Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 ECONOMIC INTELLIGENCE REPORT N? 850X1 AN ECONOMIC ANALYSIS OF THE RAILROAD SYSTEM IN EAST GERMANY CIA/RR ER 60-11 May 1960 CENTRAL INTELLIGENCE AGENCY OFFICE OF RESEARCH AND REPORTS 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 WARNING This material contains information affecting the National Defense of the United States within the meaning of the espionage laws, Title 18, USC, Secs. 793 and 794, the trans- mission or revelation of which in any manner to an unauthorized person is prohibited by law. Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 SECRET ECONOMIC INTELLIGENCE REPORT AN ECONOMIC ANALYSIS OF THE RAILROAD SYSTEM IN EAST GERMANY CIA/RR ER 60-11 May 1960 CENTRAL INTELLIGENCE AGENCY OFFICE OF RESEARCH AND REPORTS SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T CON1ENTS Page Summary and Conclusions 1 I. Introduction 3 II. Organization and Development of the Railroad System . 5 A. Administrative Organization 5 B. Characteristics of the Railroad Network 6 1. 1950 6 2. Pattern 6 3. Length 7 C. Demand for Rail Transport Service 8 1. Importance of Railroads as a Means of Transport 2. Commodity Composition of Freight Traffic ? 3. Demands of Foreign Traffic 4. Demands of Passenger Traffic D. Expansion of the Railroad System ? ? 8 8 9 9 10 1. Double Tracking 10 2. Electrification 10 3. Expansion of the Park of Rolling Stock . . ? . 11 4. Expansion of Internal Reserves 11 5. Conclusions 12 III. Rail Operations and Utilization of Facilities 12 A. Comparative Utilization of Facilities 12 B. Utilization of Rolling Stock 13 IV. Relationship of the Transport Sector to the Economy as a Whole 14 A. Transportation Price Policies 14 B. Effect of Transportation Prices on the Economy ? ? 15 C. Financial Returns of Railroad Enterprise 17 D. Labor Situation in the Transportation Industry 19 1. Results of Intensive Labor Practices 19 2. Labor Productivity 20 - iii - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Pae E. Program for Capital Equipment of the Railroads 21 1. Investment in Railroads 22 2. Material Inputs 24 3. Future Prospects for Inputs 25 V. Interrelationships of Capital and Labor Productivity 26 Appendixes Appendix A. Prewar and Postwar Structure of the Railroads in East Germany 29 Appendix B. Content and Use of Operating Ratios 33 Appendix C. Statistical Tables 37 Appendix D. Multiple Correlation Between the Index of Total Traffic Kilometers, Capital Produc- tivity, and Labor Productivity, 1951-57 . 57 Tables 1. Composition of the Financial Balance of Railroads in East Germany, 1956 18 2. Operating Ratios of Selected Railroads in West European Countries and East Germany, 1956 18 3. Net Investment in Railroads as a Percent of Total Investment in East Germany, 1951-55 and 1956-60 . ? ? 23 4. Composition of the Standard-Gauge Railroad Network in East and West Germany, 1936, 1950, and 1957 . . ? ? 30 - v - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S -E -C -R -E -T 5. Comparison of Railroad Systems in Selected European Countries, 1956 6. Basic Data on Railroads in Selected European Countries, 1956 7. Distribution of Inland Freight in East Germany, by Mode of Transport, 1936 and 1946-58 8. Freight Carried by Railroads in East Germany, by Type of Commodity, 1950 and 1955-58 Page 38 39 40 42 9. Freight Carried and the Average Number of Freight Cars Required for Each Type of Traffic in East Germany, 1950-58 43 10. Inventory of Rolling Stock of Railroads in East Germany, 1946-58 44 11. Revenue of Railroads in 1950-57 and Revenue Required to Meet Expenditures in 1958 in East Germany, by Type of Service 46 12. Profit and Loss Statement for Railroads in East Germany, 1955-57 47 13. Transport Employees in East Germany, by Mode of Trans- port, 1950-56 49 14. Wages and Salaries of Transport Employees in East Germany, by Mode of Transport, 1950-56 50 15. Product, Capital/Output, and Labor/Output Ratios for 1951-57 with the Estimated Annual Totals for 1958-60 Required to Fulfill the Plan for Railroads in East Germany 51 16. Estimated Investment in Railroads Compared with Total Investment and Investment in Transport in East Germany, First (1951-55), Second (1956-60), and Third (1961-65) Five Year Plans 52 17. Proposed Additions to Line Capacity of Railroads in East Germany, 1956-60 54 - vii - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Page 18. Estimated Value of Capital Stock of Railroads in East Germany, 1951-60 55 19. Annual Statistics for Railroad Transport in East Germany, 1950-58 56 Illustrations Following Page Figure 1. East Germany: Organization of the Min- istry of Transport (Chart) 6 Figure 2. East Germany: Transportation (Map) inside back cover Figure 3. East Germany: Indexes of the Growth of Ton-Kilometers, by Mode of Inland Trans- port, 1950-58 (Chart) Figure 4. East Germany: Indexes of the Growth of Tons Carried, by Mode of Transport, 1950-58 (Chart) Figure 5. East Germany: Comparison of Rates of Growth Between Domestic Tons Originated and Foreign Tons Carried by Railroads, 1950-58 (Chart) Figure 6. East Germany: Comparison Between the Average Number of Freight Cars Needed to Carry Railroad Tons Originated and the Average Number of Freight Cars Available, 1950-57 (Chart) Figure 7. East Germany: Relationship of the Index of Industrial Production to the Index of Railroad Ton-Kilometers (Chart) 8 8 10 Figure 8. East Germany: Revenue of Railroads, by Type of Service, 1950-57 (Chart) . . . 18 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T AN ECONOMIC ANALYSIS OF THE RAILROAD SYSTEM IN EAST GERMANY* Summary and Conclusions Rail transportation in East Germany in terms of operations and maintenance illustrates the Soviet practice of endeavoring to achieve maximum output from a railroad system with a minimum of material in- puts. Through the postwar period, by dismantling the railroads for reparations, the USSR reduced the railroad route network to essen- tially a single-track system with the removal of about 13,000 kilo- meters (km) of track principally from double-track and triple-track sections. Track length had been reduced from 27,400 km in 1936 to 14,400 km in 1950, approximately 47 percent. Moreover, during the early years after World War II, only a sufficient number of locomotives and cars were repaired and kept in repair to meet the greatly reduced demands for traffic. In 1938, approximately 22 billion net ton- kilometers (tkm)** of freight traffic moved on the railroads of the East German area. In 1946, only 8 billion net tkm were moved, but performance had reached 16 billion net tkm by 1950. Since 1952, performance of the East German railroads has increased steadily, to about 33 billion net tkm in 1958, an increase of about 100 percent. Additions to track length have amounted to about 12 per- cent -- 1,700 km -- so that in 1958 the railroads produced about 45 per- cent more net ton-kilometers with less than 60 percent of the rail track length available in the period before World War II (1938). Passenger traffic also has increased, although only moderately. Traf- fic was hauled with fewer locomotives and passenger cars than existed during the wartime period and about one-third more freidit cars. The density of freight traffic per kilometer of track in East Germany in 1958 was about 130 percent higher than 20 years previously as the result of the reduction in the length of the network and the increase in freight traffic. In 1956, freight carried had averaged 14,256 tons per route kilometer of railroad track. Comparable data for West Germany, Czechoslovakia, and Poland were 9,657, 11,317, and 9,765 tons per route kilometer, respectively. Passengers carried per route kilometer per year in 1956 were 69,312 in East Germany, 46,839 in West Germany, 40,249 in Czechoslovakia, and 39,702 in Poland. * The estimates and conclusions in this report represent the best judgment of this Office as of 1 April 1960. ** Tonnages are given in metric tons throughout this report. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T The average density of both freight and passenger traffic com- bined per available route kilometer in East Germany in 1956 made the East German system the most heavily used railroad system in either Eastern or Western Europe, exclusive of the USSR. This relationship has remained the same to the present time. In spite of the considerable increase in performance of East German railroads since 1950, the financial results of operations through 1957 grew steadily worse. To halt the deteriorating finan- cial situation, changes were made in tariff rates and rules in 1958 that should have done much to equate costs with earned revenue. Factor inputs into the East German railroads for the period 1951-55 were as follows: (1) operating employees increased approxi- mately 6 percent, with a computed increase of 26 percent in labor productivity from 1950 through 1955 and a planned increase of 14 per- cent in labor productivity for the years 1956-60, and (2) capital inputs were well below the planned levels, although productivity of capital rose an estimated 30 percent during 1951-55. The rise in capital productivity, in terms of traffic kilometers per unit of capital value, was due primarily to the underutilization of capital in the early years of the plan and to an increase of only 2.6 per- cent in the estimated net capital value of the railroads for the period. At present rates of growth in performance, the increase in capital productivity will be about 22 percent during 1956-60 with an estimated increase of 8 percent in net capital value, thus indi- cating a decline in the marginal productivity of capital additions to the railroad system. This decline is the result once again of underutilization of capital in early years and the fact that rela- tively little investment has gone into improved types of capital equipment or needed track capacity. Materials in the form of parts for rolling stock, ties, rails, and auxiliary metal parts are in continuing short supply. Efforts to augment domestic supplies with imported materials have been partly successful, but the entire quantity of materials contracted from Soviet and other European Satellite sources has not been forthcoming. The East German railroads generally have been able to handle the demands of both economic and military traffic, but because average demand is close to the capacity of the system, shortages of cars and yard congestion occur during periods of peak traffic demands in the fall and spring of the year. Accordingly, some delays in traffic are experienced during these periods, but eventually the railroads have been able to move all traffic offered. Operations are expected to continue in the current pattern through 1960, and complaints will continue to be voiced regarding the performance of the railroad - 2 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T system. Moreover, the over-all traffic plan of the Second Five Year Plan (1956-60) calls for a demand in 1960 of about 68 billion tkm, or an increase of 32 percent above that of 1955 (29.9 percent in freight and 2 percent in passengers). On the basis of past trends in utilization and the additions of capital, labor, and material inputs, it is estimated that the East German railroads at best will complete only about 70 percent of their planned goal for 1960. Carloadings are not growing at the rate originally set in the Second Five Year Plan. Failure to achieve the planned capacity for rail transport in 1960 is in large part a result of inability to meet other economic plans and will not impair general economic activity. Development of a transportation plan for 1960-65 has been prin- cipally a matter of enthusiasm and exhortation in East Germany, but in general this plan does not contain the substance to remedy the problems currently being experienced in the extensive program of capital additions, repairs, and renovations. Rail operations, there- fore, are expected to continue in the current pattern beyond 1960. I. Introduction The railroad network of East Germany is a prime example of the Soviet pattern of achieving maximum performance from the transporta- tion system with a minimum of capital input. The role of the rail- roads in the economy of East Germany has been that of a necessary service, tolerated because there is no substitute and improved only to the extent necessary to meet the demands of vital economic and military traffic. Because of their importance in the economic growth of East Ger- many, railroad facilities have been maintained and improved in rela- tion to the general pattern of economic growth in other sectors. Endowed with few of the raw materials necessary for the manufacture of heavy equipment, the East German economy depends heavily on its own transportation system and that of adjacent countries to provide for the movement of necessary raw and semifinished materials in every stage of production. Railroad service has kept pace with the growth of the rest of the East German economy as a result of a sustained policy of inten- sive utilization of equipment, enforced personnel policies, and - 3 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T absorption of reserve capacity in every phase of rail operation. Recent levels of replacement of equipment and investment in new fa- cilities represent a mining of earlier investment in the system that could lead to a serious reduction in the growth of capacity, if con- tinued beyond 1960. In the early stages of central planning in East Germany (1948-50), two alternatives for providing rail transport were available: (1) in- vestment in new, modern railroad equipment possessing high technical efficiency or (2) increased utilization of available, less efficient equipment and continued reliance on additional increments to opera- tional efficiencies for future increases in rail capacity. The first choice would divert the burden of increased transpor- tation capacity from relatively labor-intensive, low-output equip- ment and facilities to capital-intensive, labor-saving equipment. Such investment would seem to be the best long-run alternative for an economy with a planned heavy industrial bias that expects to have high-density, heavy-load traffic. The second alternative assumes some capital additions in quantity terms, but the major element of increasing capacity would come from intensified use of existing equip- ment and accelerated depletion of capital. Since 1951 the East German government has followed a plan closer to the second alternative. This choice was a product of the follow- ing conditions: 1. Among the industries competing for investment funds in East Germany, rail transport could be given a relatively low priority and still accomplish the desired traffic movement by more intensive utilization of existing equipment. 2. There has been a disinclination to absorb the real cost of scrapping obsolete equipment, such as aging steam locomotives and rolling stock, in spite of the fact that the introduction of modern locomotives (electric or diesel-electric) would increase actual route capacity in areas of high density and would yield operating savings which would amortize the initial cost. 3. The existing capability of the railroad system of East Germany for moving military forces and equipment apparently is adequate to satisfy the USSR. With reorientation of the directional flow of economic traffic from east-west to north-south as a result of changes in internal traffic demand, some of the rail lines torn - 4 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T up by the USSR have had to be replaced, but the east-west traffic capability remains adequate to provide substantial support for the military in the event of war. This consideration also may be a factor in limiting new additions to railroad line facilities. 