- powered submarines. Along with rail, the system plays a vital role in the movement of large amounts of raw materials and semifinished and finished products. most of which are channeled into an expanding industrial base. The Amur accommodates fully loaded 2,000 -ton river /sea- going vessels from the Tatar Strait upstream to Blagoveshchensk, a route that forms a part of extensive river /seagoing routes extending into the Sea of Okhotsk, the Sea of Japan, the Kuril Islands, and the eastern coast of the Kamchatka Peninsula. The primary traffic interruption factor is fast ice which normally suspends operations on waterways in European U.S.S.R. from 2 to 7 months annually, excluding the ice free southern half of t! e Caspian Sea. In Asiatic U.S.S.R. the waterways are icebound from 5 to 9 months annually, except certain sections of the Aral Sea Amudar'ya system in the extreme south, which are icebound only for a period of 1 to 2 months. Operations are also hampered by short periods of drift ice preceding the freeze and following the spring thaw. On some major waterways icebreakers are used to extend the navigation season during both drift -ice periods. Intensive research and experimentation since 1970 is producing new potential methods for mbating ice formations. Operations on unregulated waterways in both European and Asiatic U.S.S.R. are hindered by seasonal reductions in water level, extreme flooding, excessive shoals and silting, and shifting navigation channels. Generally, the middle and lower sections of the larger rivers are broad and have meandering courses, multiple channels, and shoals. Seasonal variations have been greatly reduced on those rivers regulated by dams. On open lakes and reservoirs, navigation is occasionally suspended because of strong winds and heavy wave action. Soviet inland waterway facilities include locks, dams, weirs, safety gates, levees and groins, pumping stations, bridges, navigational aids, and ports. The heavily cascaded and canalized inland waterway system has at,..ut ;,,NCO regulatory structures for the control of water flow on the 11,600 miles of artificial waterways. The major waterways have slightly more than 30 dams in operation, most of which are large multipurpose dams, eight more in various stages of construction, and several more planned. The significant concentration is in European U.S.S.R. where dams have canalized lengthy sections of the Dnepr and Greater Volga systems, creating stable reservoirs suitable for deep -draft navigation. Many of the dams are earthfill structures. All are bypassed by locks, and several support rail and highway crossings. The major waterways of the system have over 90 major locking installatio +:s (Figure 7), more than 95% of which are located in European U.S.S.R. The well constructed and efficiently operated locks are mostly 21 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 of concrete construction, varying in arrangement from those with single chambers to one installation comprising two parallel rows each with six tandem chambers. The locks vary in size throughout the country but are generally of uniform dimensions on the individual waterways. The gates are of steel, mostly of the miter or lift type. Most locks are also fitted with repair and emergency gates. Lifts range from less than 10 to more than 100 feet, and locking cycles vary from 10 to 15 minutes at single chamber locks to 40 to 50 minutes at multichambered installations. Locking operations are semiautomatic. Most locks are lighted for night operations and provide for one -way lock traffic. Of the major waterways, only the locks on the Volga and Kama rivers of the Greater Volga system allow for two -way traffic with parallel chamber arrangements. The majority of bridges spanning the waterways are of the fixed span type, but a few have movable spans. Most are of steel or reinforced concrete construction. None of the bridges impose any major restrictions on normal vessel operations. Shipping channels on major waterways are marked with an extensive, modern, and well maintained system of floating and shorebased navigational aids 22 for both day and night shipping. Visual navigational aids in use include range lights, beacons, buoys, and lighthouses. The use of radar, ship -to -shore radio and radio telephone and other audio devices is continually expanding. Ports serving the waterway system include inland ports and those with a joint maritime /river function. Excluding the maritime /river ports, the system is serviced by 54 major inland ports -36 in European U.S.S.R. and 18 in Asiatic U.S.S.R. Each major port usually consists of a complex of two or more extensively developed facilities, most having at least 1,000 feet of berthing, and each transfers over a million tons annually. All are focal points of industry and transportation, and some are major transshipment centers for maritime, rail, highway, and inland waterway cargo. The majority are adequately equipped with quayage, open and covered storage facilities, mechanical handling equipment, and rail and /or highway clearance facilities. Significant features of most ports include a high degree of mechanization and standardization in cargo handling facilities, the extensive use of floating cranes and specialized bulk transloading devices, the division of berthing facilities into sections for handling specific APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIGURE 7. Large 15,000 -ton pusher barge train entering one or the two chambers at Rybinsk lock on the Volga river (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090036 -8 cargoes, and the use of floodlights for night operations. Occasional bottlenecks occur at some ports during peak traffic periods due to a shortage of freight cars, inefficient allocat5n of manpower and equipment, poor planning and supervision in operating techniques and procedures, and insufficient quantities of high- speed cargo handling equipment. Year -round port activity is increasing primarily due to prolonged port operations during the winter period by more intensive use of icebreakers, the establishment of higher labor productivity standards, the expansior of containerized cargo operations, the provision for 'getter coordinated river /rail operations, and the utilization of river craft for winter storage purposes as well as loading craft for the coming navigation season. Ongoing port development includes construction of new ports, enlargement of existing facilities, the installations of heavy -duty cargo- handling equipment, nd the introduction cif containerized cargo operations. ;Major new port construction is underway at Balakovo, Novochebolsarsk, Tol'yatti on the Volga, Med- v �zhyegorsk on Lake Onega, Kambarka on the Kama, Tomsk on the Tom, Surgut on the Ob', Tobol'sk on the Irtysh, and Osetrovo on the Lena. Leading centers of combined maritime /river operations are Kherson, Leningrad, Arkhangel'sk, Kaliningrad, Reni, and Izmail in European U.S.S.R.; and Dudinka, Igarka, and NikIllayevsk -na -Amure in Asiatic U.S.S.R. In terms of location, complexity of the transport function, cargo turnover, and extent of facilities, key inland ports in European U.S.S.R. are Zaporozh'ye, Dnepropetrovsk and Kiyev on the Dnepr; Astrakhan', Valgograd, Saratov, Kuybyshev, Tol'yatti, Ulya- novsk, Kazan', Gor'kiy, Kineshma, Yaroslavl' and Rybinsk on the Volga; Cherepovets on the Rybinsk reservoir of the Volga Baltic Waterway; Baku, Krasnovodsk, and Makhachkala on the Caspian Sea; Rostov, Ust'- Donetskiy, and Volgodonsk on the Don, Perin' on the Kama; and the Moscow complex served by the ports of Yuzhnyy, Zapadnvy, and Severnyy. In Asiatic U.S.S.R., key inland ports are Omsk and Tobol'sk on the Irtysh; Surgut, Kolpashevo, and Novosibirsk on the Ob'; Krasnoyarsk (Figure 8) on the Yenisey; Ust'- Kut /Osetrovo and Yakutsk on the Lena; and Komsomolsk -na- Amure, Khabarovsk and Blagoveshchensk on the Amur. In 1972, Soviet waterway shipping carried 435.4 million short tons of cargo and generated a ton -mile performance of 123.3 billion. The average length of haul was about 300 miles. Passengers carried and passenger -miles in 1971 were 14E.5 million and 3.5 billion, respectively. The average journey was 25 miles. Sand, gravel, and other construction materials constitute about 50� %0 of the total freight traffic, rafted and shipped timber and lumber about 25 and crude oil and petroleum products about 9 Coal and ores, grain and other foodstuffs, and general cargo comprise the remaining 16 The traffic patterns of the several systems vary to some degree but are mainly long -haul north -south freight movements. With the exception of rafted timber, dependence on inland shipping