Z 2003/05/14: CIA-RDP79-O 1 t pin d spion a Act 0 V.S C., 1 and 32, as am rtded. Its grans fission or the This c t 6 grins information affecting the national defense of the Unite 5 wits n  Approved For Re ease 000200010009-0 LIST OF EFFECTIVE PAGES, CHAPTER IX CHANGE IN SUBJECT MATTER EFFECT Cover Page . . . . . . . . . . . . . . . . . Original List of Effective Pages and Table of Contents, Chapter IX (inside front cover) . . . . . . . . . . . . . Original Text . . . . . . . . . . . . . . . . . . . Original Figures (inserts, reverse sides blank) . . . . . . . . Original Text . . . . . . . . . . . . . . . . . Original Figure (insert, reverse blank) . . . . . . . . . . Original Text . . . . . . . . . . . . . . . . . Original Figure (insert, reverse blank) . . . . . . . . . Original Text . . . . . . . . . . . . . . . . . . . Original Figure (insert, reverse blank) . . . . . . . . . . Original Text . . . . . . . . . . . . . . . . . Original Figures (inserts, reverse sides blank) . . . . . . . . Original Text and Figures . . . . . . . . . . . . . . . Original Figure (insert, reverse blank) . . . . . . . . . . Original Text and Figures . . . . . . . . . . . . . . Original Figures (inserts, reverse sides blank) . . . . . . . . Original Table of Contents, continued, and Imprint (inside back cover, reverse blank) . . . . . . . . . . . . . Original PAGE NUMBERS unnumbered unnumbered pp. IX-1 to IX-4 Figures IX-1 to IX-3 pp. IX-5 to IX-10 Figure IX-4 pp. IX-11 to IX-14 Figure IX-5 pp. IX-15 and IX-16 Figure IX-6 pp. IX-17 to IX-28 Figures IX-7 and IX-8 pp. IX-29 to IX-104 Figure IX-42 pp. IX-105 to IX-144 Figures IX-53 to IX-66 TABLE OF CONTENTS Note: This chapter is based on data available in Washington, D.C. on the following dates: Topics 90 to 92: 1 March 1947 Topic 96: 1 January 1948 Topics 93 to 95: 1 January 1947 Topics 97 to 98: 1 April 1947 Page 90. INTRODUCTION . . . . . . . . . IX - 1 91. AGRICULTURE . . . . . . . . . . IX - 1 A. Natural environment . . . . . . . IX - 1 (1) Soils . . . . . . . . . . . IX - 1 (2) Climate . . . . . . . . . . IX - 2 B. Farm system and land tenure . . . . IX - 2 (1) Kolkhozy . . . . . . . . . . IX - 3 (2) Machine-tractor stations . . . . IX - 4 (3) Sovkhozy . . . . . . . . . . IX - 6. C. Farm practices . . . . . . . . . IX - 6 D. Fertilizers . . . . . . . . . . . IX - 7 (1) Manure . . . . . . . . . . IX - 7 (2) Commercial fertilizer . . . . . . IX - 8 E. Land utilization . . . . . . . . . IX - 8 92. FARM PRODUCTS AND FISHING . . . . IX - 9 A. Crops . . . . . . . . . . . . IX - 9 (1) General crop pattern . . . . . . IX - 9 (2) Grains . . . . . . . . . . . IX - 13 (3) Potatoes . . . . . . . . . . IX - 16 (4) Sugar beets . . . . . . . . . IX - 16 (5) Sunflower seed . . . . . . . . IX - 17 (6) Flax . . . . . . . . . . . . IX - 17 (7) Hemp . . . . . . . . . . . IX - 18 (8) Cotton . . . . . . . . . . . IX -19 (9) Tobacco . . . . . . . . . . IX - 19 B. Livestock . . . . . . . . . . IX - 19 C. Food consumption and distribution . . IX - 20 (1) Consumption . . . . . . . . IX - 20 (2) Distribution system . . . . . . IX - 21 Page D. Fisheries . . . . . . . . . . . IX - 23 (1) General . . . . . . . . . . IX - 23 (2) Caspian Sea . . . . . . . . . IX - 24 (3) Sea of Azov . . . . . . . . . IX - 25 (4) Black Sea . . . . . . . . . . IX - 25 (5) Northern seas . . . . . . . . IX - 25 (6) Fresh water . . . . . . . . . IX - 26 (7) Leningrad District . . . . . . . IX - 26 (8) Lithuanian SSR . . . . . . . IX - 26 (9) Estonian SSR . . . . . . . . IX - 26 (10) Latvian SSR . . . . . . . . . IX-26 93. WATER RESOURCES . . . . . . . IX - 26 A. General . . . . . . . . . . . . IX - 26 B. Surface water . . . . . . . . . IX - 27 (1) Lake region . . . . . . . . . IX - 27 (2) Humid region . . . . . . . . IX-27 (3) Poles'ye (Pripet Marshes) . . . . IX - 27 (4) Transition zone . . . . . . . . IX - 27 (5) Semiarid region . . . . . . . IX - 27 (6) Semideserts . . .. . . . . . . IX - 27 C. Ground water . . . . . . . . . . IX - 27 (1) Surficial sediments . . . . . . IX - 28 (2) Bedrock . . . . . . . . . . IX - 28 94. CONSTRUCTION MATERIALS . . . . . IX - 28 A. General . . . . . . . . . . . . IX - 28 B. Timber . . . . . . . . . . . . IX - 29 C. Sand and gravel . . . . . . . . . IX - 29 D. Building stone . . . . . . . . . . IX - 29 (Table of Contents continued, inside back cover) Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Page IX-1 Chapter IX RESOURCES AND TRADE Prepared under supervision of Intelligence Division, General Staff, U.S. Army, by Geological Survey, Department of the Interior; by Office of Foreign Agricultural Relations, Department of Agriculture; by Engineer Research Section, Army Map Service, Corps of Engineers; by Strategic Branch, Intelligence Division, General Staff, U.S. Army; and by Board of Governors of the Federal Reserve System 90. INTRODUCTION The economic structure of European USSR is that of the Soviet Union, a highly centralized state characterized by collective ownership of the means of production and by state planning of economic activity. The land, all forms of natural wealth, and almost all means of manufacturing are state property. The economy operates in conformance with comprehensive, periodic plans, prepared by the State Planning Commission (Gosplan), and the various sectors of the economy are under the jurisdiction of Union gov- ernment ministries whose progressive subdivisions, func- tional and regional, lead down to the individual Kombinat (integrated group of plants), plant, farm, store, or other