4. The abundance of low-cost labor in relation to perform- ance required per man-hour in the early years of the East German First Five Year Plan (1951-55) probably created a preference for a labor-intensive, capital-exploitive program. This situation has now been reversed, and a shortage of qualified personnel exists in the transportation industry. Wages and administrative costs both have risen, the latter sharply. In view of the declining priority of investment in the transport sector, the additional tonnage carried by East German railroads has been the result of policies designed to extract a greater average output per unit of input of materials and labor. II. Organization and Development of the Railroad System A. Administrative Organization The Ministry of Transport and Communications of East Germany is a complicated organization, dominated by details and by a para- mount concern for problems of the railroad system as opposed to those of other carriers. The Minister of Transport and Communications, Eric Kramer, a former railroad official, has been retained in the position for many years as the best compromise between loyalty to the Communist Party and satisfactory technical knowledge of trans- portation. The First Deputy Minister under Kramer is the First State Secretary in charge of rail operations, thus reflecting the importance of the railroads as the dominant carrier. There is a Soviet consultant attached to the Ministry of Transport and Communications* who serves as an adviser to the Minister on rail operations and acts as referent on military (particularly Soviet) movements requiring the use of rail service. Other branches of transportation have deputy ministers, each with equal status but subordinate to the Minister. Under the Central Administration for Railroads there are five Main Administrations, each responsible for a particular phase * See the chart, Figure 1, following p. 6. - 5 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T of rail operations throughout the country. The country is divided into eight districts (Reichsbahn Directorates -- RBDis), each of which operates separately from the others but subordinate to the Central Administration. Coordination of RBD activity is handled by the five main administrations, which in turn get policy and co- ordination from the Central Administration and the Minister of Trans- port and Communications. Subordinated agencies of the railroads operate directly un- der the Central Administration, with functional units in each RBD, and consist of social, supply, health, and other subsidiary functions intrinsic to rail operations. Heavy repairs (other than standard maintenance) are separated from the Central Administration for Railroads and are supplied by an autonomous service agency from which the railroads purchase major re- pairs on locomotives and rolling stock. Administrative personnel below the level of the Minister have changed numerous times during the period 1957-59, mainly to eliminate the more obviously incompetent and to move into positions of responsibility those Party members who can work with Kramer. B. Characteristics of the Railroad Network 1. 1950 The physical damage from World War II and the postwar Soviet policy of dismantling almost all second tracks (on double- track lines) for reparations claims left the East Zone of Germany with virtually a single-track railroad system by 1950. As a result of this change, some of the less significant single-track routes were eliminated, and the major traffic flow was reoriented from pre- dominantly east-west movement to north-south movement. The redirec- tion of traffic from east-west to north-south came as a result of changes in the internal traffic pattern of East Germany and simul- taneously achieved a degree of isolation from the Federal Republic of Germany by severing some east-west lines that formerly connected the two zones of the country. 2. Pattern* The basic configuration of the East German railroad net- work has not changed appreciably from the pattern that existed before * For a map of the railroad network of East Germany, see Figure 2, inside back cover. - 6 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 EAST GERMANY ORGANIZATION OF THE MINISTRY OF TRANSPORT Soviet Consultant TRANSPORT MINISTER KRAMER TRANSPORT MINISTRY Figure 1 Deputy Minister First State Secretary Deputy Minister Deputy Minister Political Administration Deputy Minister Deputy Minister Director AGENCIES RUN ON TRANSPORT MINISTRY BUDGET Savings (and loans) Bank of German Railroad I I Central Technical Bureau Drafting and Surveying Bureau of German Railroad Experimental Stations 27467 4-60 Chemical Testing Station German Railroad Field Units and Subordinated Agencies Central Administrations and Administration Sections 5 MAIN ADMINISTRATION DEPARTMENTS Main Administration Department Operations and Traffic Main Administration Department Engine Technics Main Administration Department Railroad Car Economy Main Administration Department Railroad Installations Main Administration Department Signal and Communication Systems Main Administration Department Railroad Repair Plants Main Administration Department Railroad Construction Trust Main Administration Department Shipping and Waterways Main Administration Department Motor Vehicle Transportation and Highways Main Administration Department Air Transport SUBORDINAT.ED AGENCIES Railroad-owned Bank Administration Department Railroad Recreation Centers Railroad Medical Service Railroad Tank car Dispatching Office Central-accounting Section of Transport Ministry Central Purchasing Office for Roadbed and Track Material Central Reserves Depot Central Printed-matter Depot of Transport Ministry Railroad Tie Plant Centralized Train-Radio Service of German Railroad 27 Railroad Repair Plants Railroad Switch Plants 50X1 FIELD UNITS Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Headquarters Headquarters Headquarters Headquarters Headquarters Headquarters Headquarters Headquarters also also also also also also also also Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Railroad District Berlin Cottbus Dresden Erfurt Greifswald Halle Magdeburg Schwerin Railroad Subdistrict Central Supply Bureaus for New Headquarters also Depot (On Railroad District Construction also Direct chains of command Indicating Railroad Subdistrict Headquarters Level) Relevant Districts personal responsibility Individual Installations 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T World War II, but its capacity was reduced considerably by dismantl- ing for reparations. The railroad network is adequately dispersed and probably will have few new lines installed in the immediate fu- ture. The railroad network of East Germany is oriented around two rail hubs -- one large, one small -- with spokes radiating to cover the traffic needs of outlying areas. The most important hub, Berlin, has radial lines going to all parts of the country but with a preponderance going toward the south into the heavy industrial areas. The second most important rail hub, Leipzig, is in the heart of the industrialized, southern portion of the country. From this point, double-track lines deploy to the other industrialized cities in the area, and single-track lines radiate to outlying districts forming a dense rail coverage. Other important rail hubs are Halle, Dresden, Magdeburg, and Chemnitz, all located in an elongated tri- angle comprising the area of heaviest concentration of domestic traffic. Berlin and the industrial triangle to the south are both connected by rail with the Soviet and Polish mineral resources that are necessary to continued industrial production by East Germany. These rail lines to the sources of raw materials will become increas- ingly important as anticipated increases in traffic between East Germany and the USSR are realized. The capacity of several of these routes is to be increased by double tracking (largely restoration of removed second tracks) as soon as materials and labor become avail- able. The East German railroad network is complemented by a good system of inland waterways and a reasonably adequate network of long-distance highways and first-class and second-class roads. 3. Length The total route length of rail lines in East Germany in 1958 was 16,093 kilometers (km).* Of this total, 1,318 km were nar- row gauge (less than 4 feet 8-1/2 inches) and 14,775 km were standard gauge (4 feet 8-1/2 inches). 1/** Approximately 1,475 km of the standard-gauge route have two or more tracks, and at the end of 1958 approximately 160 km were electrified.*** * The latest year for which significantly complete data are avail- able on East German railroads is 1958. 50X1 *** For analysis of the structure of East Zone railroads, see Appen- dix A. For a comparison with other railroad systems, see Tables 5 and 6, Appendix C, pp. 38 and 39, respectively, below. - 7 - S-E- C-R-E- T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T C. Demand for Rail Transport Service 1. Importance of Railroads as a Means of Transport Railroads are the major carrier of inland freight and passenger traffic in East Germany. In 1958, railroads carried 48.4 percent of all tons originated and 82.1 percent of all ton- kilometers, motor transport carried 48.3 percent of all tons origi- nated but only 11.3 percent of all ton-kilometers, and inland water transport carried 3.3 percent of all tons originated in 1958 and 6.6 percent of all ton-kilometers.* The relative growth of the two major carriers (railroads and motor transport) under the First Five Year Plan (1951-55) was approximately equal. The 5-year trend showed an increased ton- kilometer performance but at a decreasing rate. During the first 3 years of the East German Second Five Year Plan (1956-60), the rail- roads continued to grow but at a decreasing rate. Motor transport, however, increased ton-kilometer performance at a faster rate than the railroads. Data on tons originated show a different pattern of growth.* Loadings of both motor and rail carriers were growing at an increasing rate, with motor carriers growing faster than rail- roads. The disparity between the rate of growth of tons origi- nated and of ton-kilometers is a result of the declining average length of haul by motor carriers -- from 22.3 km in 1950 to 18.8 km in 1957. The efforts of the East German planners to divert short- haul traffic from the railroads to motor carriers apparently have been somewhat successful. 2. Commodity Composition of Freight Traffic The nature and composition of freight traffic in East Germany remained relatively consistent through the period 1950-58 with few changes of significant magnitude. Coal and coke, the major commodities in rail freight traffic, increased from 42.7 percent of the total of tons loaded in 1950 to 46.3 percent of the total in 1958.** The second major commodity grouping -- other industrial and agricultural products -- represented 21.2 percent of total load- ings in 1950 and 12.7 percent of the total in 1958. The sharp decline * See Table 7, Appendix C, p. 40, and the charts, Figures 3 and 4, following p. 8, below. ** See Table 8, Appendix C, p. 42, below. - 8 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 300 250 200 150 100 EAST GERMANY Indexes of the Growth of Ton-Kilometers, by Mode of Inland Transport 1950-58 1950 27468 4-60 1951 1952 1953 1954 1955 1956 1957 Figure 3 50X1 Motor Truck Transport Railroad Transport Total Inland Transport Inland Water Transport 1958 Declassified in Part- Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 300 250 200 150 100 EAST GERMANY Indexes of the Growth of Tons Carried, by Mode of Transport 1950-58 1950 1951 1952 27469 4-60 Figure 4 Motor Truck Transport Total Inland Transport Railroad Transport Inland Water Transport 1958 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T is explained in part by the introduction of a "piece goods" category in 1952 that accounted for almost one-half of the decline. The abso- lute tonnages in other industrial and agricultural products retained the same ratio of loadings after 1952. The third most Important commodity group, building ma- terials (excluding cement), continued to represent a fairly consist- ent.percentage of total loadings. 3. Demands of Foreign Traffic Foreign freight received at the border that is destined for domestic consumption is included as part of total tons carried when such freight crosses the border into East Germany. Transit traffic is believed to be included in the figure for total tons car- ried, although East Germany does not indicate what proportion of total freight traffic that transit traffic represents.* Althouet foreign loadings generally have been less than 10 percent of total loadings, there is an implication of increasing imports and perhaps an implication that domestic production is be- coming more heavily dependent on foreign sources. Foreign loadings increased from 6.6 percent of total tons originated in 1950 to about 10 percent of the total in 1958.** Althouel this increase is diffi- cult to discern, it becomes more apparent when seen in terms of the growth of import tonnage alone. This increase was more than twice that of domestic tons or of total tons hauled during the same period. 4. Demands of Passenger Traffic Passenger traffic has changed little during the period 1950-58. In terms of the number of passengers carried, the increase was only 3 percent in comparison with the 9-year period, althoUgh passenger kilometers increased 15 percent during the period, indi- cating a gradual increase in the average distance each passenger. traveled. Although the total number of passengers has not grown appreciably since 1954, the density of passenger trains remains high and contributes to make the East German railroad system one of the most intensively used systems in Europe in terms of the average number of trains per route kilometer. * For a comparison of the relative growth of tons of domestic freight originated and tons of foreign freight received, see Table 9, Appen- dix C, p. 43, below. **. For a comparison of rates of growth of domestic loadings and of foreign loads coming into East Germany through border stations, see the chart, Figure 5, following p. 10. - 9 - S-E-C -R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T D. Expansion of the Railroad System The relative maturity and the uniform distribution of the East German railroad network tend to reduce the need for new routes. The situation in Berlin in 1948-49 caused East Germany to decide to construct a new outer railroad ring around the city in order to cir- cumvent Allied control, and the construction of the Schwarze Pumpe project (a coke-chemical plant utilizing low-grade lignite) required construction of a new railroad line to service it. Aside from these two projects, construction of new railroad lines in East Germany has been kept to a minimum. Most main lines, however, have such heavy traffic that alter- native routes involving longer distances have to be used to relieve them. 2/ Rail facilities have been expanded to meet increased demands of traffic. Thus increases in track capacity that were added during 1950-58 have come from double tracking and from reinstallation of some double track removed by the USSR. High-density traffic has been aided further by electrification of lines, by increases in rolling stock and locomotives, by heavier loading, and generally by more in- tensive utilization of existing equipment. Any efforts at expansion probably will be confined to annual additions to the following projects, the rate of completion being largely determined by the priority of each project. 1. Double Tracking Double tracking has been limited to stretches of line on which there is high-density traffic, such as Leipzig-Dresden, Halle- Songehausen-Nordhausen, j Gothe-Neudietendorf, Leipzig-Torgau- Falkenburg, Lq and some lines to the expanding ports of Wismar and Rostock. The new double track has been laid on roadbeds that re- mained after Soviet seizures for reparations. Annual additions to double track have been small, but future additions may be greater because traffic is expected to continue to grow and present capacity is very close to the present demand for traffic. 