is inversely related to the accessibility of other carriers, and the shippers choice of transport services is dictated by urgency rather than economic advantages. In some parts of Asiatic U.S.S.R., however, inland waterway transport is the only medium of bulk haulage available, although, in many cases, other modes are relied upon for through east -west movement. Despite the significant role of the Asiatic waterways, the waterways in European U.S.S.R. handle at least 90% of all waterway traffic, exclusive of the Caspian Sea. With few exceptions traffic moves continuously day and night on the major waterways, especially in European U.S.S.R. Vessel movement and traffic -flow patterns are subject to controls and prearranged schedules, the strict adherence to which is considered essential. Operations are aided by a regional vessel cargo dispatcher system and a well developed system of visual and audio navigational aids. Of the 81,600 route -miles equipped with navigational aids, slightly more than 60% also have lighting facilities for night navigation. Cargo vessel types in operation are generally large high- capacity units and include self propelled barges, barge trains towed astern, pusher trains, and passenger -cargo craft. Self- propelled dry and liquid cargo craft mainly in the 600- to 2,000 -ton classes are hauling an increasing proportion of the total waterway cargo traffic. Barge train formations vary according to waterway. On the Greater Volga, pusher barge tows are commonly fleeted two in line in both upstream and downstream operations. Barges towed astern normally comprise 1 to 4 units with a total capacity ranging from 4,000 to 6,000 tons while large pushP- trains range from 1 to 4 units of 3,000 trr. -ach with a maximum capacity of 12,000 tons. A r.c'.u; trend in recent years is the increased utilization of push- towing and self propelled barge operations, including the increasing use of 2,000 2,700 3,000 5,000 and 6,000 -ton vessel capable of both river and maritime navigation. River /seagoing vessels operate on all major systems except the Aral Sea- Amudar'ya and are providing direct and continuous long -haul movements of cargo from key inland ports deep in the interior to maritime parts in Eastern and Western Europe, and to the Middle and Far East. In addition, they are used to a limited degree 23 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 in inter system transfers of cargo, and to achieve maximum utilization some river /seagoing classes are deployed to ice -free maritime routes in the Mediterranean and Black Seas during the winter. In European U.S.S.R., river /maritime routes originate primarily from interior inland ports of the Greater Volga system northward to maritime ports on the White, Barents, Baltic, and North Seas and southward to maritime ports on the Mediterranean and Black Seas, including; river /maritime ports along the Danube River. River /seagoing vessels also regularly operate between ports of the Greater Volga and Dnepr systems. In the Soviet Far East, river /maritime operations stem from Amur river ports across the Sea of Okhotsk to Magadan, the Kuril Islands, and Kamchatka Peninsula as well as south through the Sea of Japan to North Korean and Japanese ports. The northern Siberian waterways operate solely on domestic routes between inland river 24 ports astride the Trans- Siberian Railroad and mining and gas and oil exploitation sites as well as with maritime ports on the Kara, Laptev, and East Siberian Seas. One of the largest in the world, the inland waterway fleet comprises an estimated 17,200 craft, of which about 14,000 units are in commercial cargo operations, 1,200 in passenger service, and 2,000 in construction and maintenance. About two thirds of the commercial fleet operates in European U.S.S.R. and the remainder on the Asiatic waterways. Undergoing extensive modernization in recent years, the fleet is fairly well developed and maintained and is generally adequate in numbers and capacity for present traffic demands. The fleet is being standardized and is largely dieselized. There is about a 2:1 ratio between self- propelled and dumb barges. The relatively high speed, high- capacity passenger fleet includes large numbers of modern hydrofoils APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIGURE 8. Section of Krasnoyarsk port complex on the Yenisey. The complex is the largest in Siberia, and extensive transshipment facilities typify major river junctions with the Trans- Siberian rail- road. (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 (Figure 9), capacities of which number 30 passengers or more. About 75% of the total fleet inventory is under the control of the Ministry of the River Fleet, R.S.F.S.R. Russian Soviet Federated Socialist Republics); the remaining 25% is under the Autonomous Union Republics. The commercial fleet composition by numbers, capacity, and horsepower is not available. The aggregate carrying capacity of the barge fleet is in excess of 12 million tons. Of the total R.S.F.S.R. fleet in 1968, which is probably representative of the fleet as a whole, the self propelled dry cargo vessels accounted for 29.5% of the carrying capacity, the self propelled tankers 24.2 and the dry- and liquid cargo dumb barges 46.3 The average capacities of the larger self propelled classes were 1,060 tons for dry cargo craft and 1,530 tons for tankers. The larger dry cargo aril tanker dumb barges averaged 1,000 and 2,630 tons, respectively. Towboats and tugs averaged 363 h.p. for the larger classes, and 250 h.p. for the smaller units. Although 2,000- and 4,000 -h.p. diesel towboats (pusher type) are being serially produced, small stearn driven units represented 29% of the R.S.F.S.R. towing fleet in 1968. The Soviet inland waterway fleet is undergoing gradual change in composition, capacity, and operating efficiency. Continuous progress is being achieved on complete dieselization, expanded use of pusher -type towboats (Figure 10), standardization of vessels to a restricted 57 basic classes, introduction of light- weight craft constructed of aluminum or special alloy materials, equipping of craft with modern and sophisticated navigational gear, and the increased acquisition of larger type craft, including those with a limited maritime capability. Intr:,duoA in the early 1960'x, the river /seagoing fleet operated by the Ministry of the River Fleet of the R.S.F.S.R. now number an estimated 300 to 400 units, most of which comprise six basic classes �the dry cargo carriers, Baltiskiv (2,000 -ton) (Figure 11), Sormovskiy (2,300 ton), Morskoy (1,850 -ton), and Volga -Bait (2,700 ton); the 2,700 -ton mixed dry and liquid -cargo carrier Nefterudovoz; and the 5,000 /6,000 -ton tanker Volgoneft. These modern, shallow draft inland merchant ships are normally loaded to a draft ranging from 10.8 to 11.5 feet. They meet internati nal maritime regulations and are equipped idi modern navigational instruments� including radar, ship -to- shore radio and radiotelephone, radar direction finders, remote main engine and auxiliary machine controls, and echo sounding gear. All are powered by twin diesel engines with ratings from 1,000 to 2,000 h.p. and are constructed with double bottoms and sides, with hulls reinforced for navigation in ice floes. Operating speeds achieved under various river, reservoir, and sea conditions range from 9 to 11 knots. Most units were built in the U.S.S.R.; other suppliers include Czechoslovakia, Hungary, Bulgaria, Ro- mania, and Finland. 25 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIGURE 9. Meteor -class 150-passenger-capacity hydrofoil used mostly in short -to- medium distance interurban passenger service (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 The administrative and operational control of inland waterway trznsportation is exercised by the Ministry of th River Fleet, R.S.F.S.R., the directorates of river shipping in the Council of Ministers of other union republics, and the Ministry of Maritime Fleet, all of which are directly subordinate to the U.S.S.R. Council of Ministers. The Ministry of River Fleet exercises effective control of 84% of all navigable waterways; 20 of the 28 major inland waterway shipping companies subordinate to this ministry account for 87% of the annual waterway 26 tonnage and 94% of the total cargo turnover. Three companies, operating on the Caspian Sea, the Danube River, and the Aral Sea Amudar'ya, are subordinate to the Ministry of the Maritime Fleet, and five companies to the directorates of river shipping in the Council of Ministers of the various Union Republics. All companies are organized on river or river basin lines. On the integrated waterway system the vessels of one company also operate within the established territorial jurisdiction of other companies, except for the towing craft. In addition to the transport function, APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 FIGURE 10. Soviet 4,000 horsepower towboat designed for push towing operations. Pusher units of this class are the newest and largest in use on the inland waterways. (U /OU) FIGURE 11. Baltiskiy class (Series 781) 2,000 -ton dry -cargo river/ seagoing vessel, the predominant class in Soviet river /maritime operations. (C) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 007078000200090035 -8 M 4 FIGURE 12. Selected principal inland waterways (S) ROUTE LOCATION AND LENGTH (BEE NO. FIG. 33) PHYSICAL CHARACTERISTICS Kherson Kiyev; 577 route miles via lower Dnepr river. 