economic unit. Soviet officials, in announcing the fourth Five-Year Plan, for the period 1946-1950, stated that the over-all economic objective of the USSR is to increase its military- economic potential to such a degree that the country will be safe in the future against "any contingencies." Heavy industry receives the major emphasis, and the goal appears to be the attainment by 1970 of the aggregate heavy indus- try output level reached by the United States in 1939. In this Soviet economic pattern, European USSR has a key role. The area includes by far the bulk of the Soviet Union's population, has the most extensive industrial de- velopment, and is the transportation and communications hub. European USSR, with a crop area of 250 million acres, is normally self-sufficient in most foodstuffs, and before World War II produced small surpluses. Agriculture em- ploys over half of the area's population. Natural supplies of surface or ground water are plentiful in all parts of the area except in the extreme south and southeast; in the central and northern parts there is a close network of perennial streams, and in the northwest lakes are numerous. Construction materials are abun- dant. Timber is found in the northern and central parts of the region; sand and gravel are widely distributed as surficial deposits; building stone, crushed rock, and cement materials are generally available. Iron reserves of European USSR are estimated at ap- proximately 5 billion metric tons, or 451/, of the total of the Soviet Union. The area's manganese accounts for nearly half of the total annual production of the USSR; reserves are estimated to exceed 400 million tons. Coal production reached 96 million tons in 1940, and reserves are approximately 10 of the Soviet Union's total. The petroleum resources of European USSR, however, amount only to about 2.51,~ of total USSR reserves. The area's electric power capacity at the end of 1946 totaled approximately 9.5 million kilowatts, estimated to be more than 701of total Soviet installed capacity. Sixty-five percent of prewar Soviet industry was located in European USSR. War damage and removals resulted in the loss of approximately 40% of the area's industry. While there has been a major trend toward development of industrial capacity eastward beyond the Urals, much war-shifted capacity has been reestablished in European USSR and in 1946 the bulk of capital construction took place in this area. 91. AGRICULTURE With a crop area of over 250 million acres and more than half of its population engaged in agriculture, European USSR not only leads all European countries, in agricul- ture, but is one of the foremost agricultural areas of the world. Although considerable industrial development has taken place, especially in European USSR proper*, agri- culture continues to be the backbone of economic life in this area. A. Natural environment Soils and climate are the important natural factors which, in interaction with social and economic institu- tions, condition the agricultural pattern of European USSR. (1) Soils While a detailed soil map of European USSR would show a considerable diversity of soils, this area can be divided into two fairly well defined geographical zones, or belts: the nonblack-soil belt and the black-soil belt. The " The larger part of European USSR, which was within the So- viet frontiers at the end of 1938, is called here "European USSR proper" as distinguished from the territories acquired since the beginning of World War II, termed "newly incorporated" or "ac- quired territories." These include territories acquired from Fin- land, Poland, Rumania, and the three Baltic Republics: Lithuania, Latvia, and Estonia. Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-2 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 a belt of relatively infertile, leached podzol, or nonblack soils, extends over the wooded northern and north-central parts of the country, and merges in the extreme north into the tundra. The much more fertile belt of cher- nozem, or black soils, which are rich in humus, extends south of the nonblack-soil area, over the forest-steppe and steppes of the Central Agricultural, Middle and Lower Volga, and the Southern regions, merging in the east and extreme south into the soils of the dry steppes (FIGURE IX-4). The nonblack soils account for 711/c and the black soil for 261/c of the total area of European USSR proper. The proportion of the nonblack-soil area would be even larger if estimates were available for the newly incorpo- rated regions, as their soils are predominantly podzolic except in Bessarabia where there is a considerable area of black soils. Although the black-soil belt is much smaller in size than the nonblack-soil belt, it has been agricul- turally more important because of its greater fertility. It forms, in fact, the chief natural foundation on which Russian agrarian economy has developed. The distinction between the two soil belts is so im- portant that it has long served as a basis for a broad economic regional division of the country. The black-soil belt is often called the producing area, for it has been the grain surplus region of the USSR. The nonblack-soil belt on the whole has a grain deficit and is called the consuming area. Nevertheless, with the proper use of fertilizers, and, in some cases, with proper drainage, a large part of the nonblack-soil belt is well suited for agri- cultural production; except for climate, it is as well suited as the inferior soils of