2. Electrification Electrification has been limited to the rail line between Halle, Magdeburg, Leipzig, and Rosslau. Eighty-six km of this line were under electric operation at the end of 1957, 2/ and an additional , section of 74 km became operable in 1958. Y This stretch of track originally was electrified and double tracked but was reduced to single-track steam operation by dismantling for reparations in 1946 and 1947. The electrification, therefore, is basically a replacement - 10 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 300 250 200 150 100 EAST GERMANY Comparison of Rates of Growth Between Domestic Tons Originated and Foreign Tons Carried by Railroads 1950-58 1950 27472 4-60 1951 1952 1953 1954 1955 1956 1957 Figure 5 Foreign Tons Carried Domestic Tons Originated 1958 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T effort and does not portend large-scale conversion of East German railroads to electric traction. The Second Five Year Plan calls for an increase of elec- trified line to a total of 400 km by the end of 1960, 1/ although this plan probably will not be achieved. The plan substantially ex- ceeds demonstrated ability for construction in recent years. 3. Expansion of the Park of Rolling Stock Additions to inventory of 17,000 new freight cars, an unknown number of double-decker passenger cars, and 485 locomotives originally were planned for 1956-60.* _8,/ These targets are consider- ably higher than the annual rate of new car acquisitions made in the past, and, in the light of previous performance, the possibility of fulfilling such a plan for acquisition seems remote. Failure to in- crease the rate of car replacement in an aging car park (the average age being from 30 to 35 years) will lead to accelerated depreciation of existing cars and locomotives through more intensive use. 4. Expansion of Internal Reserves Increases in the capacity of the railroad system of East Germany have depended on improvement in operating efficiency and will be reflected in improved operating ratios.** Attempts to make ra- tional use of the inherent advantages of each of the modes of trans- portatlon through schemes to shift short-haul freight and less than carload lots of freight to highway transport and to shift certain bulk freight to inland water transport was primarily directed at re- lieving future expenditure for added rail capacity. The Second Five Year Plan provides that inland transport carry 32 percent more goods in 1960 than in 1955. 2/ The plan also calls for more intensive utilization of rolling stock by the reduc- tion of the amount of cross-haul traffic, of uneconomic long-haul traffic, and of the turnaround time of freight cars. Loading and unloading practices are planned on an around-the-clock, 7-day week schedule, with a total increase of 4.9 percent in the average load per car during the 5-year period. 12/ The improvement of operating efficiency should enable the railroad system of East Germany to increase over-all capacity to some degree, with little capital outlay. The result, however, will be continued depletion of what little reserve is left in the system. * See Table 10, Appendix C, p. 44, below. ** For an explanation of operating ratios, see Appendix B. - 11 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T 5. Conclusions Future expansion of facilities and inventory of the rail- road system of East Germany will depend on increases in the quantity and the quality of labor, the availability of necessary material in- puts, and the cooperation of shippers and railroad men in improving the operating indexes. Train density is so great on this essentially single-track system that rerouting traffic to avoid congestion on main lines is standard practice. This situation calls for restora- tion to main lines of significant amounts of second track removed for reparations to the USSR. Electrification of the rail lines of very high traffic density would be advantageous, and more flexibility and reserve operating capacity in signaling facilities and dispatch- ing techniques can be achieved and would be useful. The planning organization of the Ministry of Transport and Communications of East Germany must be acutely aware of the de- lays and consequent cost of current operations of the railroads. The planners also must be aware of the need for greater investment as well as for improved operating indexes. These same planners con- stantly plan in terms of goals that are unattainable because of the priorities given to inputs in other sectors. With the given alter- natives and with current East German industrial goals, the choice has been to exploit the available capital structure of the railroads (and other nonindustrial sectors) in favor of industrial objectives. Should rail transportation become a significant and costly bottleneck to in- dustrial expansion, the structure of priorities may be expected to change. Additional funds would have to be invested in the railroad network to assure its satisfactory performance. If domestic resources were not adequate to remedy the situation, greater external aid from the Soviet Bloc would have to be forthcoming. III. Rail Operations and Utilization of Facilities A. Comparative Utilization of Facilities Rail operations in East Germany emphasize rapid turnaround of transport equipment. The railroad system is characterized by a high density of train movement with relatively low net loads per freight train and frequent passenger train service. This type of rail operation requires both an efficient dispatcher and an effi- cient car control system, with the essential ingredient for success being coordination and smoothness of all the operating phases. The above operational procedure leads to a high average density of freight trains per route kilometer per day -- approximately 16 trains in East Germany compared with 7 in Czechoslovakia and 14 in - 12 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Poland. For a railroad system using steam locomotion that has ap- proximately 10 percent of its length double tracked and only 1 per- cent electrified, the East German railroad system has very high train density. The performance of East German railroads on the basis of tonnage per route kilometer per year for 1956 is 14,256 tons compared with 11,317 for Czechoslovakia, 9,765 for Poland, and 9,657 for West Germany.* The basic test of performance of any railroad system, however, is that of freight ton-kilometers in relation to the total railroad network for a period of time. In such a comparison the freight ton- kilometers per route kilometer per year of the East German railroad system is about 77 percent of that of the Czechoslovak railroad sys- tem and about 90 percent of that of the Polish railroad system. East Germany, considering its small size and its method of operation, has one of the most intensively used railroad systems in the Soviet Bloc and certainly one that is more intensively used than the rail- road systems of Western Europe. B. Utilization of Rolling Stock The working freight car park of the East German railroad sys- tem on the average is adequate to meet domestic demands for loadings, although there are localized and temporary shortages of particular types of cars. These shortages result from problems of distribution rather than of an insufficient supply of cars. Shortages of most types of cars do occur during peak traffic periods (normally March through May and September through December) when the greatest vol- ume of carloadings occurs. Requirements for cars during these peak periods are met by withdrawing cars from economic and military re- serve parks and by holding more foreign cars on the system. In recent years the management of East German railroads has found it more and more difficult to return such reserve cars to their parks, indicating that there is a growing need for more working freight cars than are maintained on the average.** The use of foreign cars may be easily accomplished, if such cars are available, through rental agreements. In the short run, such a policy is a less ex- pensive means of providing the necessary cars to meet peak load traf- fic than investment in new cars would be. The plan for 1956-60 calls for the addition of 17,000 new freight cars to the East German car park. To meet this goal, the annual rate of acquisition would have to average 3,400 cars. During the first three quarters of 1957, only 1,704 freight cars, 11/ or * For additional comparisons, see Tables 5 and 6, Appendix C, pp. 38 and 39, respectively, below. ** See the chart, Figure 6, following p. 14, and Table 9, Appendix C, p. 43, below. - 13 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T one-half of the requirements to fulfill the annual Plan. were added to the car park. failure to fulfill plans for acquisition of cars has been a normal occurrence in past years, and unless commitments by countries of the Soviet Bloc to export cars are changed or unless production is increased, there is small possibility of East Germany acquiring its planned number of new freight cars by 1960. IV. Relationship of the Transport Sector to the Economy as a Whole There has been a direct, almost coincidental, relationship in the rates of growth of transportation and of industrial output in East Germany, with a very high positive correlation.* A. Transportation Price Policies The rate and fare schedules of the East German railroads are believed to be largely a result of historical precedent. From 1949 through 1957, no major adjustments were made either in freight rates or in passenger fares, although costs during the same period increased sharply. Efforts to bring revenues in line with costs, principally through attempts to decrease operating costs, have been unsuccessful. In September 1957 the Minister of Finance issued an order instructing railroad officials to increase freight rates in 1958 in order to raise the revenues from rail transportation by 90 million DME** above the level of 1957. 12/ In execution of this directive, a new system of freight rates, which was to become effective on 1 January 1958, was set up. Di The essential features of this new system are as follows: 1. A basic rate of 20 DME is charged for each axle of the car regardless of the commodity to be shipped or the distance that it is to move. 2. Each car is to be weighed at the dispatching station (or at a station en route) at a charge of 5 or 6 DME. The previous charge was 1.60 DME. 3. The number of classes of tariff are reduced to a maximum of 10, of which Classes I and II are reserved for special rates on favored commodities. Rates run from 1 pfennig per ton- kilometer for Class I to 10 pfennigs per ton-kilometer for Class X. * See the chart, Figure 7, following p. 14. ** Deutsche Mark East (East German marks). Values of DME in this report are expressed in current marks and may be converted to dollars at the rate of exchange of 4.2 DME to US $1. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 EAST GERMANY Figure 6 Comparison Between the Average Number of Freight Cars Needed to Carry Railroad Tons Originated and the Average Number of Freight Cars Available 1950-57 [_] V*17, Number needed Number available 81,400 82,028 1950 28815 4-60 1951 1952 1953 1954 1955 1956 1957 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Figure 7 100 EAST GERMANY Relationship of the Index of Industrial Production to the Index of Railroad Ton-Kilometers 1950-58 11 Industrial Production Railroad Ton-Kilometers z 142 127 160 149 176 161 190 176 202 181 1950 1951 1952 1953 1954 1955 1956 27470 4-60 217 191 241 201 1957 1958 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 100 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T 4. Zones of freight distances are established for com- puting distance of each haul. 5. A wide variety of special rates on such items as fertilizers, coal, milk, and animals is discontinued, 1V and the postal system is charged higher rates. 6. Rebates are given to those consignors who can ship trainload lots of 80 axles or more from one area to another with little need for classification and handling in freight yards. II/ These rebates are designed to accommodate bulk shippers of coal, coke, ores, fertilizers, and perhaps the uranium ore shipped to the USSR and provide a convenient device to decrease rates on domestic freight if shippers of bulk commodities can organize consignments in 80-axle (or more) train lots to a single consignee. These con- signments reduce considerably the handling costs en route, and the savings are passed on to consignors as an incentive to ship in large quantities. The reasons given for these charges in freight classes and rates are numerous: the need to increase total revenue derived from railroad service, diversion of certain types of freight to other modes of transport, convenience and simplification of computing freight rates by shippers, and better utilization of freight loading space. The major impact of the changes is going to be a higher cost to shippers for transportation service and a closer equating of rail- road cost with railroad revenue. The new changes in rail freight rates are not a radical de- parture from the system formerly used. They represent a simpler classification but still incorporate a computation of rates on the basis of weight, distance, and commodity carried. The charge per axle may reduce the tendency of shippers to order more capacity than they need to insure getting a fixed amount of space required. This charge should exert its greatest influence in reducing the use of rail service for short hauls. Indeed the net effect of the rate changes has been to increase the individual charge per year by a fixed amount that will have the effect of improving the position of the long-distance user. B. Effect of Transportation Prices on the Economy Under the First Five Year Plan the subsidization of rail- roads and other carriers had the effect of spreading the cost of transportation among enterprises and individuals with little regard to the degree to which these groups used transport services. Thus transport prices favored heavy users of the transportation system, - 15 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T and in turn the transportation system was subsidized by groups that provided the bulk of state revenue. Such practices, not uncommon in many Western European countries where transportation is a government- owned service, do not diminish the over-all cost to an economy of transportation services but do distribute that cost among the eco- nomic sectors somewhat differently than would prevail if users were required to bear their full share of the cost. The major effect of such subsidy payments on the transporta- tion system may well be caused by the operators themselves who, faced with a seemingly uneconomic ratio between cost and revenue, attempt to make the situation appear more favorable by cutting away at those costs that in the long run are necessary but in the short run may be deferred. Such costs include maintenance of facilities and reserve for depreciation. Reduction of these expenditures tends to increase the hazard of current operations and to defer replacement of equip- ment but does not reduce the cost of transport operation, rather de- ferring what is logically a current cost to future years. The immediate impact of the new freight rates will be a larger domestic freight bill. This larger freight bill will cer- tainly be accompanied by many internal readjustments in prices (factor costs) because of the increase in the percentage of total industrial costs represented by transportation charges. Industries that formerly occupied favored positions because of preferential freight rates may now find that they can no longer maintain the price structure of 1957, absorb increased freight charges, and still show a profit. This change will mean an increase in cost for every industry that uses rail transport. This higher cost will temporarily disrupt the established patterns of factor costs, and the planning organiza- tion will have to make internal price adjustments to compensate for the distortions that will result. The changes that do occur in the price structure will affect the production function of each industry that uses significant quan- tities of transportation as a component part of its processes. The nature of the manufacturing process will determine whether or not each plant can substitute inputs with a lower relative transport cost into its production. In most industries, substitution will not be possible, and the increased cost will have to be absorbed or passed on in the form of higher prices. No matter what the final effect of increased transportation costs is, a close approximation of railroad revenue with real costs should enable East German planning authori- ties to assess more accurately the position of transportation as an economic sector in the East German economy. - 16 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T C. Financial Returns of Railroad Enterprise Information available on the financial status of East German railroads shows that deficits have occurred from rail operations every year since 1951, if profits are computed on the basis of plan expectations. A computation based on actual revenue derived minus incurred costs (it is not known whether these costs are current operating costs or total costs) shows that deficits from rail opera- tions have occurred in every year since 1953. Deficits have in- creased steadily since 1953, and the annual subsidy required from central government sources has become a very significant proportion of total revenues, reaching 29 percent of railroad revenue derived from all sources and expended in 1957.