2 Kiyev- Brest; 499 route miles via widdle Dnepr river and Pripyat' waterway, consisting of Pripyat' river, Pins, river, Dnepr -Bug canal, Mukhovets river. 3 Leningrad Voznesen'ye; 267 route miles via Neva river, Lake Ladoga, Svir river. Mostly regulated stream; channel width 230 -650 ft.; safe draft 7 -12 ft.; multi channeled with shoaling below 6 reser- voirs; low water in Mar., Apr.; high water end of May to early June, rising by 16 -18 ft.; -tide negligible; current velocity 0.6- 2.0 m.p.h. from mouth to mile 60, insig. beyond to Kiyev. Waves to 10.5 ft, on reservoirs; 4 single, one 3- chambered -in- tandem locks; controlling dimensions: 396 -ft. length, 58 -ft. width, 12 -ft. depth over sill; 6 RR. bridges. Composite summit -level route mostly im- proved stream; channel width at least 60 ft.; safe draft 5 ft. at low water; min. radius of curvature 650 ft.; normal cur- rent velocity low, not exceeding 1.3 m.p.h.; Pripyat' river portion generally tortuous with many horseshoe bends; 14 bridges (9 highway, 5 RR.); 2 pipeline crossings; 12 single chambered locks with controlling dimensions of 260 -ft. length, 36 -ft. width, 5 -ft. depth over sill. Composite waterway consisting of natural stream, lake, regulated stream; safe draft 11 -13 ft.; channel width 1,300 -4,300 ft.; normal current velocity to 3.5 m.p.h. on Neva river; water level fluctuations 2 -10 ft.; structures: 2 single- chambered locks; dimensions: 659 -ft. length, 70 -ft. width, 19.6 -f t. depth over sill; at least 11 bridges, 1 under construction; controlling under bridge vertical and horizontal clearances est. min. 50 ft. and 120 ft. respectively. 4 Belomorsk- Voznesen'ye; 288 route miles via White Sea canal, Lake Onega. Composite summer level route consisting of canalized stream, lakes, reservoirs, regu- lated streams; channel width 118 ft.; safe draft 11 ft.; current velocity insig.; wind waves up to 3 ft. on Lake Onega; 19 locks with controlling dimensions of 470 -ft. length, 56 -ft. width, 11.5 -ft. depth over sill; at least 5 bridges, 15 dams. OPERATIONS Navigation season 8 months; fast ice mid Dec. -early Mar.; supports self- propelled craft to 2,000 tons and 1,800 -ton dumb push barges, which, coupled together, comprise principal tow; heavy traffic density, with up to 20 million tons moved annually; principal cargoes: mineral con- struction materials, coal, ore, POL. Navigation season 7 months; fast ice mid Nov.- mid -Mar.; shallows and curves may require 1 -way .operations on sections Pinsk Mozyr' en Pripyat' river; accom- modates 600 -800 -ton craft; barge tows usually comprise 1 -2 barges; traffic den- sity moderately heavy; principal cargoes: iron ores to Brest for transshipment to Poland via RR. and Polish coal to U.S.S.R.; other cargoes: mineral con- struction materials, timber. Navigation season 7 months; fast ice late Nov. -early May; route supports self propelled craft up to 6,000 -tons; used extensively by river /seagoing vessels in foreign commerce and small naval craft in intersea transfers; strong winds forming seiches to 3 ft. affect operations for short periods; traffic normally heavy; principal cargoes: mineral construction materials, timber, coal, POL, ores; Lake Ladoga bypass canal, 102 route miles long, used by small craft unsuited for lake navigation. Navigation season 6 months; fast ice early Nov.- mid -May; supports 3,000 -ton craft including river /seagoing, small naval and coastal vessels; traffic normally heavy; principal cargoes: timber, mineral con- struction materials, coal, ores. RE161ARKS Most important inland waterway for Ukraine; RR. and maritime transship- ping connection with international trade at Kherson, important maritime /river port 17 miles upstream from Black Sea; recently constructed Kanev dam, 1 of 5 on route, now creating reservoir about 490 miles upstream from mouth, will allow passage of 5,000 -ton river /sea craft to Kiyev; major inland river ports handling 5 -7 million tons annually: Kiyev, Zaporozh'ye, Dnepropetrovsk. Waterway important for import /export trade with Poland; shipbuilding and repair facilities at Pinsk; Kiyev is major port; other significant ports: Brest, Mozyr'. Most important waterway segment for import /export trade; vital link in Greater Volga unified waterway system linking Baltic, White, Black, Caspian Seas; RR. and maritime transshipping connections with international trade at Leningrad, most important maritime /fluvial port on Baltic Sea, handling about 12 million short tons of river cargo annually. Important as transient route connecting northern seas with Baltic and central economic regions; Petrozavodsk is major port; other ports of some significance: Medvezh'yegorsk, Belomorsk, a mari- time /river facility. Locks to be recon- structed, enlarged to accommodate up to 5,000 -ton craft. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06116: CIA- RDPO'I- 007078000200090035 -8 to 00 FIGURE 12. Selected print ipal inland waterways (S) (Continued) ROUTE LOCATION AND LENGTH (SEE Nu. Flo. 33) PHYSICAL CHARACTERISTICS OPERATIONS REMARKS 5 Voznesen ye- Rybinsk; 334 route miles via Lake Onega, Volga Baltic canal, Rybinsk Reservoir, Volga river. 6 Moscow- Rybinsk; 237 route miles via Moscow canal, upper Volga river, Rybinsk reservoir, Volga river. Rybinsk- Kamskoye. Ust'ye; 601 route miles via middle, upper Volga river. Mostly natural lake and /or reservoir; canal- ized stream; channel width 130 -133 ft.; safe draft 11 -13 ft.; minimum radius of curvature 3,300 ft.; current velocity insig.; continuous dredging necessary on some sections to maintain channel characteris- tics; 8 locking installations (7 single chambered, 1 parallel single- chambered locks); controlling dimension-: 660 -ft. length, 70 -ft. width, 15 -ft. depth over sill; at least 4 bridges; controlling underbridge vertical and horizontal clearances est. min. 50 ft. and 70 ft. respectively. Composite waterway consisting of land -cut canal, canalized stream, reservoir; chan- nel width 150 ft.; safe draft 12 -16 ft.; no significant current velocity; min. radius of curvature 9,800 ft.; 11 locking installa- tions (7 single- chambered, 3 double chambered in tandem, 1 parallel single chambered locks); controlling dimensions: 980 -ft. length, 98 -ft. width, 18 -ft. depth over sill; at least 8 bridges; controlling underbridge vertical and horizontal clear- ances est. at least 50 ft. and 98 ft., respectively. Partially improved stream, reservoir; chan- nel width 330 ft.; safe draft 8 -13 ft.; normal channel velo ^.ity 0.7 -1.2 m.p.h.; min. radius of curvatur0 13,000 ft.; dredg- ing of channel required Gor'kiy- Chebok- sary because of shoals, bars, low water levels; 2 parallel single- chambered locks over sill; at least 4 bridges; controlling underbridge vertical and horizontal clear- ances at least 75 ft. and 330 ft. respectively. Navigation season 6 months; route necom- modates up to 6,000 -ton self propelled barges; storms, high waves interrupt navigation for short periods on lakes and reservoirs; Onega bypass canal, 42 route miles long, avail9ble for small craft; traf- fic density heavy; principal southbound cargoes: timber, mineral construction ma- terials, ore, chemicals; principal north- bound cargoes: coal, POL, salt, grain. Navigation season 6.5 months; fast ice mid Nov. -late April; icebreakers used; route accomodates up to 6,000 -ton craft; traffic density heavy; principal cargoes: mineral construction materials, POL, grain, timber, salt; speed restriction of 7.5 m.p.h. on Moscow canal. Navigation season 6.5 months; fast ice mid Nov. -late April; route capable of sup- porting self- propelled craft up to 2,700 tons; 5,000- and 6,000 -ton self propelled craft must partially offload to lighters on short section near Cheboksary because of restrictive depths; most densely trafficked waterway segment in U.S.S.R.; principal cargoes: mineral construction materials, timber, ore, chemicals, coal, POL. Important mainly as transient route con- necting central regions with Baltic, White Seas; major ports: Cherepovets, Rybinsk; 1 lock in common with Route 6. Most important waterway connecting Moscow and nearby centers to other major segments of Greater Volga sys- tem; major ports: Moscow, Rybinsk; former handles over 12 million tons annually and is country's largest port complex, consisting of Yuzhnyy (S.) Port, Zapadnyy (W.) Port, and Severnyy (N.) Port; 1 lock in common with Route 5; route mileage derived from confluence of Moskva river with Moscow canal. Important for serving central economic regions and through connections to other regions; completion of dam at Chebok- sary will improve navigation conditions mainly by reducing sailing distance and increasing channel depths; major ports: Rybinsk, Yaroslavl', Kineshma, Gor'kiy, Kazan. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 007078000200090035 -8 8 Perm- Kamskoye Ust'ye; 562 route miles via middle, lower Kama, middle Volga rivers. Kamskoye Ust'ye- Volgograd; 744 route miles via lower Volga river. 10 Volgograd Astrakhan; 301 route miles via lower Volga river. Canalized stream; channel width 260 ft.; safe draft 11 -13 ft.; normal current veloc- ity 0.6 -1.3 m.p.h.; low water levels mid Oct., early Nov.; high water early May mid- or late -July; wide, multichanneled waterway route with occasional shoaling, controllable through dredging; large dams form long consecutive reservoirs; 1 paral- lel single- chambered lock -1,085 ft. long, 98 -ft. wide, est. 12- 15 -ft. depth over sill; at least 4 bridges; controlling underbridge vertical and horizontal clearances at least 60 ft. and 100 ft. respectively. Canalized stream; channel width 330 ft.; safe draft 12 -13 ft.; normal current velocity up to 1.2 m.p.h.; broad, multi channeled river interspersed with reser- voirs; some dredging below dams neces- sary to correct channel shifting; 4 locking installations, 1 parallel double chambered in tandem, 3 parallel single- chambered locks- 980 -ft. length, 98-ft. width, 18 -ft. depth over sill; at least 4 bridges; con- trolling underbridge vertical and hori- zontal clearance at least 75 ft. and 650 ft. respectively. Partially improved stream; channel width 330 ft.; safe draft 11 -13 ft.; normal cur- rent velocity 0.6 -1.2 m.p.h.; extensive mud and sand shoals below Volgograd controlled through dredging; no locks; 1 movable span bridge. Navigation season 6.5 months; ice late Nov. -late Apr.; accommodates self propelled river /sea vessels up to 2,700 tons and towed or pushed 3,000 -ton dumb barges; high waves, storms on reservoirs may cause suspension of traffic ''or short periods; traffic density heavy; down- stream movements far exceeds upstream shipments; principal cargoes, amounting to over 45 million tons annually: timber, POL, mineral construction materials, chemical fertilizers, industrial goods much of which moves in transit traffic between European U.S.S.R. and Siberia in coordination with RR. transport. Navigation season 7.5 months; ice early Dec. -mid -Apr.; supports 2,000 -6,000 -ton self propelled craft and composite barge trains up to 15,000 tons; high waves, storms on reservoirs may cause suspension of traffic for short periods; traffic density heavy; principal cargoes: timber, mineral construction materials, POL, salt, coal, grain. Navigation season 8.5 months; ice mid T'iec. -early Mar.; supports up to 6,500 ton self- propelled craft; principal cargoes: POL, timber, salt. co Route provides access to region noted for forestry, extractive, metallurgical indus- tries and along with RR. forms impor- tant arterial connection for trans -Ural freight; the Kama, largest tributary of Volga, makes important connections witi, Belays and Vyatka rivers; lower Kama dam under construction at Naberezhnyye Chelny, about 165 miles upstream from confluence of Kama with Volga; major port: Perm; other signifi- cant, ports: Chaykovskiy, Kambarka. Important as high- capacity deep -water transient waterway connecting central regions with Caspian and Black Sea basins; major ports: Ul'yanovsk, Tol'yatti, Kuybyshev, Saratov, Volgograd. Transient waterway for Caspian Sea freight to central regions of country and Azov -Black Sea basins; the principal shipping route through low, marshy delta approach from Caspian Sea via Bakhtemir channel with 13- 14 -ft. draft; water diversion dam with navigation lock under construction N. of Astrakhan; major ports: Astrakhan, Volgograd. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 007078000200090035 -8 ca 0 FIGURE 12. Selected principal inland waterways (S) (Continued) ROUTE LOCATION AND LENGTH (SEE NO. FIG. 33) PHYSICAL CHARACPERIST'C8 on Caspian Sea; about 162,000 sq. miles between lower European and central Asian U.S.S.R. Natural lake; safe draft at least 23 ft.; con- tinuous falling water levels requires dredging at approaches to Bakhtemir channel and most major ports. 12 13 Volgograd- Rostov; 370 route miles via Volga -Don canal, lower Don river. Novyy Port- Khanty- Mansiysk; 771 route miles via lower Ob' river. Dredged stream, land -cut canal interspersed by large reservoirs; channel width 120- 200 ft.; safe draft 8 -12 ft.; normal current velocity insig.; dredging of shipping chan- nel necessary on shallow Tsimlyansk reservoir and sections of Don, particularly during low water periods; many islands and course meandering on lower Don; 16 single- chambered locks; controlling dimensions 490 -ft. length, 59 -ft. width, 14.5 -ft. depth over sill; at least 9 bridges; controlling underbridge vertical clearance 53 ft. Natural stream, some partially improved stream; channel width at least 260 ft.; safe draft 7 -30 ft.; normal curent velocity 1.0 -4.2 m.p.h.; river surface width 3,800 ft. to 2.5 mi.; many anabranches, multi channeled, many islands, shifting chan- nels, sand shoals; low water Apr., Sept., Oct.; high water late May -Aug.; no structures; lower Ob' approached from bay by 2 deltaic channels about 100 miles long, northernmost of which is principal shipping lane. OPERATIONS Navigation season 8 months; ice late Nov. Apr.; S. Caspian generally ice free and open year round; supports up to 9,500 ton self- propelled units and 5,000 -ton dumb barges; most larger units of fleet self contained to Caspian Sea operate be- cause of mstricted depths through Volga delta channel, necessitating costly and time consuming offshore lightering and /or transloading operations; strong winds, high seas interrupt vessel movements and port operations for short periods; princi- pal cargoes: POL, agric::cural products, industrial equipment; Azeable amount of passenger traffic; important RR. /passeil- ger ferry service Krasnovodsk -Baku, providing E. -W. RR. link. Navigation season 8 months; ice early Dec. early Mar.; supports self propelled craft to 2,000 -ton capacity fully loaded and 5,000 -ton self propelled craft partially loaded as low as 54% of capacity; reduced loads of latter necessary because of criti- cal shallows on lower Don; heaviest traf- fic volume Kalach- na -Donu- Rostov, amounting to 7 million tons annually; principal cargoes: coal, timber, grain, mineral construction materials. Navigation season 4 -5 months; fast ice period late Oct.- mid -June in bay, mid Oct. -late June on river; normally sup- ports navigation for self- propelled craft up to 2,000 -ton capacity and dumb barges to 3,000 tons; violent northerly winds occasionally halt operations; traffic moderate; principal cargoes: timber, food- stuffs, POL, general cargo, mineral con- struction materials; shipping closely geared to maritime operations in N. and requirements of gas and oil field activity along Taz, Pur, Nyda, Nadym rivers. REMARKS Largest lake in world serves oil -rich Cas- pial: Basin and provides important link in Soviet transport system by extending important Volga into Caucasus and central Asia including major connection with Iran; major ports: Baku, Krasno- vodsk, Makhachkala, Shevchenko; RR. ferry terminal at Shevchenko nearing completion. Forms part of militarily and economically significant transport artery intercon- necting Black and Azov Seas with other important waterways of Greater Volga system; plays significant role in moving products to and from strategic Donets Basin industrial complex; major ports: Volgograd, Volgodonsk, Ust'- Donetskiy, Rostov, the latter 37 miles upstream from mouth of Don. Primary transport route where there is almost complete absence of RR., high- way facilities; important section of Ob' provides access to sea and maritime shipping lanes of Northern Sea routes; ports of any significance: Khanty- Mansiysk, important river transloading point, Novyy Port, which is minor maritime /fluvial transloading port on Northern Sea route. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA� RDP01- 007078000200090035 -8 14 15 K hanty Mansiysk -No vosibirsk; 1,054 route miles via middle Ob'. Khanty- Mansiysk -Omsk; 439 route miles via lower Irtysh. Partially improved stream; cbaLnel width 13b -260 ft.; safe draft 7 -10 ft.; min. radius of curvature 650 -2,600 ft.; normal current velocity 2.5 -3 m.p.h.; river sur- face width 1,700 -4,500 ft.; multichan- neled, island studded, shifting sand shoals anti channels; numerous sandbars; low water Apr., Sept., Oct.; high water May Aug.; water levels Novosibirsk�down- stream for about 165 miles controlled by Novosibirsk dam: no locks; 3 bridges (2 RR., 1 highway); controlling underbridge vertical and horizontal clearances 40 ft. and 385 ft. respectively. Mostly natural stream, some partially im- proved sections; channel width at least 100 ft.; river surface width 1,000 -3,000 ft.; safe draft 8 -10 ft.; normal current velocity 1 -3 m.p.h.; meandering, braided, multichanneled, shifting channels, sand and gravel shoals; dredging required an- nually; low water Apr., Sept., Oct.; high water June -Aug.; no locks; 4 bridges (3 Rit., 1 highway); controlling underbridge vertical and horizontal clearances 50 ft. �snd 370 ft. respectively. Navigation season 6 months; fast ice early Nov.- mid -May; year -round navigation made possible Novosibirsk dam down- stream for 75-100 miles by increased water temperature and turbulence from released water of dam, 10 miles S. of Novosibirsk; normally supports naviga- tion for self propelled craft to 2,000 -ton capacity and dumb barges to 3,000 tons; 600 -1,000 -ton self propelled craft and 2,000 -h.p. pusher tug with barge tows to 12,000 -tons predominant; traffic normally heavy; volume of freight traffic at least 15 million tons annually; principal cargoes: POL, grain, mineral construction materials, timber, coal, general cargoes. Navigation season 6 months; fast ice late Oct. -early May; normally supports navi- gation for 2,000 -ton self- propelled craft, 3,000 -ton dumb barges; predominant are 600 -1,000 -ton self propelled craft and 2,000 h.p. pusher tugs with up to four 3,000 -ton barges; traffic very heavy with downstream haulage predominant; esti- mated annual freight tonnage over 17,000,000 tons; principal cargoes: timber, mineral construction materials, grain, POL, manufactured goods, general cargo. Co Novosibirsk, largest port on Ob', major river -RR. transshipment point, site of major shipbuilding, repair yard; Surgut, new large highly mechanized facility supporting oil, gas exploitation, princi- pal recipient of Ob' and Irtysh freight traffic; Kolpashevo, rapidly expanding major port primarily for oil and timber exploitation, is only long -haul mode of transportation available. Most important and heavily trafficked section of Ob'- Irtysh inland waterway system; Omsk, largest port and most important river -RR. transshipment point on Irtysh; site of major ship- building and repair yard; Tobolsk, large new river /rail transshipment port pri- marily developed to supply gas and oil exploitation in Soviet north. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 007078000200090035 -8 to FIGURE 12. Selected principal inai.Id waterways (S) (Continued) ROUTE .00ATION AND LENGTH (SEE No. FIG. 33) PHYSICAL CHARACTERISTICS 16 Dudinka Krasnoyarsk; 1,261 route miles vis. lower, middle Yenisey. OPERATIONS Mostly natural stream; some partially im- proved sections; channel width at least 100 ft.; safe draft 7.8 -12.5 ft.; normal cur- rent velocity 0.6 -3.0 m.p.h.; rapids on several stretches of middle Yenisey; river surface width generally 0.6 -2.0 miles but narrows to less than 1,600 ft. at rapids; shifting sandbars, shoals; low water Aug. Oct.; high water May -early Aug.; no locks, 2 bridges (1 RR., 1 highway); con- trolling underbridge vertical and hori- zontal clearances are 32 ft. and 450 ft. respectively. 17 Tiksi- Ust'- Kut /Osetrovo; 2,100 route miles via Lena delta, Lena river. Mostly natural stream, some improved stream; channel width 100 -265 ft.; safe draft 6.5 -10.5 ft.; current velocity 0.5- 6.0 m.p.h.; river surface width 600 -2,500 ft.; multichanneled; shifting channels and shoals, sandbars, numerous islands; low water late Oct.; high water late May -late July; no structures. Navigation season 3 -7 months; fast ice mid Oct. -early June; normally supports self propelled craft up to 10,000 tons on mari- time /fluvial section of .lower Yenisey (Dudinka Igarka), 2,000 -ton self -pro- pelled barges and 3,000 -ton dumb barges on fluvial section (Igarka Krasnoyarsk'); typical barge tow is 2,000 -h.p. pusher tug and four 3,000 -ton barges; partially loaded 5,000 -ton river /seagoing craft operate to Krasnoyarsk; upstream tow assistance and 1 -way operations near mile 995 and mile 1,319 of middle Yenisey due to rapids and narrows; traffic normally heavy in both directions and closely geared to maritime operations to N. and Trans- Siberian RR. to S.; 20 -ton con- tainer route Krasnoyarsk- Dudinka; prin- cipal cargoes: POL, timber, manufactured and agricultural goods, ores, construction materials, general cargo. Navigation season 3-6 months; fast ice mid Sept.- mid -June; normally supports navi- gation for self propelled craft up to 2,150 ton capacity and dumb barges up to 3,000 -ton capacity; vessel movements occasionally interrupted for short periods by dense fog, strong winds, rough water; traffic heaviest Yakutsk- Ust' -Kut with downstream shipments predominant; through E. -W. shipments dependent on transshipment /transloading to and from maritime craft in N. and branch line of Trans Siberian RR. in S.; principal car- goes: POL, timber, coal, agricultural and industrial products, containerized materials. REMARKS Only adequate N. -S. long -haul surface transport route in region undergr:ng extensive mining and industrial develop- ment, including Norilsk mining and industrial complex; important maritime/ fluvial ports: Dudinka, Igarka, 261 and 423 route miles upstream from mouth of Yenisey at entrance to Kara Sea; Kras- noyarsk, major inland waterway port astride Trans- Siberian RR., is site of large shipbuilding and repair facilities; Igarka is important timber transship- ment port. Most important N. -S. transport route in E. Siberia; major port, shipbuilding/ repair facilities available at Yakutsk, Ust'- Kut /Osetrovo; Tiksi, maritime port on Northern Sea Route, is important maritime /river transshipment site; Lena Steamship Co. is responsible for port facilities on Yana, Indigirka, Kolyma rivers including diamond and gold min- ing activities along these rivers; river'oea craft of Lena transload to shallow draft vessels at points near river mouths. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA �RDPOl 00707R000200090035 -8 18 15 20 Nikolayevsk� Khtbarovsk; 577 route miles via lower Amur. Khabarovsk Blagoveshchensk; 587 route miles via middle Amur. Iman� Khabarovsk; 233 route miles via Ussuri, Iman rivers. Partially improved stream; .-hannel width 360 ft.; safe draft 12 -17 ft.; normal cur- rent velocity 1.9 m.p.h.; river surface width 0.4 -3 miles; multichanneled; shift- ing channels, many islands, extensive gravel and sand shoals; low water Apr., Oct.; high water July, Aug. frequently accompanied by intensive flooding; no locks; I bridge; vertical and horizontal underbi,dge clearances 50 ft. and 400 ft. respectively; combined RR.- highway bridge under construction at Komsomol'sk. Partially improved stream; channel width 260 -980 ft.; safe draft 10.5 -21.5 ft.; normal current velocity 3.7 m.p.h.; river surface width 1,500 -5,000 ft.; low water mid -Feb. through March; high water Aug., Sept.; critical shoals near Soyuz- noye, Konstantinovskoye; lower and up- per sections: multichanneled, many islands, sloping sandy clay banks; mid- section: relatively narrow raver bed, few islands, steep banks; no structures. Partially improved stream; channel width at least 100 ft.; safe draft 3-6.5 ft.; normal current velocity 2.4 m.p.h.; river surface width 1,600 -3,300 ft.; braided, multi- channeled; many islands; shifting shoals; low water June, Aug.; high water May, July, Sept.; no structures. Navigation season 6 months; fast ice early Nov.� mid -May; pilotage compulsory; normally supports navigation for self propelled craft to 2,000 -ton capacity and dumb oarges to 3,000 tons; operations occasionally impeded by summer fog, monsoonal flooding for short durations; traffic density heavy; principal cargoes: POL, coal, grain, timber, fish, salt, bulk construction materials, general cargo. Navigation season 6 months; fast ice 15 Nov. -5 May; normally supports naviga- tion for self- propelled craft to 2,000 -ton capacity and dumb barges to 3,000 -tons; operations occasionally impeded by shift- ing channels, extensive shoals; traffic normally heavy; principal cargoes: coal, grain, bulk construction materials, gen- eral cargo. 