* The annual cost of total rail operations to the East German economy may be expressed by comparing total incurred cost with total earned revenue, thus reflecting the total gross subsidy required from central budgetary sources to keep the railroads in operation.** This comparison contains all costs from current operations, includ- ing reserves for obsolescence and depreciation plus annual capital charges and expenses, and can be referred to as the gross operating ratio.*** This ratio in 1956 was 134, indicating that 134 DME were incurred as costs to the economy for every 100 DME of earned revenue. The net operating ratio, which includes only current operat- ing expenses exclusive of annual capital charges and expenses, was 118. These operating ratios are compared with the operating ratios of rail- roads of Western European countries in Table 2.**** Because of different internal financing arrangements, the dif- ferences between the two ratios for each country are accounted for by the annual capital charges and expenses that are included in the gross operating ratios. For East Germany this annual difference is equal to the amount of net capital expense incurred during the given * The total revenue in 1957 was comprised of earned revenue of 2,600 million DME, government subsidy on current account of 601 mil- lion DME, and 482 million DME for capital investment, for a total of 3,683 million DME collected and expended by the railroads. ** See Table 1, which follows on p. 18, below, and the chart, Figure 8, following p. 18. *** Gross operating ratio as defined above should be distinguished from net operating ratio, which is a measure commonly used to express a quick, although crude, picture of the current financial position of a railroad. A ratio higher than 100 indicates that current operating expenses are higher than earned revenue. For a complete explanation of the concept of gross operating ratio, see Appendix B. xxxx Table 2 follows on p. 18. - 17 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 1 Composition of the Financial Balance of Railroads in East Germany 2/ 1956 Million Percent Item Deutsche Mark East of Total Operating expenses 2,949 88 Capital charges and ex- penses12.1 398 12 Total cost 3,347 100 Earned revenue 2,506 75 Subsidy 841 25 Total revenue 3,347 100 a. See Tables 11, 12, 18, and 19, Appendix C, pp. 46, 47, 55, and 56, respectively, below. b. See Table 16, Appendix C, p. 52, below. Table 2 Operating Ratios of Selected Railroads in West European Countries and East Germany 1956 Operating Ratios Railroad Gross Net East German Railroad System 2/ 134 118 West German Federal Railroad12/ 132 105 Austrian Federal Railroad b 129 129 French National Railroad b 109 105 Swedish State Railroad b 103 99 a. See Appendix B. b. ly -18- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Figure 8 Million DME 5,000 4,000 3,000 2,000 1,000 900 800 700 600 500 400 300 200 100 90 80 70 60 1950 EAST GERMANY Revenue of Railroads, by Type of Service 1950-57 .. . 1 ? ? . i 4 .. .,,.....2..4...?L_ILL.----:-t.:,-_----7. :.. _ .._ . 1,4,- , , f . it t- ! ? . 4- 71--7-"r...."-4-:.:47-..;:i .. tTotal Reichsbahn7ReVentie:-.--,--?z- .. - ? - --. 147. '1: ' '` , ., .., 4 . .. 4-_-..-4--? ? . .44_ ? -- ----17. ".-t -..L '-.1 '.- : -.., 47.t:74.41:444.1. --77.4-4 -4:. 74.:'' '7' -'-.t-: i -.4.-1 ? ', ? -: -, - t --`-.-1--t- . 7 i ? 14. t r - - :-.,:...: ' ..-- j' '.. ?:. --"1:.*r. ; ---:-F-rle.:1 ht.Revenue ? 'I, '.1.... --,?-t- : - 4- '---i? . . - - . ! ? t T ? t .I . i . . . ? ,-,9 -t-, ? 4 i ? . i . 1 .- - - -. - . - .-.71-... ? ?.-1,-.- _ ,- - ,? ? --..., .?--,:.-.' ..-:-.-.-.....----????1---.."..i'-..-7::''-' ?Passenger,. """ 77 Revenuii....,-- --,????.-i- 7" -,- - -"-.-------. ' .---.- 1 1- .,..., -1-1--- ,- :--7?:-,-1-4-2-, ? , 4 1 . ? , - 7 ----7- t , , -4_ 4-7-- .-.---.--11-1.74::: .7 ,--!---,-- .- ' -t-- ,- , Fr . 77 +1 . -T-1 7.- .. -7- -..+-1741--'17i-.... 4.4.7 -7 ,...,.4. 1.- , :1- I ?_--_;-.4.. . ? .-T - T1- ? ! :r ---4. _ ,..,..1._,._,..... 1-.....1.:,----4-_,"-7---'1:-. J 1- .1 . ? ., . - -? _., ' 44 .1. i . i-..---....-,- ? -.t-----.: ,L .,----- , ' ..... --:.z.t.....f. 1 t." . i ..1-?.1..:. .,7 ----r ? 47,- -. ., ...,.. - , r - ? . t- .I. t -+., ;-4 l' : .; 4 ft .. -. ? ,, ,_,_ I +4:=-1,1. ' _. . -. ; ? I ... -rt " . ' -....4. ? - , - 4--_-__.4 '; . ?? -1,-+ . " ' ___ . ;4 1 -.--.? . , , ; ; - . ? i ; , ; 1, . : , 1 , .. -:.,..-_!--0,-=r-,, I f 4 I, I - ? -...',-1-_?j_........._,.: ' _4. S-Bahri-Reitenue1- -,.., _.... ? ' .4 . - 1 i ; t ,....._..... -..t-H-'-- t-1-4--.4 _LI_ / Trrt- .. --- t---,.. ._ .,...,... . ? ? ? I:- __ _ _ -1 - ----- _i_ ? ,! ___,_ . , .1-4------ ? ."-. 7' : '4-1: 4. ? ? . ? . , - - -? - .4.. i-i- ? ? -,., -4------------t 1: : ; :4 t"i; ? ? .: . -t- .....; i - . : .4 . ? 1:'??"' ? -1:-.7.. -4 . fff . :74t4 fr ' . 7F.!--- .-.:.----_-.4--,..+ 27471 4-60 1951 1952 1953 1954 1955 1956 1957 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T operating year; for other countries, capital charges from previous periods also may be added. For a period of time this disparity in computation would not affect the comparison. ? D. Labor Situation in the Transportation Industry Rapid growth in labor productivity is the device that East German planners hope will provide the increased capacity needed on East German railroads through 1960 and probably through 1965. An article on the prospect for the railroads for 1961-65 in the official railroad newspaper of East Germany states: "There should be no doubt about the fact that the Deutsche Reichsbahn gast German rail- roadE7 cannot count on a larger number of workers and employees un- til 1965 and that the higher tasks can only be solved by an increase in the productivity of work." 1// The objective and problem of all East German rail operations is to rationalize the available working force into a system whereby the available equipment is continuously used in assembly-line fashion on an around-the-clock, 7-day week schedule.* The necessity for the continued intensive organization and use of labor arises from the shortage of qualified personnel for skilled positions and the consequent necessity of using those un- skilled laborers available in positions for which they can seldom be properly prepared. Because of general labor shortages and prob- lems of replacing employees lost through attrition of one form or another, administrative reorganizations and employee innovations have been introduced in both the East German First and Second Five Year Plans, each ostensibly designed to make the role of labor in greater railroad capacity an increasing proportion of the total. 1. Results of Intensive Labor Practices The effects of the reorganization of operations to uti- lize both men and equipment more efficiently have not been up to original expectations. Deputy Minister for Transport Robert Menzel wrote on 16 December 1958 that it is "quite clear that organiza- tional shortcomings in the Deutsche Reichsbahn gast German rail- roadg have reached a point which calls for drastic countermeasures." lf./ Continuing, he pointed out that in spite of achievements in gaining high loading capacity in tons, the quality of handling both cars and freight is low. * For a breakdown of the total labor force in transportation and of the wages paid for the years 1950-56, see Tables 13 and 14, Appendix C, pp. 49 and 50, respectively, below. - 19 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T The serious increase in delayed arrivals of trains, the increasingly high rate of damage to cars and freight, the multitude of work competitions, and the extensive number of shunting operations per average distance moved are all outward manifestations of the drive for greater performance per man-hour and the overriding em- phasis on increases in quantity. The real economic cost is increas- ing rapidly. The rate of damage to cars in the Schwerin railroad district rose in 1958 more than one-third above the rate of damage noted in the first half of 1957. 12/ Other evidence of the effects of the intensive pressure on railroad personnel is the growing incidence of illness, which in itself may be a passive form of counteracting the long working hours that are often required (mostly unpaid) in spite of a legal maximum 45-hour week. In the first quarter of 1958 the average absenteeism because of illness alone rose to 9.8 percent of the railroad working force; the average for 1955 was 5.8 percent. At any given time, ap- proximately 29,000 employees are absent because of illness. The annual loss in man-hours from this type of absenteeism, the loss of hours from normal vacation.leave, and the actual loss of men through defection to West Germany compound an already serious shortage of personnel that the East Germans themselves concede does not have an immediate solution. Although increases in labor productivity have occurred recently, the significance of such increases in terms of man-hours is difficult to assess, for the total number of hours, including all overtime hours, required to complete the work is not available. The emphasis on performance in quantity evidently has had an adverse ef- fect on the quality of work performed, thus reducing to a degree the advantages of increased productivity. 2. Labor Productivity Although the total labor force on the railroads has de- clined since 1954 and currently is believed to be about the same num- ber employed in 1953, these losses of personnel have been mitigated to a degree by quantitative improvements (apparently at the cost of quality) in average performance per employee. The average perform- ance per operating employee in 1951 was 176,300 traffic km per year; by 1957 it had increased to 239,900 traffic km, an increase of 36 percent in comparison with 1951.* Between 1954 and 1957, East Germany achieved an increase of about 5 percent in average annual performance per operating employee while sustaining a reduction of 5 percent in the number of operating employees for the period. See Table 15, Appendix C, p. 51, below. - 20- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Future increases in the productivity of railroad operat- ing personnel will depend primarily on the performance of those operating and service personnel employed in railroad construction, maintenance, and repair and on technical improvements in railroad equipment. Turnaround time, average load per car, speed between stops, and total tons per train often depend on factors not involv- ing operating employees, maintenance crews, repair mechanics, load- ing and unloading labor, and shippers. For the above reasons and because of the currently high average number of man-hours worked per employee per week, future increments in labor productivity must come increasingly from labor- saving additions to the capital plant rather than from the further reorganization of labor practices. E. Program for Capital Equipment of the Railroads Of the 55 billion DME scheduled for investment in the East German economy during 1956-60, about 5.9 billion DME are allotted to transportation. Investment in transportation during 1956-60 can be summarized as follows*: Planned Investment for All Transportation and Telecommunications Million DME Transportation Railroads, approximately 65 percent of total transportation (an average of 770 million DME per year) 3,848 Other transport, 5-year period (an average of 400 million DME per year) 2,052 Subtotal 5,900 Telecommunications (approximately 10 percent of total) 700 Total 6,600 * For more detailed analysis of investment relationships, see Table 16, Appendix C, p. 52, below. - 21 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T 1. Investment in Railroads At the current rate of investment, East Germany will not be able to fulfill the investment planned in railroad transportation under the Second Five Year Plan (1956-60). In order to achieve under the plan the investment of 3,848 million DME in railroads, the average annual rate of investment would have to equal 770 million DME. In 1956, investment was planned to be 673 million DME, or approxi- mately 100 million DME too low on an average annual basis. The in- vestment plan of 1956 was fulfilled by only 59.1 percent, with an actual expenditure of 398 million DME, or 275 million DME below the plan. In order to compensate for this lack of fulfillment in the first year of the Second Five Year Plan, investment for the remain- ing 4 years would have to be programed at an average annual rate of 863 million DME, a goal far beyond the capability of East Germany un- less that country drastically changes the structure of investment priorities. Estimated investment in railroads under the Second Five Year Plan is not expected to be more than 68 percent of the original plan figures of approximately 3,848 million DME. On this basis it is estimated that maximum investment in railroads will not be more than 2,620 million DME for the 5-year period and that minimum investment could be as low as 2,000 million DME. If the plan is fulfilled by 68 percent (2,620 million DME), this figure in itself will represent an increase of 65 percent, a con- siderable increase in absolute terms above actual investment under the First Five Year Plan (1951-55). This figure, however, will represent a decrease in the share of total investment allocated to the railroad system by East Germany. The proportion of net investment in railroads to total in- vestment in East Germany for the First and Second Five Year Plans is shown in Table 3.* In spite of a proportional decline in relation to total investment, investment in railroads in 1956-60 will represent a siz- able increase above that of 1951-55. An increasingly larger propor- tion of actual capital expenditure, however, will be invested in capital maintenance, capital repairs of over-age locomotives and roll- ing stock, and extensive replacement of track instead of in capital acquisition or formation. * Table 3 follows on p. 23. - 22 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 3 Net Investment in Railroads as a Percent of Total Investment in East Germany a 1951-55 and 1956-60 Percent of Total Investment 1951-55 1956-60 Planned Actual 7.0 5.5 7.0 4.8 (Estimated) a. From Table 16, Appendix C, p. 52, below. Evidence of the increasing necessity for an accelerated program for replacement of track is that plan announcements for 1961-65 call for doubling the track renovations under the Third Five Year Plan (1961-65). 22/ The renovation plan is designed to elimi- nate the slow-speed stretches that currently act as a bottleneck and are a prime contributor to the increasing number of late train ar- rivals. Plans for renovation of tracks include installation of heavier rail so that loadings of 21 tons per axle would be permis- sible on all main lines. Such an improvement would permit heavier trains and would contribute significantly to increased capacity for tonnage. The considerable discrepancy between planned and accom- plished renovations and additions to capital equipment from 1948 to 1958 has been a major factor in the limited Improvement in the capital structure of the railroads. Much of this discrepancy has come from the inability of the Ministry of Transport and Communications of East Germany to procure the quantities of materials and finished capital equipment necessary to utilize fully the investment funds provided. The problem has resolved itself (particularly in the early years of the First Five Year Plan) into one of inability to procure the planned investment goods rather than a problem of getting a sufficient allot- ment of funds with which to buy these goods. Under the Second Five Year Plan (1956-60), both the allotment of funds and the procurement of materials have become increasingly serious problems. This situa- tion results from two conditions: (a) the need of East Germany to put heavy investments in sorely lagging sectors of the economy, such - 23 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T as electric power and coal, and (b) the fact that the capital struc- ture of the railroad system is falling further and further behind the level necessary to maintain some equilibrium with the demands placed on it. Future plans, therefore, will require proportionately larger outlays to attain given requirements for capacity than would have been necessary in previous planning periods simply because of the necessity for large-scale replacements of existing capital equipment. Future outlays of capital will not add greatly to total numbers of freight cars, althou& capacity will increase if there is sufficient substitution of new 4-axle cars with capacities of 25 tons to 30 tons or more for 2-axle cars of 15-ton to 20-ton capacity. Because indus- trial shipping arrangements are geared to the smaller cars, the East German railroads will have to create the prerequisites for the em- ployment of these cars. 21/ 2. Material Inputs A major problem confronting the East German railroad sys- tem (in the past and the present) is obtaining materials in sufficient quantities to maintain adequately and to improve the railroad network and rolling stock. War damage and reparations for the USSR left a single-track railroad system that was adequate to haul the 38.7 bil- lion combined freight and passenger kilometers in 1951. In 1958, however, combined freight and passenger kilometers had increased about 40 percent and yet were being carried on about 12 percent more track capacity than was available in 1951.* Much of the track structure in current use has not been adequately maintained or replaced since before World War II. This condition has been one of the principal causes of the accelerated rate of rail breaks, which in turn have been the result of a "patch- work" maintenance program largely dictated by shortages of necessary materials. The shortage of materials stemmed from Soviet confisca- tion of all available maintenance materials during 1946-49, when the tracks were being dismantled. Subsequently the First Five Year Plan for reccnstructing 2,300 km of track was only about 5 percent com- pleted by the end of 1953. 22/ In 1954 and 1955, 450 and 772 km, respectively, of track reconstruction were scheduled. 23/ Actual completion in those 2 years is not known but is estimated to have been 150 to 200 km of track per year. The First Five Year Plan for reconstruction of track was largely underfulfilled. The reconstruction of track seems to be * See Appendix A. - 24 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T programed on a smaller average annual rate of increase than it was during the first plan period in spite of the need for greatly ac- celerated reconstruction. Current planned reconstruction of rail- road track is about 250 to 300 km per year, with hopes of completing an average of 350 km of track annually under the Second Five Year Plan. This planned figure is 110 km less than that planned for 1950-55 and represents about one-half of the normal annual addition of 770 km recommended by a commission appointed in 1953 to determine what capital additions should be made to the railroads from 1956 throudi 1960.* Availability of material is one of the major problems currently facing the East German railroads. This desperate lack has forced a policy of "patching" for current maintenance and a virtual moratorium on replacement of significant quantities of rail line. The situation has reached the point at which limited line capacity and yard capacity are making it unprofitable to add large amounts of rolling stock because of the inability of the railroads to handle the additional numbers without causing increased periods of congestion. The prospects of any large-scale Improvements in the sup- ply of materials are almost wholly dependent on increases in supply coming from outside sources, probably from the Soviet Bloc. With the exception of the USSR, which fulfills a greater proportion of its ex- port commitments to East Germany than does any other country, few countries have been willing or forced to supply the quantities of material needed by the East German railroads. 3. Future Prospects for Inputs If replacements and additions of railroad equipment and rolling stock can more than compensate for the rate of deterioration plus the increased traffic demands, the current operating difficulties of the railroads can be solved. There is no evidence that these operating difficulties are being solved. On the contrary, many breaks in the rails, late train arrivals, damaged freight, labor problems, inefficient repairs, and shortages of materials are increasing. In an address to senior officials of the Ministry of Transport and Communications in January 1959, the Minister, Eric Kramer, criticized the above problems as the "calamitous conditions prevailing within our railways in some fields." ELV Calling for support from senior officials and threatening "functionaries who are not living up to socialist efficiency," 22/ Kramer predicted that a * See Table 17, Appendix C, p. 54, below. - 25 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T solution to the outmoded and careless methods would be worked out. Although he was speaking primarily of shortcomings of personnel and physical deterioration of equipment on the railroads, he was imply- ing that solutions to shortages of factor inputs have not as yet come forth. Problems of administration, capital, and labor have grown more complex as traffic demands have increased. With no ap- parent change in the fundamental economic approach to solving short- ages of rail transport, these problems can be expected to remain largely unsolved in the next few years. V. Interrelationships of Capital and Labor Productivity If the volume of traffic increases in accordance with the direc- tives of the original Second Five Year Plan (1956-60), performance in traffic kilometers will increase 32 percent above that of 1955.* In absolute terms this figure means that the volume of traffic in 1960 may equal approximately 68 billion traffic kilometers (the volume in 1955 equaled 51.6 billion traffic kilometers), 76 percent greater than the volume in 1951. Discounting such intangible factors as large increases in ad- ministrative efficiency, there are only three ways that East Germany could hope to gain the desired performance of 68 billion traffic kilometers by 1960: (1) by increasing labor productivity sharply and making large additions to the operating labor force while hold- ing capital relatively stable, (2) by making large net additions to the capital structure of the railroads in the form of labor-saving equipment (a difficult task in 2 or 3 years), and (3) by increasing both capital and labor, maintaining the approximate ratio of capital to labor that existed under the First Five Year Plan (1951-55), and hoping for a combined increase in productivity to equal the desired performance in traffic kilometers. By 1960, according to its own announcements, East Germany has planned to increase labor productivity 14 percent -- no increases in the labor force being mentioned -- and to provide twice the volume of funds for investment that were provided under the First Five Year Plan. These planned factor increases are supposed to achieve the expected performance in traffic kilometers. It is estimated, however, that the plan for doubling investments will not be fulfilled. Therefore, by interposing computed index values of estimated labor and capital inputs for 1960 into a formula involving the * See Table 15, Appendix C, p. 51, below. - 26 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T coefficients of each (as derived from the correlation),* it can be shown that the plan for traffic kilometers for 1960 is beyond the expected capacity of the railroads. Indications are that the level of performance will be between 60 billion and 62 billion traffic kilometers, or approximately 6 billion to 8 billion traffic kilo- meters fewer than the plan goal. The planned growth in factor pro- ductivity and additions is not adequate to fulfill the traffic plan. Because the investment plan is not expected to be fulfilled, the assumption is that the ratio between capital and labor will remain relatively constant during the period 1958-60, with neither factor likely to increase sharply during such a short period of time. In view of existing labor conditions, the possibility of large increases in the operating labor force in the remaining years of the Second Five Year Plan are extremely remote, and East German officials indi- cate that no relief can be expected until 1965. Therefore, expansion of either labor numbers or of labor productivity sufficient to ful- fill the plan for traffic kilometers by 1960 seems unlikely. Capital productivity under the Second Five Year Plan is more difficult to assess than labor productivity because of the inherent difficulties in finding the total capitalized value of the real assets of the railroads. From an announced figure of capitalized value of 7,774 million EME in 1951, 2.Y net capital additions show an approximate increase of 5 percent in capital value for the 7-year period ending in 1957.** The net annual additions to the capital structure were extrapolated to 1960 on the basis of estimates of the expected fulfillment of investment plans for the 5-year period. The estimated fulfillment of the plan for investment for 1956-60 is a maximum of 68 percent. This estimate may be too high because of the increasingly severe situation in supply of materials and the actual fulfillment of only 59 percent of the investment plan for 1956. Each of these two factors would tend to indicate that inten- sive problems still exist in expanding investment outlays. The productivity of railroad capital in 1960 should be approxi- mately 7,900 traffic kilometers per unit of capital,** 59 percent above that for 1951 and about 22 percent above that for 1956. The increase of 22 percent is 8 percent less than the rate of growth of 30 percent in capital productivity in the last 4 years of the First Five Year Plan. * See Appendix D. ** See Table 15, Appendix C, p. 51, below. - 27 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Although performance of traffic kilometers per unit of capital by 1960 is expected to grow, at the most, 59 percent above that of the base year 1951 (instead of 76 percent), the relative efficiency of capital in the two plan periods will have changed considerably. From 1951 to 1955 an increase of 3 percent in total capital value (a measure of capital additions) was associated with an increase of 30 percent in capital productivity. For 1956-60 an increase of 8 per- cent in total capital value (on the basis of an estimated degree of fulfillment of the investment plan) will be associated with an esti- mated increase of 22 percent in capital productivity. This situation may be indicative of two things: (1) in the early years of the First Five Year Plan the available supply of capital was utilized to only a fraction of its capability as economic carloadings were well below existing railroad capacity, and (2) the marginal productivity of the type of capital addition being made is decreasing, indicating that the additions to capital have only been increased quantities of the same inefficient equipment (that is, steam locomotives of the type used on the railroads for 30 years with few technical improvements and 2-axle cars of the same average capacity). In spite of larger total capital additions, the decreasing marginal productivity of each capital unit has kept the railroads from achieving proportional increases in capacity from each given unit of capital invested. This fact indicates a need to invest in capital equipment of higher tech- nical efficiency, such as electric or diesel locomotives; large quan- tities of double track; expanded yards and sidings; and improved, labor-saving signaling mechanisms. In part the plan calls for just such investment, but the invest- ment outlays are so much larger for such equipment -- and improved equipment now constitutes such a small proportion of the total -- that the greater marginal productivity of the new equipment probably will have little aggregate effect in the plan period 1956-60. If the domestic supply situation improves or if large amounts of external aid are forthcoming, increased investment in technically efficient equipment will be possible, and this investment will even- tually counterbalance the preponderant, technical inefficiency of existing equipment. All statements concerning the 1961-65 plan in- dicate that much of the modernized equipment will become available during the period of the Third Five Year Plan. If so, technical efficiency and total capacity of the East German railroads will be greatly enhanced. - 28 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T APPENDIX A PREWAR AND POSTWAR STRUCTURE OF THE RAILROADS IN EAST GERMANY In 1936 the area now called the East Zone of Germany had about 19,400 route kilometers of track (see Table )4.