01 Navigation season 7 months; fast ice mid Nov.� mid April; normally supports navi- gation for self propelled craft to 500-600 tons; operations interrupted for short periods by intense flooding after monsoon rains; traffic currently light due to Sino- Soviet dispute; principal cargoes: coal, general cargo. Most important section of Amur system; shipping associated closely with RR., maritime transshipment operations; Nikolayevsk is principal upriver ter- minus of maritime navigation; impor- tant river -RR. pipeline transshipment effected at major river ports of Komso- mol'sk and Khabarovsk and river /mari- time transshipment at Nikolayevsk; Komsomol'sk site of major naval ship- building yard; Khabarovsk, the largest port, is principal upstream river /sea terminal. Shipping associated closely with RR. trans- shipment operations; Blagoveshchensk, major port, RR. /river transshipment point and upstream river /sea navigation terminus; site of major river shipbuild- ing yard; route forma part of Sino- Soviet border. Route forms Sino- Soviet border; Iman is small river /RR. transshipment port. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 each company is responsible in its area for operating most shipbuilding and repair yards, port facilities, personnel training schools, and the fleet. There are 17 basin /canal administrations, under the control of the Ministry of River Fleet, R.S.F.S.R. and the Union Republics, which maintain all waterway routes and associated structures such as locks and dams. Earlier development plans for the waterways are gradually being realized with the completion of new dams, river dredging, the development of new ports and repair facilities, the enlargement of existing facilities, and the increasing use of push towing and large river /sea craft. In port operations the emphasis is on mechanization and containerization along with port construction and rehabilitation. Tire completion of long -range programs in European U.S.S.R. will provide deep -draft navigation for river /seagoing vessels up to 6,000 -ton capacity between the Black, Caspian, White, and Baltic Seas. Dams with bypass locks are under construction at Kanev on the Dnepr, Cheboksary and Volzhskoye on the Volga, Nikolayevskaya on the lower Don, Naberezhnyve Chelny on the Kama, arid at Takhia- Tash and near Pitnyak on the Amudar'ya. Locks are being reconstructed and enlarged at Zaporozh'ye on the Dnepr, Svir'stroy on the Svir and Sheksna on the Volga Baltic Canal, and locks oil the White Sea Canal. Plans also call for the reconstruction of the two locks at Gorodets on the Volga. The Siberian rivers are to an increasing extent supplementing the Northern Sea Route in support of establishments above the Arctic Circle. Work on the Krasnoyarsk shiplift on the Yenisey was scheduled for completion in 1973. The 2,000- ton capacity inclined shiplift is to he the largest in the world. However, technical problems and testing will delay the opening until 1974 at the earliest. Dams are under construction at Zeya on the Amur system, Shushenskoye on the Yenisey, and near Ust'- Ilimsk on the Angara. Extension of the Karakum Canal on the Aral Sea Amudar'ya system beyond Ashkhabad to the Caspian Sea is continuing. To arrest the rapidly falling water level of the Caspian Sea, several plans are in the investigative stage involving diversion of the Pechora and /or the Sukhona river flows from north to south by means of a series of dams and canals which will increase the water flow via the Kama and Volga rivers southward to the Caspian Sea. Characteristics of selected principal inland waterways providing 11,857 route miles of primary navigation are tabulated in Figure 12, the routes are shown on Figure 33. Although representing only 13% of total Soviet navigability, the selected waterways 34 account for over 90% of the yearly waterway tonnage. They include most of the important high- capacity through routes between major production and /or strategic areas and all high- capacity routes that make significant international connections. F. Pipelines (S) The development of pipeline systems in the Soviet Union has been one of the most important issues associated with the continued expansion of petroleum and natural gas industries. Most consumers now have a far greater preference for liquid and gaseous fuels in place of coal, and petroleum production has been accelerated to satisfy the increased domestic demand and to earn foreign exchange credits. The difficulty of transporting petroleum and natural gas over the vast distances and difficult terrain encountered in the U.S.S.R has not been completely solved. The Soviets lack the technology and modern oilfield and pipeline equipment needed to fully exploit their extensive reserves of petroleum and :iatural gas and are trying to bridge t1 is gap by procuring assistance from Western sources. As of January 1973, the U.S.S.R. had about 74,800 miles of pipelines: 23,000 miles for crude oil; 5,800 miles for refined products; and 46,000 miles for natural gas. Plans call for the construction of an additional 2,300 miles of crude oil pipelines by the end of 1973. The major Soviet oil pipelines can be grouped into seven systems, five large and two secondary. A primary effort is being made to complete the large- diameter CEMA (Friendship) pipeline system which transports crude oil from the Urals -Volga oilfields to refineries in western U.S.S.R, Poland, East Germany, Hungary, and Czechoslovakia. The first line of this 2,700 -mile pipeline system became operational in 1956, but growing oil requirements in Eastern Europe called for the doubling of the system. This work, scheduled for completion in 1973, will more than double the carrying capacity of the CEMA system. A major crude oil pipeline system over 1,600 miles in length was recently completed to bring oil from fields near the Oh' river to refineries at Omsk, Tomsk, and Angarsk. Another pipeline from the Ob' river fields is under construction to AI'met'yevsk and Kuybyshev. Construction of a crude oil pipeline between Irkutsk and Nakhodka in the Soviet Far East has been planned and is likely to be built, but its construction seems dependent upon the acquisition of equipment arid technical assistance from Japan. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP09 007078000200090035 -8 FIGURE 13. Selected major petroleum pipeline systems (C) -Oo TERMINALS From To PRODUCTS LENGTH DIAMETER TRANSPORTED CAPACITY REMARKS Miles Inches BbOday CEMA (Friendship) system: Kuybyshev Unecha..................... 823 40 Crude........... 800,000 Main CEMA trunk line. Do ....do...................... 823 48 ....do.......... �1,200,000 Parallel line. Unecha Mozyr...................... 183 32 ....do.......... 540,000 Do ����do...................... 183 na ....do.......... na Parallel line, under construction; expected M ozyr Brest....................... 297 24 ....do.......... 240,000 completion 1973. Do Do ....do...................... Uzhgorod.................... 297 na ....do.......... na Parallel line; reported completed 1972. 453 21 ....do.......... 160,000 Do ....do...................... 453 28 ....do.......... *320,000 Parallel line. U necha Polotsk..................... 279 28 ....do.......... 360,000 Do ....do...................... 279 na ....do.......... na Parallel line, under construction; expected Polotsk Ventspils.................... 341 25 ....do.......... 240,000 completion 1973. Almetyevsk Do Kuybyshev 170 32 ....do.......... 340,000 Feeds crude oil into CEMA system. Do....................... ....do...................... 170 na ....do.. no Parallel line. Uzen ....do...................... 170 no ....do.......... na Do. ....do...................... 926 40 ..do.......... 600,000 Feeds crude into CEMA system. Pipeline heaters located every 50 miles because of Kuybyshev Rovno (via Bryansk) 1,120 21 Products........ *165,000 high- viscosity oil being transported. Extension planned to Poland or Czecho- Unecha Ventspils.................... 621 24 ....do.......... 240,000 slovakia border. Transports diesel fuel, crude oil. Tuymazy Kuybyshev.................. 220 14 Crude........... 83,000 Do....................... Trans Siberian system: do...................... 220 32 do.......... 340,000 Parallel line. Almetyevsk Tuymazy 62 21 ....do.......... 151,000 Do Tuymazy ....do...................... Omsk....................... 62 827 28 21 ....do.......... 340,000 Do. Do ....do...................... 827 28 ....do.......... ....do.......... 120,000 300,000 Do. Do ....do...................... 827 32 ....do.......... 380,000 Do. Ufa Do ....do...................... 740 15 Products........ 