*). The estimated length of track of this system at that time was approximately 27,400 km of standard-gauge track and about 2,000 km of narrow-gauge track. Dismantling by the USSR for reparations during 1946-49 was re- ported to have been about 13,000 km of railroad track. The dismantling left approximately 13,200 route km -- about 12,000 km of single-track line and about 1,200 km of line with two or more tracks -- and a total length of track of approximately 14,400 km, excluding sidings and narrow- gauge line. The amount of dismantling done on sidings, spur lines, and narrow-gauge lines probably never will be known, but the damaging effect to the total capacity of the system came largely from reducing the length of lines with two or more tracks from an estimated 8,000 km in 1936 to 1,200 km in 1959. Soviet dismantling resulted in a total reduction of about 32 percent in route kilometers; or 6,200 km. The total reduction in length of track was approximately 47 percent, or approximately 13,000 km. In 1957, East Germany had about 14,789 route km of track, of which 10 percent, or about 1,479 km, was double track, leaving approximately 13,310 km of single-track line. These figures would indicate that in the period 1950-57 about 1,310 km of single-track line and about 279 km of double-track line had been restored or newly constructed, thus yielding an average of approximately 227 km of new construction for each of the 7 years. Actual construction, however, was concentrated largely in the years 1954-57. * Table 4 follows on p. 30. - 29 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 4 Composition of the Standard-Gauge Railroad Network in East and West Germany 2/ 1936, 1950, and 1957 Kilometers Item East Germany 1936 West Germany Single track 12/ 11,400 17,970 Two or more tracks 12/ 8,000 12,600 Total 12/ 19,400 30,570 Track length 2/ 27,400 43,200 1950 Single track 12,000 1/ 17,970 2/ Two or more tracks 1,200 1/ 12,600 2/ Total 13,200 30,570 2/ Track length 2/ 14,400 1/ 43,200 1957 Single track 13,310 5/ 17,897 12/ Two or more tracks 1,479 5/ 12,54611/ Total 14,789 5/ 30,443 12/ Track length 2/ 16,300 43,000 a. Excluding pre-World War II German areas outside the present zonal boundaries. b. L7_1. In 1936 the area now known as West Germany had 30,570 route kilometers (km), and the area of East Germany had 19,400 route km. The distribution of lines with single track and with two or more tracks was based on the percentage distribution of West German track existing in 1957. c. Derived by adding the length of lines with single track plus two times the length of track with two or more tracks, which gives a minimum track length. There is a greater track length in each of the 3 years, but it is impossible to derive because of the lack of infor- mation on lines with three or more tracks. - 30 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 4 Composition of the Standard-Gauge Railroad Network in East and West Germany 2/ 1936, 1950, and 1957 (Continued) d. In 1945-46, 6,200 route km, or 36.6 percent of total route length, was dismantled by the USSR. Most of this dismantling was reported as removal of the second track on double-track lines. Single-track lines were therefore estimated at 12,000 km and lines with two or more tracks as 10 percent of the single-track line. e. Assumed to be the same as in 1936. f. "By March 1947, 11,800 kilometers of railroad 50X1 tracks had been dismantled in the Russian Zone of Germany. Additional dismantlings reported variously as between 1,200 and 3,000 kilometers are to continue." Deducting the minimum total of dismantled track (11,800 + 1,200) of 13,000 km from the total track length in 1936 of 27,400 km, a track length of 14,400 km is derived. These derived data agree with the data as derived by using footnote c, above. g.- a total route length of 14,789 km. Lines with 50X1 ? double track were estimated at 10 percent of the total (1,479), leaving 13,310 route km of single-track lines. h. q. Including sidings, the total track length was reported as 70,15 km. - 31 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T APPENDIX B CONTENT AND USE OF OPERATING RATIOS The concept of operating ratios was used in this report in an at- tempt to indicate the relative cost of the railroad, over a period of time, in relation to its own earning power and to the economy. The net operating ratio is useful for a fiscal comparison of the earned revenue and current operating expenses of the railroads and shows the amount of external subsidy required to cover the current operating deficit. This ratio indicates the drain on central budgetary sources caused by operating expenses being larger than revenue and shows that the rate structure is not compensatory. The net operating ratio, however, does not reflect the capital costs (a portion of capital repairs and all additions other than re- placements) that are necessarily attributable to railroad operation. Such capital costs are not included in the current operating accounts, at least not insofar as the capital additions are concerned. It is true that in the current operating account there is a payment to "amortization" that ostensibly covers annual depreciation and obsoles- cence of rolling stock and right-of-way. This sum can be considered as comprised primarily of capital depleted in production of the trans- port services for that year and is therefore a current cost item. The problem remaining is to attribute the cost of capital additions on an annual basis and to derive a reasonable idea of the total annual cost of railroad service to the economy. This derivation, called the gross operating ratio, is identical to the concept used by the Inter- national Union of Railways and will show the annual current cost plus the annual capital cost of rail operations in East Germany. 1. US Practice Comparable US concepts of operating ratios are derived as follows (with hypothetical percentages to indicate the portion of total cost each represents): Earned Revenue Percent Total Cost Percent Freight Passenger 70 25 Current operating costs (labor, materials, and taxes) 81 (net) Other 5 Depreciation and obsolescence 4 (net) Capital payments (principal and interest 9 Distributable profit 6 (net) Total 100 Total -33- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 100 (gross) Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Therefore, the current net operating ratio (N) is 91, and the gross operating ratio (G) is 100. The current operating costs (including depreciation, obsolescence, and profits) do not require an explanation. The problem is how capi- tal payments arise, the reason for their existence, and discovering a comparable Communist counterpart. If a US railroad borrowed $100 million to buy 50 locomotives in a given year and for the next 25 years* (the life of the locomotive) repaid the loan, the annual capital (principal) payments excluding interest, would be $4 million. On the assumption that the total in- vestment was made in the first year, the full capacity of the 50 loco- motives would become available immediately. During the service life of the locomotive, there are made capital repairs that increase the length of serviceable life and add something to the annual capital expense. This same principle would apply to roadbed and facilities. The interest charge does not exist (as such) in a Communist coun- try. Therefore, the problem is how to allot capital charges on an annual basis in a Communist economy such as that of East Germany so as to cover these same financial outlays. 2. East German Practice In East Germany, current operating expenses contain an amount that ostensibly covers obsolescence and depreciation. Railroad capital equipment is added and paid for on an annual basis from fiscal receipts of the economy. The acquisition of 50 locomotives in East Germany, if cumulated at the rate of 2 a year for 25 years, would add 50 locomotives to the in- ventory as in the US example. Annual capital charges, which represent principal only -- there is no interest as such -- are, in the East German example, payments from current revenue from various sources and are expended from investment funds during the fiscal period. The an- nual payment ($4 million) would equal the cost of two locomotives in each year in the US or in East Germany, with one difference -- East Germany is on a "cash-and-carry" basis, whereas the US uses credit. In East Germany the expenditure is called investment, in the US, capital charges. In the US the expenditure is allotted over a period of years once the locomotives are received. * In practice, US railroads probably would write off such equipment in the minimum number of years allowable by tax law, but this practice does not change the comparability between the systems. - 34 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T If East Germany met all of the incurred cost of the railroads from current, earned revenue, the relation of cost to revenue would be approximated by the following: Earned Revenue Percent Total Cost Percent Freight 65 Current operating costs 90 Passenger 30 Capital payments Other 5 (taken from investment funds) 10 Total 100 Total 100 Therefore, the current net erating ratio is 100, with In substance the above If earned revenue were not penses or long-run capital operating ratio is 90, and the gross op- no subsidy required. form agrees precisely with US practice. sufficient to cover either current ex- expenses, the relation of cost to revenue would be as follows: Earned Revenue Percent Total Cost_ Percent Freight 65 Current operating costs Passenger 30 (including deprecia- Other 5 tion, obsolescence, and taxes) 118 Total 100 Subtotal 118 Subsidy on current account 18 Net total 118 Net total 118 Subsidy on capital Capital charges (in- account 16 vestment) 16 Gross total (earned revenue plus total subsidy) Gross total Therefore, the current net operating ratio is 118, and the gross op- erating ratio is 134. - 35 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T This accounting method is still identical with US concepts except that two subsidies occur -- one on current account and one on capi- tal account. By considering the East German "investment" figure as a capital charge on an annual basis and then relating this figure to annual earned revenue, the operating ratios become meaningful. The necessity for a subsidy does not change the concept of operating ratio as long'as current costs and total costs (current costs plus capital charges) are always related to earned revenue. The net operating ratio shows the operating condition of the railroads and their cost to the economy on current account. The gross operating ratio shows not only the deficit (or cost to the economy) from current operations but the deficit from annual capi- tal charges (investment expenditures) as well. - 36 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T APPENDIX C STATISTICAL TABLES - 37 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 5 Comparison of Railroad Systems in Selected European Countries 2/ 1956 Dispersion East West Czecho- Item Germany Germany slavakia Poland Hungary Square kilometers per railroad route kilometer Average performance 7.3 7.9 9.7 13.4 11.3 Thousand ton-kilometers per railroad route kilometer 2,006 1,790 2,603 2,235 985 Thousand passenger kilometers per railroad route kilometer 1,530 1,248 1,415 1,596 1,093 Thousand traffic kilometers per railroad route kilometer 3,536 3,037 4,018 3,831 2,078 Thousand traffic kilometers per employee 176 177 271 291 135 Traffic kilometers per capita 2,924 1,883 3,979 3,811 1,743 Thousand ton-kilometers per employee 100 104 176 170 64 Average traffic density Tons per route kilometer 14,256 9,657 11,317 9,765 7,391 Tons per track kilometer 12,960 6,908 9,450 6,587 4,890 Passengers carried per route kilometer 69,312 46,839 40,249 39,702 36,880 Passengers carried per track kilometer 63,009 33,502 33,610 26,781 24,400 a. Data are derived from Table 6, p. 39, below. All tonnages in this table are given in metric tons. - 38 - S-E-C-R-E-T _ Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 6 Basic Data on Railroads in Selected European Countries 21 1956 Item Unit East Germany West Germany Czechoslovakia Poland Hungary Area Square kilometers 107,862 245,359 127,85912/ 311,730 93,030 LI Total population Thousand persons 17,832 49,995 13,297 27,680 9,861 Route length of standard gauge railroad Kilometers 14,745 31,000 13,168 23,198 8,270 Total railroad employees Persons 296,959 532,000 195,200 12/ 305,700 127,300 Passenger kilometers Million 22,560 38,676 18,628 37,030 9,040 Net ton-kilometers Million 29,573 55,478 34,279 51,840 8,146 Traffic kilometers Million 52,133 94,154 52,907 88,870 17,186 Tons carried Thousand 210,207 299,374 149,020 226,523 61,124 Length of line with two or more tracks Kilometers 1,45o 12,342 2,601 7,387 93o Length of electrified line Kilometers 145 2,382 278 533 372 Average length of haul Kilometers 141 185 230 229 133 Total track length Kilometers 16,220 43,340 15,769 2/ 34,390 2/ 12,500 Passengers carried Million 1,022 1,452 530 921 305 Average turnaround time of freight cars Days 3.55 5.3 1/ 5.2 Average load per freight car Tons 15.66 13.40 21/ 16.60 L1/ 18.46 14.70 Tons carried per freight car per year Units 1,633 1/ 925 1/ 1,378 1/ 1,296 1/ 1,166 1/ 2/ a. Unless otherwise given in metric tons c. Estimated on the d. e. f. One year (365 days) divided by turnaround time indicated, all data are from the 1956 yearbooks of the respective countries. All tonnages in this table are basis of the length of single track plus two times the length of lines with two or more tracks. and multiplied by the average load per freight car. - 39 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part- Sanitized Copy Approved forRelease2013/06/04 : CIA-RDP79R01141A001600110001-0 Table 7 Distribution of Inland Freight in East Germany, by Mode of Transport pi* 1936 and 1946-58 Total Inland Railroad Transport Motor Transport Inland Water Transport Transport Year Million Percent of Total Million Percent of Total Million Percent of Total Ton-Kilometers 1936 27,400 1946 10,000 1/ 1947 11,200 Id/ 1948 13,300 2/ 1949 17,200 1/ 1950 18,588 1951 21,289 1952 23,188 1953 26,419 1954 27,869 1955 30,584 1956 33,094 1957 35,049 1958 36,646 22,100 8,100 12/ 2/ 80.7 81.0 sl./ 9,100 2/ 81.0 1/ 10,800 2/ 81.0 1/ 13,900 2/ 81.0 2/ 15,064 81.0 17,291 81.2 19,077 82.3 22,112 83.7 23,182 83.2 25,222 82.5 27,334 82.6 28,635 81.7 30,101 82.1 * Footnotes for Table 7 follow on p. 41. 80012/ 2.9 4,500 2/ 16.4 2./ N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. 1,500 11.2 1,000 2/ 7.8 2/ 1,700 10.1 1,600 2/ 8.9 2/ 1,945 10.5 1,579 8.5 2,201 10.3 1,797 8.5 2,404 10.4 1,707 7.3 2,569 9.7 1,738 6.6 2,945 10.6 1,742 6.2 3,194 10.4 2,168 7.1 3,492 10.6 2,268 6.8 3,916 11.2 2,498 7.1 4,147 11.3 2,398 6.6 - 40 - S-E-C-R-E-T Declassified in Part -_Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 7 Distribution of Inland Freight in East Germany, by Mode of Transport 1936 and 1946-58 (Continued) Year Total Inland Railroad Transport Motor Transport Inland Water Transport Transport (Million) Million Percent of Total Million Percent of Total Million Percent of Total Tons Carried 1946 91.5 1/ 54.9 2/ 6o.o 1/ N.A. N.A. N.A. N.A. 1947 124.1 di 73.2 2/ 59.0 1/ N.A. N.A. N.A. N.A. 1948 151.9 2/ 88.1 2/ 58.o 1/ N.A. N.A. N.A. N.A. 1949 175.4 .d/ 100.0 e/ 57.0 1/ N.A. N.A. N.A. N.A. 1950 225.8 128.5 56.9 87.3 38.7 10.0 4.4 1951 267.8 153.2 57.2 103.7 38.7 11.0 4.1 1952 291.3 158.3 54.3 120.5 41.4 12.5 4.3 1953 336.4 182.3 54.2 141.3 42.0 12.8 3.8 1954 357.1 191.4 53.6 154.1 43.1 11.6 3.3 1955 389.5 207.5 53.3 169.1 43.4 12.9 3.3 1956 411.1 210.2 51.1 187.4 45.6 13.5 3.3 1957 443.2 220.3 49.7 208.5 47.0 14.4 3.3 1958 468.6 227.2 48.4 226.5 48.3 14.9 3.3 a. Excluding ocean and air transport. in this table are given in metric tons. b. 15/ c. Residual. d. Totals for ton-kilometers and tons carried are basis of the estimate. e. f. These percentage figures are estimated at a declining pected that these might actually be higher because of the of plus or minus 10 to 15 percent is assumed. All tonnages 50X1 estimated by using railroad transport percentages as the rate of percentage point per year. It is ex- lack of gasoline for truck transport. An error 41 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 8 Freight Carried by Railroads in East Germany, by Type of Commodity 2/ 1950 and 1955-58 Commodity 1950 1955 1956 1957 1958 Thousand Metric Tons Percent of Total Thousand Metric Tons Percent of Total Thousand Metric Tons Percent of Total Thousand Metric Tons Percent of Total Thousand Metric Tons Percent of Total Coal and coke 50,677 42.7 85,648 46.5 87,751 46.9 92,521 47.5 92,662 46.3 Ore 5,028 4.2 2,144 1.2 1,947 1.0 1,822 0.9 1,894 1.0 Other mining products 751 0.6 1,310 0.7 1,731 0.9 1,926 1.0 2,063 1.0 Metals 6,458 3.5 6,687 3.6 6,979 3.6 7,517 3.8 Scrap metal 2,065 1.1 2,219 1.2 2,148 1.1 2,368 1.2 Chemicals (excluding fertilizers and tar products) 3,885 3.3 5,173 2.8 5,260 2.8 5,142 2.6 5,392 2.7 Fertilizers 5,734 4.8 7,934 4.3 8,277 4.4 8,295 4.3 8,679 4.3 Mineral oils and tar products 1,234 1.0 4,194 2.3 4,694 2.5 5,001 2.6 5,408 2.7 Building materials (excluding cement) 13,084 11.0 20,546 11.1 21,884 11.7 23,751 12.2 25,990 13.0 Cement 2,839 1.5 3,072 1.7 3,025 1.6 2,863 1.4 Wood 5,528 4.7 5,390 2.9 5,039 2.7 4,830 2.5 4,516 2.3 Grains and legumes 2,132 1.8 1,781 1.0 1,771 0.9 1,486 0.8 1,301 0.7 Potatoes 2,291 1.9 1,511 0.8 1,347 0.7 1,257 0.6 1,183 0.6 Sugar beets 2,448 2.1 3,161 1.7 2,561 1.4 3,441 1.8 3,896 1.9 Sugar 781 0.7 852 0.5 661 0.4 686 0.4 883 0.4 Other industrial and agricultural products 25,194 21.2 25,442 13.8 24,419 13.1 24,742 12.7 25,439 12.7 Piece goods N.A. 7,921 4.3 7,702 4.1 7,608 3.8 8,025 4.0 Total 118,767 100.0 184,369 100.0 187,022 100.0 194 66o 100.0 200,079 100.0 a. 22/. Standard gauge only. -42- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 9 Freight Carried and the Average Number of Freight Cars Required for Each Type of Traffic in East Germany 1950-58 Freight carried, by type 1/ 1950 1951 1952 1953 1954 1955 1956 1957 1958 Thousand Metric Tons Total tons carried 128,504 153,214 158,287 182,257 191,437 207,514 210,207 220,335 227,199 Foreign tons received 8,487 12,398 13,798 17,075 19,162 21,753 20,377 22,155 23,604 Total tons originated 12/ 120,017 140,816 '44,489 165,182 172,275 185,761 189,830 198,180 203,595 Tons originated (standard gauge) 118,767 139,920 143,248 163,866 170,953 184,369 187,022 194,660 200,079 Tons originated (narrow gauge) 1,250 896 1,241 1,316 1,322 1,392 2,808 3,520 3,516 Average number of freight cars required, by type of traffic Units 2/ For total traffic carried 95,400 88,600 99,000 110,300 112,100 130,800 130,600 132,700 136,100 For total tons originated (standard and narrow gauge) 89,100 81,400 90,400 100,000 100,900 117,000 117,900 119,300 122,000 For total foreign tons received 6,300 7,200 8,600 10,300 11,200 13,700 12,700 13,300 14,100 For tons originated (standard gauge only) 88,200 80,900 89,600 99,200 100,100 116,200 116,200 117,200 119,900 Average working car park 1/ 81,780 82,028 90,642 101,611 102,960 110,000 N.A. 117,300 N.A. a. Including domestic, export, import, and transit freight traffic. b. Tons originated includes only the tons of freight loaded in East Germany and does not include foreign freight tons received. c. Unless otherwise indicated, data were computed by dividing the annual tonnage by the average tons carried per freight car per which were as follows: 1950, 1,347 metric tons; 1951, 1,730 metric tons; 1952, 1,599 metric tons; 1953, 1,652 metric tons; 1954, 1,707 metric tons; 1955, 1,587 metric tons; 1956, 1,610 metric tons; 1957, 1,661 metric tons; and 1958, 1,669 metric tons. d. Reported actual average working freight car park, standard gauge only. Data for 1957 are as of March. year, 50X1 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 6-E-O-R-E-T Table 10 Inventory of Rolling Stock of Railroads in East Germany 1946-58 Units Locomotive Park Year Total Operating Serviceable Freight Car Park In Repair Damaeed Total 21* Operating In Repair 1946 7,645 2/ 4,508 2/ 3,395 2/ 1,113 2/ 3,137 2/ 106,800 2/ 1947 7,575 2/ 5,056 2/ 2,943 2/ 2,113 2/ 2,519 2/ 94,900 2/ 1948 7,015 2/ 4,557 2/ 2,960 2/ 1,597 2/ 2,458 2/ 88,500 2/ 1949 7,009 z/ 4,827 2/ 2,374:LI 2,453 z/ 2,182 1/ 92,500 Ei 1950 ly 6,762 4,770 3,378 1,392 1,992 99,801 1951 11/ 6,456 4,850 3,142 1,708 1,606 101,647 1952 2/ 6,384 4,922 3,055 1,867 1,462 137,900 1953 L/ 6,230 5,119 3,529 1,590 1,111 136,674 1954 L/ 6,476 5,561 4,056 1,505 915 142,220 1955 N.A. N.A. N.A. N.A. N.A. 145,669 1/ 1956 6,478 E/ 5,564 1/ 3,898 E/ 1,666 E/ 914 145,585 /2/ 1957 6,020 2/ N.A. 3,200 2/ N.A. N.A. 146,000 1958 5,670 2/ N.A. N.A. N.A. N.A. N.A. * Footnotes for Table 10, follow on p. 45. -44- S-E-C-R-E-T 65,600 57,400 68,225 75,850 81,780 82,028 90,642 101,611 102,960 110,000 N.A. 117,300 Ei N.A. bJ 12/ 4./ 15,100 Li/ 9,600 1/ 7,400 1/ 7,765 E/ 8,494 9,722 16,586 8,220 10,024 11,761 1/ N.A. 14,000 2/ N.A. Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Total Passenger Car Park 17,095 2/ 6,860 2/ N.A. 7,696 2/ 7,799 8,111 9,015 10,179 10,507 N.A. N.A. N.A. Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 10 Inventory of Railroad Rolling Stock in East Germany 1946-58 (Continued) a. The total freight car park is composed of the number of cars in operation, the number of cars under- going repairs, and an unknown number of cars that are either in a pool of damaged cars or in a nonoperative reserve. b. LI-1/ c. Total park minus damaged park. d. )42/ e. f. g. h. Serviceable park plus locomotives in repair. i. Total park minus operating park. j. k. 1. Li/. ,Information as of August 1955. m. _2/. Information as of 30 September 1956. n. 22/. The total planned freight car park for 1956 was to have been 159,000 cars, with the working freight car park equal to 129,982 cars; for 1957 the planned freight car park was to have been 136,114 cars. p.2g./ - 45 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 11 Revenue of Railroads in 1950-57 and Revenue Required to Meet Expenditures in 1958 in East Germany by Type of Service Freight Revenue Passenger Revenue Municipal Railroad Revenue Average h/ Average 2/ Total Revenue Million Current (Current Deutsche As a Percent Million Current (Current Deutsche As a Percent Million Current As a Percent (Million Current Deutsche fprk Mark East per of Total Deutsche Mark Mark East per of Total Deutsche Mark of Total Deutsche Mark Year East 21 Ton-Kilometer) Revenue East 2/ Ton-Kilometer Revenue East 2/ Revenue East) 1950 1951 1952 1953 1954 1955 1956 1957 1958 g/ 753.8 954.8 1,064.9 1,270.4 1,368.1 1,435.4 2/ 1,478.6 2/ 1,559.4 2/ 2,468.2 h/ 0.046 0.050 10.051 0.052 0.052 0.050 s/ 0.050 s/ 0.050 s/ 0.061 1/ 47.2 50.9 52.8 57.4 56.7 58.0 59.0 60.0 70.8 745.3 803.9 837.9 846.0 944.4 939.1 2/ 925.0 2/ 934.2 .41 877.4 2/ 0.040 0.041 0.040 0.041 0.041 0.041 s/ 0.041 s/ 0.041 2/ 0.041 s/ 46.6 42.9 41.5 38.2 39.1 37.9 36.9 35.9 25.2 98.9 116.4 114.2 96.6 100.2 101.5 f/ 102.8 fi 106.6 f/ 139.4 1/ 6.2 6.2 5.7 4.4 4.2 4.1 f/ 4.1 fi 4.1 f/ 4.0 11 1,598.0 1,875.1 2,017.0 2,213.0 2,412.7 2,476.0 2,506.4 2,600.2 3,485.0 a. b. Unless otherwise indicated, freight revenue divided by ton-kilometer performance, from Table 19, p. 56, below. All tonnages in this table are given in metric tons. c. Unless otherwise indicated, passenger revenue divided by passenger kilometer performance, from Table 19, p. 56, below. d. Estimated by applying performance data from Table 19, p. 56, below, to the estimated average revenue. e. Estimated on the basis of data for 1950-54. f. Estimated as 4.1 percent of total revenue. g. Estimated requirements. h. Composed of 1,989.2 million Deutsche Mark East (DME) from freight charges, 426 million DME from a charge of 20 DME per axle for every car loaded, and 53 million DME from a charge of 5 DME for car weighing. For a discussion of increased rates, see p. 14, above. i. Average revenue per ton-kilometer necessary to provide the 1,989.2 DME for freight charges. j. Assumed to be 4.0 percent of total revenue. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 : CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 12 Profit and Loss Statement for Railroads in East Germany 1955-57 Constant Prices in Million 1955 Deutsche Mark East 1955 1956 1957 Item Current Cost 1955 Percent of Total Current Cost 1956 Increase Above 1955 (Percent) Current Cost 1956 1957 Increase Percent Above of Total 1956 Current Cost- (Percent) Current Cost 1957 2./* Percent of Total Current Cost Wages of operating employees (not including repair) 2/ 952 34 1 959 33 6 1,014 32 Social cost and wage tax 120 sj 4 4 125 s/ 4 4 130 1/ 4 Administration wages sj 223 8 3 230 8 3 237 8 Amortizations 298 1/ 11 7 320 I/ 11 8 346 g,/ 11 Rolling stock repair costs Labor 2/ 234 276 290 Materials 86 104 158 Total 320 12 19 . 380 13 18 448 14 Cost of expendable materials 320 1/ 12 19 380 1/ 13 18 448 Coal for locomotives and dif- ferential 185 1/ 7 3 190 1/ 6 4 198 h/ 6 Individual expenses 1j 95 3 5 100 3 5 105 3 Taxes 2/ Transport 145 146 151 Turnover ' 5 5 5 Total 150 5 1 151 5 3 156 5 Cost of railroad's own freight 2/ 70 3 6 77 3 4 80 2 Directors' fund 2/ 36 1 3 37 1 5 39 1 Total current operating cost 2,769 100 6 2,949 100 8 3,201, 100 Total earned revenue li -2,476 1 -2,506 3 -2,600 Subsidy or loss 293 443 601 _-,---=? .-_---._--- Net operating ratio 2/ 112 118 123 * Footnotes for Table 12 follow on p. 48. - 47 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 12 Profit and Loss Statement for Railroads in East Germany 1955-57 (Continued) a. Estimated. b. 256./. Including salaries of operating employees and apprentices. c. d. Estimated as 4 percent greater than in 1956. e. f. if/. Depreciation of fixed assets and rent. g. Estimated on the basis of an increase slightly greater than that between 1955 and 1956 of 7 percent. The increase of 1957 above 1956 was estimated to be 8 percent. h. . The wages of labor employed in the repair of rolling stock were derived by subtracting the wages of operating and administrative employees from the total wage bill. i.L)/. Plan. j. Projected through 1957 on the basis of an 18-percent increase above 1956. The figure for 1956 was 19 percent greater than that for 1955. k. Four percent greater than that of 1956. This increase was about 1 percent greater than that of 1956 above 1955. In 1957, greater quantities of coal were used, and although the coal was of a lower grade and thus less expensive, the volume more than made up for the decrease in unit cost. 1.F. Projected to 1957 on the basis of a 5-percent increase. m. 2/. Transport tax in 1955 was equal to 0.0028 Deutsche Mark East (DME) per traffic kilometer. Turnover tax was 3.5 percent of transport tax. Total transport taxes for 1956 and 1957 were computed by multiplying ton-kilometers by 0.0028 DME and then taking 3.5 percent of the result as turnover tax. n. In 1955 the cost of the railroad's own freight was equal to 0.0028 DME per ton-kilometer operated. This cost also was used for 1956 and 1957. o. /. Computed as 2.5 percent of the total wage bill. p. See Table 11, p. 46, above. q. Total operating cost divided by total revenue. S-E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 13 Transport Employees in East Germany, by Mode of Transport 2/ 1950-56 Year Total Personnel Operating Personnel Apprentice Personnel Other Personnel All Transport 1950 331,398 241,064 11,585 50,155 1951 362,826 248,436 17,136 58,255 1952 385,908 265,885 22,008 63,087 1953 406,490 283,013 23,632 64,651 1954 421,610 294,971 22,129 71,365 1955 416,320 323,270 20,483 72,567 1956 417,581 324,327 18,444 74,810 Of Which: In Repair Work 1956 71,097 49,541 7,337 14,219 Railroad Transport 1950 252,492 204,003 9,258 39,231 1951 279,061 219,286 14,223 45,552 1952 293,263 225,180 17,871 50,212 1953 298,295, 232,416 18,943 46,936 1954 306,490 236,850 17,227 52,413 1955 298,894 232,297 16,289 50,308 1956 296,959 229,289 14,252 53,418 Of Which: In Repair Work 1956 53,428 38,586 4,835 10,007 Main Administration for Shipping 1956 9,995 6,998 578 2,419 Private Transport 1956 19,084 17,333 110 1,641 a. L/. Data are from official East German sources. Total per- sonnel for 1950-54 does not equal the sum of the components, but no explanation is given for this discrepancy. -49- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 14 Wages and Salaries of Transport Employees in East Germany by Mode of Transport 2/ 1950-56 Million Current Deutsche Mark East Wages and Salaries Year Total Personnel Operating Apprentice Personnel Personnel Other Personnel All Transport 1950 1,073.8 777.9 9.6 189.8 1951 1,315.1 947.1 13.8 243.2 1952 1,488.2 1,047.4 18.5 289.6 1953 1,676.8 1,209.0 21.4 308.9 1954 1,876.0 1,346.1 19.9 374.7 1955 1,904.9 1,528.6 19.2 345.5 1956 1,998.2 1,596.9 17.0 356.9 Railroad Transport 1950 826.6 664.8 8.2 153.6 1951 1,026.8 818.6 12.0 196.1 1952 1,140.6 892.7 15.8 232.1 1953 1,257.9 1,007.3 18.1 232.4 1954 1,391.7 1,090.2 16.4 285.1 1955 1,408.4 1,117.3 15.9 275.2 1956 1,465.5 1,166.9 13.7 285.0 Motor Transport 1956 209.0 166.7 2.4 39.9 Main Administration for Shipping 1956 49.9 37.0 0.6 12.3 Private Transport 1956 71.1 64.5 0.1 6.5 a. Data are from official East German sources. -50- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 15 Product, Capital/Output, and Labor/Output Ratios for 1951-57 with the Estimated Annual Totals for 1958-60 Required to Fulfill the Plan for Railroads in East Germany Product Million Traffic Year Kilometers 1951 38,654 1952 41,621 1953 44,905 1954 48,983 1955 51,613 1956 52,133 1957 53,972 1958 54,223 1959 61,176 1/ 1960 68,129 LI/ 1 Actual 4-Year Increase 34 Percent Planned 5-Year Increase 32 Percent Capital Index Capitalized Value 12/ Ton-Kilometers (Million Current per Unit Deutsche Mark East) of Capital 2/ Index Operating Employees 21/ 100.0 7,774 4,972 Actual 100.0 219,286 107.7 7,738 5,379 4-Year 108.2 225,180 116.2 7,762 5,785 Increase 116.4 232,416 126.7 7,878 6,218 30 Percent 125.1 236,850 133.5 7,979 6,469 130.1 232,297 134.9 8,060 6,468 Probable 130.1 229,289 139.6 8,140 6,630 5-Year 133.3 225,000 140.3 8,280 6,549 Increase 131.7 225,000 158.3 8,401 7,282 22 Percent 146.5 225,000 176.3 8,624 7,9oo 158.9 225,000 Labor Ton-Kilometers per Operating Employee 176,272 184,834 193,210 206,810 222,185 227,368 239,875 240,991 247,141 E./ 253,291 Ei 111* Actual 4-Year Increase 26 Percent Planned 5-Year Increase 14 Percent Index 100.0 104.9 109.6 117.3 126.0 129.0 136.1 136.7 140.2 143.7 a. Unless otherwise indicated, passenger kilometers plus net freight ton-kilometers are from Table 19, p. 56, below. All ton- nages in this table are given in metric tons. b. See Table 18, p. 55, below. c. Traffic kilometers divided by capitalized value. d. Data for 1951-56 are from Table 13, p. 49, above. Operating employees for 1957-60 are estimated to have been about 25,000. Actual data for 1957-60 may decline, making the possibility of plan completion even more remote. e. Unless otherwise indicated, traffic kilometers divided by operating employees. f. Interpolated between the actual performance for 1958 and the 1960 Plan. g. Data for 1960 were estimated by applying the planned increase of 14 percent for labor productivity; data for 1959 were interpolated. h. L71. Of the increase in total traffic kilometers, 29.9 percent was to be freight ton-kilometers and 2 percent passenger kilometers. - 51 - Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 16 Estimated Investment in Railroads Compared with Total Investment and Investment in Transport in East Germany First (1951-55), Second (1956-60), and Third (1961-65) Five Year Plans Million Current Deutsche Mark East Investment in Railroads Plan Total Investment 1951h/ Investment in Transport Estimated Planned Investment Percent of Plan Fulfilled Actual Investment Five Year Total Five Year Total Yearly Totals 28,600 2/ 2,403 I/ 2,403 N.A. N.A. 1,036 1/ 1,060 EV 1,075 I/ 1,344 2/ 1,385 2/ 5,900 281 2/ 329 2/ 464 L/ 466 Ej 46o 1/ 2 000 i 70 12/ 8o Ea/ 8o 5./ 81 E/ 82!! 79 59 1/ 70 2/ 70 2/ 70 2/ 70 2/ 68 197 263 2/ 371 g/ 376 hi 378 1/ 1,585 55,000 12/ 55,000 5,900 s/ >,900 673 2/ 689 E/ 700 E/ 886 E/ 900 E./ 3,8118 398 1/ 482 2/ 490 2/ 620 2/ 630 2/ 2,620 N.A. 8,850 I/ N.A. 5,785 11/ N.A. First Five Year Plan (1951-55) 1952 1953 1954 1 1955 Total28600 Second Five Year Plan (1956-60) 1956 1957 g 1 1 1960 Total Total Third Five Year Plan (1961-65) a. Estimated on the basis of data for 1950 and 1952. b. c. Plan. d. The railroad investment plan was 74 percent fulfilled on 30 November 1952. The estimated completion by the end of the year was 80 percent. - 52- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 16 Estimated Investment in Railroads Compared with Total Investment and Investment in Transport in East Germany First (1951-55), Second (1956-60), and Third (1961-65) Five Year Plans (Continued) e. _2/ f. Total investment in transport and telecommunications minus 10 percent estimated as having been invested in post and telecommunications equals actual investment in transport. g. Estimate based on reported data for 1954 and 1955. h. 12/ i. 11/ k. ii/. Transport investment in 1956 was to be 46.4 percent above that in 1955; taken to mean above the plan for 1955. 