114,000 Parallels Tuymazy �Omsk line. Omsk .do...................... 740 20 ....do.......... 190,000 Parallel line. Irkutsk..................... 1,500 28 Crude........... 340,000 Anzhero- Sudzhensk ....do...................... *900 40/48 ....do.......... na Under construction; expected completion Omsk Novosibirsk.................. 432 20 Products........ 190,000 1973. Parallels previous line. Novosibirsk Chita....................... 1,575 no ....do.......... na Planned. Irkutsk Nakhodka................... 2,188 48 Crude........... na Planned; construction dependent upon Japa- Ca e I Fotnotes at end of table. nese aid. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA� RDPOI- 007078000200090035 -8 ca o FIGURE 13. Selected major petroleum pipeline systems (C) (Continued) TERMINALS From To Tyumen system: Ust- Balyk Omsk....................... Aleksandrovskoye............ Ust- Balyk Do Anzher0- Sudzhensk........... Do Almetyevsk (via Kurgan)..... Do Kuybyshev.................. Shaim Tyumen..................... Central Asian system: Omsk....................... Pavlodar.................... Pavlodar Chimkent................... Nebit Dag Chardzhou.................. Chimkent................... ....do...................... Northwestern system: Almetyevsk Gorkiy...................... Do....................... ....do...................... Do....................... ....do...................... Do....................... ....do...................... Gorkiy Yaroslavl.................... Do ....do...................... Yaroslavl Kirishi...................... Kirishi Leningrad................... Gorkiy Ryazan..................... Do ....do...................... Ryazan..................... Moscow..................... Do....................... ....do...................... Do ....do...................... Voy Vozh Ukhta...................... U khta Yaroslavl.................... Caucasus system: Baku....................... Batumi..................... Do....................... ....do...................... Do....................... ....do...................... Groznyy Dnepropetrovsk Far Eastern system: Okha Komsomolsk- na- Amure....... Do....................... ....do...................... Komsomolsk Khabarovsk................. na Data not available. 546 10 PRODUCTS 34,000 515 LENGTH DIAMETER TRANSPORTED CAPACITY REMARKS Miles Inches 700 B61.Iday ....do.......... 816 40 Crude 900,000 63,000 156 28 ....do.........: na 181 621 48 ....do.......... 1,500,000 1,140 48 ..do.......... na Under construction; expected completion 1973. *1,430 56 ....do na Planned; expected completion 1976. 267 21 ....do.......... 140,000 250 32 ....do.......... 151,000 *1,000 24 ..do.......... na Under construction; dual 24 -in. pipelines; expected completion 1975. 600 na ....do.......... na Planned. 450 na ....do.......... na Do. 360 21 ....do.......... 160,000 360 32 ....do.......... 480,000 Parallel line. 360 32 ....do.......... *480,000 Do. 360 na ....do.......... no Do. 245 28 ....do.......... 340,000 245 na ....do.......... na Do. *320 na ....do.......... na *60 na Products........ na 260 28 Crude........... 340,000 260 na ....do.......... na Do. 125 24 ....do.......... 240,000 125 16 Products........ 85,000 125 na ....do.......... na 100 na Crude........... na 600 na ....do.......... na Under construction; expected completion 1973. 546 10 ....do.......... 34,000 515 28 ....do.......... na 552 na Products........ Ila 700 na ....do.......... *114,000 390 12 ....do.......... 63,000 390 17 do na Parallel line. 181 na ....do.......... na APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06116: CIA� RDPO'I- 007078000200090035 -8 FIGURE 14. Selected major natural gas pipeline systems (U /OU) TERMINALS From To Northern system: Nadym......................... Novyy Port Vuktyl.......................... Ukhta.......................... Do......................... Do......................... LENGTH DIAMETER CAPACITY Miles Ukhta.......................... *650 Sa lekhard *635 Ukhta 119 Torzhok 857 ...do 857 ...do 857 Do......................... ...do.......................... Kot las Arkhangelsk Nadym......................... Punga.......................... Do......................... ..:do.......................... Punga.......................... Serov Do......................... ...do.......................... Serov Nizhniy Tagil.................... Nizhnyaya Tura Perm........................... M essoyakhskaya Norilsk Do......................... ...do.......................... Central Asian system: 857 *300 435 435 Inches Cu. m./day REMARKS 56 no Under construction; expected completion 1976. na no Planned. 40 na na 48 41,000,000 Main trunk line of "Northern Lights" system. 48 na Parallel line. 56 na Parallel line; reported under construction; completion 1,150 na na. 56 na Parallel line; pls nned. na na Under construction; completion no. 48/56 na Moscow (via Beyneu, Ostrogozhsk). na na Parallel line; under construction; expected completion Moscow (via Khiva and Ostro- 2,250 1974. *270 32 17,800,000 270 na na 143 40 na 186 40 25,000,000 183 28 na 183 na na Bukhara area gasfields............ Nizhniy Tagil (via Chelyabinsk) 1,558 40 Do Chelyabinsk 1,238 40 Do Alma -Ata (via Chimkent) 1,150 20/28 Do ...do.......................... 1,150 40 Do......................... ...do.......................... 1,150 na Do Moscow......................... 2,000 40 Do......................... ...do.......................... 2,000 40 Koturdepe Moscow (via Beyneu, Ostrogozhsk). 1,558 40/48 Shatlyk gasfield Moscow (via Khiva and Ostro- 2,250 56 gozhsk). Kelif Bukhara........................ *250 no Do......................... Dushanbe....................... 190 32 Ashkhabad...................... Mary........................... 230 na Footnotes at end of table. co 4 Parallel line. World'e northernmost pipeline. Parallel line; reported under construction; completion na. 29,000,000 "Bukhara- Urals" pipeline. 29,000,000 Parallel line. no no Do. no Parallel line; reported under construction; completion no. *29,000,000 "Central Asia- Center" pipeline. *29,000,000 Parallel line. *65,000,000 Third "Central Asia Center" pipeline: under con- struction; expected completion late 1973. *82,000,000 Fourth "Central Asia- Center" pipeline; under con- struction; expected completion late 1973. na Brings natural gas from Shibarghan, Afghanistan. na Under construction; expected completion 1973. 2,000,000 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA� RDPOI- 007078000200090035 -8 a FIGURE 14. Selected major natural gat pipeline systems (U /OU) (Continued) TERMINAL& From 1 Western system: Dashava area gasfields............ Soviet -1 Do do...... Do Soviet -Czech border.............. Do ...do.......................... Do......................... Do Ivatsevichi Torzhok......................... Moscow Do Leningrad....................... Do Novgorod Leningrad Southern system: Shebelinka Do......................... Do......................... Do......................... Nikolayev Stavropol area gasfields........... Do. Leningradskaya area gasfields...... Do Do......................... Baku........................... Stavropol........................ Far Eastern system: Kham pa Tas -Tu m us Okha........................... Yakut sl Kiev............................ Serpukhov....................... Riga............................ Minsk.......................... Leningrad (via Torzhok) ...do Tallin ...do Riga............................ Soviet Finland border Bryansk (via Orel) Nikolayev Ostrogozhsk..................... Voroshilovgrad Kishinev Moscow ...do Serpukhov (via Rostov) Rostov.......................... ....do Mozjk Groalyy Tas -Tu m us Yakutsk Korsakov Nakhodka no Data not available. *Estimated. LENGTH DIAMETER CAPACITY Miles Inches Cu. m. /day REMARKS 63 12 no 63 28 12,500,000 115 32 na 115 na no Parallel line; under construction; expected completion 1973. 321 20 12,500,000 760 20 12,500,000 324 28 no *350 no na *400 28 12,500,000 *400 40 no *215 na no *215 na no *300 no *6,850,000 95 no na Planned; expected completion 1973. 338 28 12,500,000 310 28 11,000,000 Double pipeline to Dnepropetrovsk. 150 40 29,000,000 160 40 29,000,000 170 na no 813 28 12,500,000 813 28/32 17,800,000 Parallel line. 650 40 29,000,000 63 32 17,800,000 63 32 17,800,000 Do. 480 20/28 no 360 20/28 12,500,000 125 21 4,700,000 250 21 4,700,000 620 26 na Planned. *1,500 no no Do. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 The widespread use of large diameter pipe has substantially aided the exploitation of gasfields, but the long distances between gas- producing areas and the primary consuming centers have put a severe strain on Soviet pipe manufacturers. Nevertheless, long distance large- diameter trunk pipelines are being built. The third and fourth strings of the Central Asia Moscow gas pipeline system use 48 -inch and 56 -inch pipe, and the third and fourth strings of the "Northern Lights" gas line, which will bring natural gas from northwest Siberia to Moscow, is to be of 56 -inch pipe. Tabulated details of selected crude oil, refined products, and natural gas pipelines are given in Figures 13 and 14; the pipeline systems are shown on Figure 34. G. Ports (S) The U.S.S.R. has 62 major ports, 122 minor ports of some significance, and numerous other ports too small to be of more than local importance. The major and minor ports are distributed among the following four coastal maritime areas as follows: MAJOR M I N OR Black Sea coast 17 23 Baltic coast 12 24 Pacific coast 15 55 Arctic coast 18 20 Each maritime area has its own merchant and naval fleets and operates its own port system. The Baltic and Black Sea areas have the greatest concentrations of ports and port activity, and most U.S.S.R. maritime trade is carried on from there; the ports in these areas serve heavily industrialized and populated regions and have the best rail, road, inland waterway, and cross country pipeline clearance facilities. With the execption of Leningrad, the larger Soviet commercial ports do not compare in size or extent of facilities with the major ports of other leading maritime nations. Inadequacies such as the lack of deep -water berths and approaches, lack of oil bunkering and storage terminals, and lack of railroad cars have at times hampered port operations and caused delays. However, the U.S.S.R is striving to improve the situation to better meet the needs of their growing merchant marine. They recently inaugurated container service in a few ports �the method for speeding up cargo handling operations using internationally standardized van -sized boxes. Maritime shipping and the ports occupy a key place in the Soviet transportation system. In many instances the Soviets have found it more economical to move their freight by sea rather than overland, even though the sea distance might be twice as long via other means. Soviet ports still rel he, VI 041 cargo transfer between railroad cars an t interruption to the rail service adV( *t operations. Most cargo is handled u_ he wharves, and little lightering is ca. rnchorages or moorings. Rapid handling ianes are used extensively; ship's gear is seldom employed. Many Soviet ports, and particularly those of a naval character or those where sensitive military activities are performed, are not open to non Communist shipping. U.S.S.R. ports are affected more by weather and climate than those of any other large maritime power �ice constituting the most serious obstacle. Almost half the coastal waters are unnavigable for part of the year, and many ports are closed During winter. The most favorable climatic conditions exist in the Black Sea, where the ports are usually operational year round. Most ports are predominantly commercial in nature, only a few being exclusively naval; many commercial ports, however, provide some degree of support to the naval forces as operating bases or shipbuilding /ship repair centers. The Black Sea area, sitt'Of Y)ajor t ?uropcao, U.S.S.R. transport facilities, hardICS about 509 of 1, total seaborne trade. Most post -World War I port development in the U.S.SR_ has taken place' W this area. Several ports have lrrn consi derably 11111411VI'd with new and deeper "Ihltves, new storage Ivr111111111s, ship- repair facilities, 41d handling rt ttllnn( Il'ichevsk, a fairly larp 14frt. 1, .y built. Novorossiysk, Odessa (Figure 15), and II'ichevsk are the most significant Black Sea c(. nercial ports, together handling about 4i, million tons of cargo annually. One of the largest supertanker terminals in Eurasia is located at Novorossiysk. N 4ayev is the largest, most important shipbuildinf, enter in the area, followed by Kerch and Kherson. The best commercial ship- repair facilities are at Odessa and II'ichevsk. Sevastopol /Balaklava has the finest natural harbor in the Black Sea and is the area's principal naval base, headquarters of the Soviet Black Sea Fleet, and the most important naval ship- repair and supply port; several other ports have small logistical support bases or minor naval facilities. Black Sea naval ports provide logistic support for maintaining Soviet naval presence in the Mediterranean Sea. Zhdanov is a principal exporter of coal, and Novorossiysk, Batumi, Feodosiya, and Tuapse are primarily oil shipping 39 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 ports. Kerch and Poti are mainly ore shipping ports, while Yalta, Sochi, and the minor port of Sukhumi are noted health resorts. Reni and Izmail, in addition to Kherson, are important a .change ports for the transshipment of cargoes between oceaagoirg and river vessels. Ports open to non Communist shipping are Batumi, Novorossiysk, Zhdanov, Odessa, 11 ichevsk, Tuapse, Poti and the minor port of Sukhumi. Most military and commercial cargoes destined for Cuba, North Vietnam, or Egypt and other Arab countries originate from Black Sea ports. The Baltic Sea plays an extremely important role in the Soviet Union's maritime shipments. It occupies second place among the seas of the U.S.S.R. in total volume of freight turnover. Especially significant is its role in foreign trade. Baltic seaports handle up to 20% of export cargo and over 30% of import cargo passing through seaports of the Soviet Union. In this regard the Baltic Sea surpasses all other seas in the U.S.S.R. Petroleum and petroleum products, timber, coal, coke, metals, machinery and equipment, and grain predominate in shipments over the Baltic Sea. Leningradskaya Oblast is the Soviet Union's most highly developed region in an economic sense and the most important on the Baltic Sea. Of distinction in the oblast's industry are shipbuilding, machine building, and the aluminum, chemical, oil- refining and cellulose -paper industries. Leading to Leningrad, sect nd in freight turnover and the most complex transportation center in the U.S.S.R., are 12 railroad trunk lines, 10 major highways, and some sea and river routes, pipelines, and air routes. Ventspils, the largest Baltic port in respect to freight turnover, is a specialized petroleum port +hvut 90% of its freight turnover is petroleum and petroleum products). Klaypeda, an important indu%i&d c:-nter, is the locale 40 of shipbuilding and ship- repair plants, cellulose -paper and fish processing combines, and other industrial enterprises. Additionally, Klaypeda occupies second place in the Baltic after Ventspils in the export of petroleum and petroleum products. Riga is a major seaport with year -round navigation. Coal, petroleum and petroleum products, various ores, grain, sugar, and cotton predominate in the port's freight turnover. Tallin is a large industrial center. Electrical engineering, radio engineering, instrument making, shipbuilding and ship- repairing, cellulose paper, and light and food industries have been developed in the city. Kaliningrad is the largest city in Kalinin gradskaya Oblast. There are machine building, fish processing, and other enterprises in the city. An oceangoing fishing and refrigerator fleet and a whaling fleet are based there. Kaliningrad is a naval headquarters, and Baltiysk is the principal naval operating base for the Baltic Fleet. The Kronshtadt naval base guards the approaches to Leningrad. Riga, Liepaya and Tallin are important naval bases. Vyborg and Pal'diski are small naval bases. Ports open to non Communist shipping are Leningrad, Klaypeda, Ventspils, Riga, Tallin and Vyborg. In the Pacific area over 90% of the port facilities are located in southeast Siberia, in a maritime zone extending from the Amur river south to the North Korean border. This area is served by the Trans Siberian railroad and the Amur river system, and several of its ports can be kept open year round. Vladivostok and nearby Nakhodka (Figure 16) lie close to Japan, Communist China, and North Korea, and they dominate in carrying on foreign trade in the are r rr: -1" P C fQ'.. r j Y r .'3 W,: j- :v i t b �s d h :c a AR �,41G r u:'4 F ..j O i t r r 31 :.r.. a ,.D D6 f sp Jp p j i4.' a x i .,,fir .j y' Rs} t Z CIA I ,c VL'.A rt .1D :I, ti '.f. =i R^- x f r.' io r s 5 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200090035 -8 APPROVED FOR RELEASE: 2009/06/16: CIA �RDP09 00707FR000200090035 -8 Secret. 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