1. L/ m. Estimated. No investment plan is available for 1957. n. Sixty-five percent of the total investment in transport. o. Estimated as 70 percent of plan. If the .scarcity of material becomes worse, 70 percent may be too high. P. 75/ q. investment in transportation and telecommunications would be 13 percent o? total economic investment -- 6.6 billion Deutsche Mark East (DME) is 13 percent of 51 billion DME, the esti- mated "rammed" investment in economic means of production for the 5 years. Transportation is estimated to represent 90 percent of total investment in transportation and telecommunications. r. 11/ s. Total investment plan for the 3 years 1956-58 equaled 3,171 million DME. The difference between the 1956-58 data and the 5-year plan was divided arbitrarily into 1,344 million DME for 1959 and 1,385 million DME for 1560. t. Estimated on the basis of planned investment in railroad for 1960-65. u. 1.?./. Railroad investment under the Third Five Year Plan was to be 50 percent greater than under the Second Five Year Plan. - 53 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 17 Proposed Additions to Line Capacity of Railroads in East Germany 2./ 1956-60 New Line Replacement of Track 12/ Reconstruction of Second Track Construction of Station Track Miscellaneous Track Total Track Year Kilometers Million Current Deutsche Mark East Million Current Kilometers Deutsche Mark East Kilometers Million Current Deutsche Mark East Kilometers Million Current Deutsche Mark East Kilometers Million Current Deutsche Mark East Kilometers Million Current Deutsche Mark East 1956 1957 1958 1959 1960 Total Average Per Year 50.5 69.5 76.0 216.0 150.0 103.5 2/ 29.5 57.0 124.0 67.0 381.0 770 770 770 770 367 3,447 200.2 200.2 200.2 200.2 95.4 896.2 413.0 773.5 535.0 177.0 136.0 2,034.5 106.5 204.1 136.0 48.0 34.0 528.6 97 72 29 22 15 235 47 138.5 102.9 42 37 28 348.4 90 30 20 20 20 180 36 18 12 8 8 8 54.0 1,420.5 1,715.0 1,430.0 1,205.0 688.0 6,458.5 566.7 548.7 443.2 417.2 232.4 2,208.2 562.0 112 76 689 179 407 106 70 11 1,292 442 a. /2/. These data do not represent the Second Five Year Plan (1956-60) as finally accepted, but represent the best judgment of a commission of railroad experts as to the actual needs of the railroads for the years shown. The totals in this table are much larger than those agreed on in the actual plan (see p. 12, above). b. The cost was computed on the basis of an average unit cost estimated to be equal to that of reconstructing second track, or 260,000 Deutsche Mark East per kilometer. c. The average cost per kilometer of new line in 1956 (2.05 million Deutsche Mark East -- DME) appears to be unusually large in relation to the average unit cost for subsequent years (0.42 million DME in 1957, 0.75 million DME in 1958, 0.57 million DME in 1959, and 0.45 million DME in 1960). - 514- - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 18 Estimated Value of Capital Stock of Railroads in East Germany 2/ 1951-60 Gross Amortization Capital Value12/ Net Investment s/ Net Annual Addition f/ Net Capital Value gi (Million Current (Million Current Million Current (Million Current (Million Current Index of Net Year Deutsche Mark East) Deutsche Mark East) Percent 1/ Deutsche Mark East 2/ Deutsche Mark East) Deutsche Mark East) Capital Value 1951 7,774 197 3.0 233 -36 7,774 ,738 100.0 7 1952 7,969 263 3.0 239 +24 99.5 1953 8,232 371 3.1 255+116 7,762 99.8 1954 8,603 376 3.2 275 +101 7,878 101.3 1955 8,989 378 3.3 297 +81 7,979 8,060 102.6 1956 9,367 398 3.4 318 +80 8,140 103.7 1957 9,765 482 3.5 342 +140 88:420810 104.7 +121 1958 10,247 490 3.6 369 106.5 1959 10,737 620 3.7 397 +223 ,624 108.1 8 1960 11,357 630 3.8 432 110.9 a. All data are subject to an error of plus or minus 5 percent. b. Li. Data are as of the first of the year. c. See Table 16, p. 52, above. d. The amortization rate (amortization is here regarded as provision for depreciation) is estimated for 1950-54 on an increasing basis of 0.1 percent per year -- the experience found in 1955, 1956, and 1957, when amortization equaled 3.3, 3.4, and 3.5 percent, respectively. 8j/ Data for 1958, 1959, and 1960 were projected on the same basis of 0.1 percent per year. This increase coincides with a growing awareness by the East Germans of the increase in real costs in terms of depreciation. e. Amortization rate (percent) multiplied by gross capital value. f. Net investment minus amortization. g. Li. Data are as of the first of the year and are derived by subtracting the net annual additions from the net annual capital value for the previous year. - 55 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Table 19 Annual Statistics for Railroad Transport in East Germany 2/ 1950-58 Item 1950 1951 1952 1953 1954 1955 1956 1957 1958 Million net freight ton-kilometers Million tariff ton-kilometers Thousand tons carried Average daily carloadings (tons) 16,350 15,064 128,504 21,18612/ 19,127 17,291 153,214 25,27112/ 20,820 19,077 158,287 27,840 h/ 24,376 22,112 182,257 32,072 h/ 26,351 23,182 191,437 33,77512/ 28,708 25,222 207,514 N.A. 29,573 27,334 210,207 33,500 2/ 31,187 28,635 220,335 34,000 2/ 32,824 30,101 227,199 N.A. Average length of net haul (kilometers) 2/ 127 125 132 134 138 138 141 142 144 Average length of tariff haul (kilometers) 2/ 117 113 121 121 121 122 130 130 132 Turnaround time (days) 4.12 3.46 3.47 3.38 3.25 3.53 3.55 3.51 3.47 Average net tons per train 15.2 1/ 16.4 I/ 15.2 1/ 15.3 1/ 15.2 B./ 15.352/ 15.662/ 15.662/ 15.97 12/ Million passenger kilometers 18,576 19,527 20,801 20,529 22,632 22,905 22,560 22,785 21,399 Million passengers carried 954 1,006 1,056 997 1,008 1,016 1,022 1,011 980 Average passenger distance traveled (kilometers) 1/ 19.5 19.4 19.7 20.6 22.5 22.5 22.1 22.5 21.8 a. b. C. d. e. f. g. h. 1. Net ton-kilometers divided by tons carried. Tariff ton-kilometers divided by tons carried. 86 _-/ Passenger kilometers divided by passengers carried. All tonnages in this table are given in metric tons. -56- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T APPENDIX D MULTIPLE CORRELATION BETWEEN THE INDEX OF TOTAL TRAFFIC KILOMETERS, CAPITAL PRODUCTIVITY, AND LABOR PRODUCTIVITY 1951-57 Problems of multiple correlation always involve three or more variables, one dependent variable (the value that is to be estimated) and two or more independent variables which for one reason or an- other may have some significance in estimating the value of the de- pendent variable. In many problems, there are numerous factors that are interrelated and have some influence in considering the value of the dependent factor, not as a causal force but as an interrelation- ship. Because the independent factors do not all have the same rela- tionship to the dependent factor, the relationship of each must be weighed according to its contribution to the total of the independ- ent factors. Only a multiple correlation can derive the coefficients of regression that are the correct weights of each of the independent factors in their relation to the dependent factor after the influence of each of the other factors has been considered or eliminated. In this way the ability to predict the level of the dependent factor from given levels of the independent factors can be determined. In this problem, two independent factors were considered to have extensive relationships to the level of total traffic kilometers (ton- kilometers added to passenger kilometers): (1) capital productivity, which has as its component parts the total amount of capital for use, the efficiency of the capital goods used (for example, steam locomo- tive power, aging rolling stock, and older types of signaling) along with some measure of the increasing efficiency of the capital goods being acquired, and (2) labor productivity, which considers the total number of employees, average productivity per employee, and probably some measure of the efficiency of the aftinistration and organization. The linear multiple correlation for the three factors -- total traffic kilometers (the dependent factor), capital productivity, and labor productivity (the independent factors) -- showed that the degree of relationship was high enough to permit the use of capital and labor productivity in predicting the approximate capacity of the railroads in 1960 in terms of total traffic kilometers. Two separate correlations were run, one from the original data and one from the indexes of the data available or estimated for the years 1951 through 1957. Data for 1958 were not used in the - 57 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04 CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T correlation inasmuch as the values for labor and capital inputs were considered to be tentative. Both of these correlations pro- duced the same basic result. The correlation coefficient was found to be sufficiently high to be used quite accurately for forecasting if the assumption is made that the relative weights (the coefficients of capital and labor productivity) will not be changed drastically during the period 1958-60 by disproportionate additons to either capital or labor supplies. The estimate is that no disproportionate additions can be made during the period, although some change is bound to occur. To show what portion of any given increase in total traffic kilometers is directly attributable to the increase in productivity of capital and labor for the given years, the following values were assigned in the multiple correlation problem, using the indexes of x = total traffic kilometers (TTKM), dependent factor y = capital productivity independent factors z . labor productivity The multiple correlation coefficient was found to be high,* with R = 0.98 The coefficient of determination was R2 = 0.96 The computed coefficients of y and z for the linear multiple re- gression equation Yc = a+by+cz are b = 0.5384 c = 0.6106 Substituting the coefficients b and c in the regression equation with the constant "a" equal to -13.97, the value of total traffic kilometers (the unknown Yc) for any year can be approximated. For example, for 1956 the estimate of TTKM capability can be derived as follows: * There are two indigenous factors that contribute to the high degree of correlation. The primary factor is the amount of autocorrelation in the economic series, and the other is the use of ton-kilometers in all three of the variables. The exact degree of stochastic relation- ship existing in this problem is therefore difficult to interpret. 58 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T Ye (TTKM) = -13.97 + 0.5384 (130.1) + 0.6106 (129.0) Yc = 134.85 (index of TTKM, base year 1951) This value (Ye) differs from the actual index (134.9) by about 0.1 percent. On the assumption that the ratio of capital to labor productivity is relatively constant for 1958-60 and by the application of the es- timated increases (index) of capital productivity and labor produc- tivity, the estimate of TTKM capability for 1960 can be derived as follows: Yc = -13.97 + 0.5384 (158.9) + 0.6106 (1)43.7) Yc = 159.3 (index of TTKM, base year 1951) Thus TTKM capability in 1960 would be approximately 62 billion ton-kilometers instead of the required 68 billion ton-kilometers. On the basis of annual growth in traffic kilometers during 1951-57, a total of 6 billion traffic kilometers would indicate that East Germany is 2 to 3 years behind the 5-year planned rate of increase in total traffic capacity. The results of the above correlation and its projection to 1960 are subject to separate check by projecting the growth in traffic kilometers on the basis of an average annual rate of growth. If the average annual rate of growth during the period 1951-57 is computed, the following results are achieved: Year Million Traffic Kilometers Annual Rate of Growth (Percent) 1951 38,654 5.7 1952 41,621 5.7 1953 44,905 5.7 1954 48,983 5.7 1955 51,613 5.7 1956 52,133 5.7 1957 53,972 5.7 1958 57,048 5.7 (Projected) 1959 60,300 5.7 (Projected) 1960 63,737 5.7 (Projected) -59- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T On this basis the capacity for 1960 would be about 64 billion traffic kilometers, or 4 billion traffic kilometers less than set forth in the plan. This computation is not too conclusive, however, because a declining average annual rate of growth was noted in the years after 1954, and the actual increase between 1957 and 1958 was only 0.5 percent. Projections also were made on the basis of the average annual increases between 1954 and 1957, as follows: Year Million Traffic Kilometers Annual Rate of Growth (Percent) 1954 48,983 3.3 1955 51,613 3.3 1956 52,133 3.3 1957 53,972 3.3 1958 55,753 3.3 (Projected) 1959 57,593 3.3 (Projected) 1960 59,494 3.3 (Projected) On the above basis, traffic kilometers are more than 8 billion less than the planned goal of 68 billion traffic kilometers. The latter method, which reflects a recent rate of growth of 3.3 per- cent, is believed to be closer to the actual rate than the rate of 5.7 percent computed for the years 1951-57. Data on plan fulfillment for 1958 indicate a 5.2 percent rate of growth in freight traffic and a decrease of 6 percent in passen- ger traffic above that of 1957, thus giving some support for using the latter figure for the years 1959-60. No definitive explanation can as yet be provided on the actual reasons behind the apparent discrepancy between planned traffic goals for the railroads in 1960 and the trend of annual performance. At best, the plan can be estimated as being slightly more than 1 year (approximately 4 billion traffic kilometers) behind the anticipated 1960 schedule. By 1960, in all probability, there will be a lag of slightly more than 2 years (8 billion traffic kilometers) behind the 1960 goal. In the absence of large quantities of freight that have not been shipped (there was a considerable backlog at the end of 1958, but it was eventually moved), it can be assumed that the lag is due to the fact that demands in rail traffic have not been as high as anticipated (that original plans of industrial demands were wrong) or that other modes of transport have taken over much of the increased traffic - 60 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 S-E-C-R-E-T burden of the railroads. In view of the increase in motor transport traffic kilometers of 14 percent in 1958 above that of 1957, the logical assumption would seem to be that the demands on rail traffic have not grown to the proportions originally anticipated in 1955 by East German planners and that some shifts of traffic to motor trans- port have taken place. - 61 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 R Next 4 Page(s) In Document Denied Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 Figure 2 10 11 12 13 14 15 55 BORNHOLM (DENMARK) 55 Reichsbahn Directory Berlin Halle Magdeburg Schwerin Dresden Erfurt Cottbus Greifswald International and interzonal rail connections Single-track railroad Double-track railroad Electrified railroad Autobahn Road Canal Stralst. 0 10 20 30 40 50 60 Greifswald POMMERSCHE 54 P*V'N USEDOM S7TTINERJ HAFF BUCHT ch erin BOCHEN 1 Ne brandenbur Maritz See 8 ANTOW Ludwigslipt zollern FEDER Stendal REPUBLIC POLAND POT SA Frankfurt 3 HELMSTEDT GUBEN Ir14 GERM NY Spree Stassfurt Dessau Cottbus Forst tide bee LEIPZIG ji_HORKA 12 GORLITZ 11 abets Mau ZVVICKA u-- cI1IEMNITZ Z TTAU 8 .RADIUMBAD-BRAMBACH OV AKI 13 PRAGUE (,) Boundaries are not necessarily those recognized by the U.S. Government. 14 15 27591 3-59 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 SECRET SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/06/04: CIA-RDP79R01141A001600110001-0 50X1 50X1