Denmark and Germany. Because of adequate precipitation, crop yields fluctuate less from year to year in the nonblack-soil belt than in much of the more fertile black-soil area, a considerable part of which suffers from recurrent droughts. The nonblack-soil belt is particularly well suited to the growing of flax for fiber, potatoes, root crops, and hay, and consequently for live- stock raising. The latter is essential to produce the ma- nure necessary to maintain the fertility of the soil. A larger proportion of the arable land must therefore be devoted to forage crops and less to food crops in the non- black-soil regions than in the black-soil area. (2) Climate Climate does not give the south a great advantage over the north in agricultural production. In the northern and north-central regions, low temperatures and some- times excessive moisture hamper agriculture, but in the south, and especially the southeast, moisture deficiency hinders production. In the north, the long daily duration of sunlight during the growing season compensates some- what for the low temperatures. Even in the south, how- ever, the average frost-free period, which roughly meas- ures the growing season for crops, is short. In Khar'kov (the Ukraine), for instance, the average frost-free period is 151 days, or only slightly longer than in Duluth, Minnesota. As far south as Rostov-on-Don, it is 184 days, as at Milwaukee, Wisconsin. Only in the extreme south does the frost-free period exceed 200 days. In Yalta, on the southern shore of the Crimea, it reaches 245 days, as at Wilmington, North Carolina. The frost-free period increases not only from north to south, but also from east to west. Thus Kiev, west and slightly north of Khar'kov, has a frost-free period 21 days longer than Khar'kov. L'vov, in about the same latitude but still further west, has a frost-free period of 186 days. Whereas the frost-free period in Moscow is only 130 days, as in northern North Dakota, in Leningrad it is 160 days and in Riga 173 days owing in part to the moderating influence of the Baltic Sea. The data above indicate that the growing season for crops, or the frost-free period, is relatively short in Euro- pean USSR. The Russian farmers therefore have less time in which to do their field work than the farmers in most farming areas of the United States and Western Europe, and their seasonal load is heavier. This creates the problem of employment during the long period not suitable for field work. The relatively short growing season limits the selection of crops. Citrus fruits cannot be grown even in southern Crimea, and only the most rapidly maturing varieties of cotton can be grown in southern European USSR, where this crop was introduced on a commercial scale in the 1930's. Even such early varieties of cotton often are injured by fall frosts. With the progress of plant breeding and develop- ment of rapidly maturing varieties, the range of crops has grown, and the limits of cultivation are being pushed northward. It has proved possible to grow crops, espe- cially vegetables, even in the arctic region. More serious than temperature deficiency is the fact that so much of the fertile black-soil area is in the semiarid zone (the boundary of which is indicated on FIGURE IX-4 by the precipitation line of 16 inches (400 millimeters). Here the precipitation is sparse and uncertain from year to year. Moreover, owing to high temperatures, high evaporation during the summer months reduces the mois- ture supply available to crops. Droughts frequently re- cur, often aggravated by scorching winds that blow from the deserts of Central Asia and play havoc with growing crops. Harvests are uncertain, especially in the eastern part of this zone where spring wheat, vulnerable to spring and early summer droughts, predominates. B. Farm system and land tenure Prior to the 1930's, when agriculture was collectivized, the USSR was characterized by peasant farming of small individual tracts of land. Even before the revolution of 1917 the peasants owned 70%, of all land in European Russia, and they leased a considerable portion of the re- maining 30% which consisted of large estates. After the revolution, the estate land, with insignificant exceptions, was divided among the peasants who continued to till it on an individual basis but the state kept title to all land, and private ownership of land was legally abolished. Most of the peasants lived in villages and not on sepa- rate farmsteads as in the United States. Cultivated areas were divided into a number of rather narrow strips, and the holding of each peasant family consisted of strips in each field, which were usually intermingled with strips of other families. The strip system in Russia, as in other European countries, was a result of the attempt to equal- ize holdings with respect to soil, topography, and distance from the village. Over a large part of Russia, such equal- ization was associated with the communal, repartitional type of land tenure, under which the land commune (mir) allotted holdings to its members on some uniform basis with general or partial repartitions of land at regular or irregular intervals. Under an hereditary system of land tenure, which prevailed in the western provinces of Russia, the strips resulted from successive division of holdings among heirs in the process of inheritance. This scattered strip system of farming, although con- ducted on an individualistic basis, was usually associated with a common crop rotation, since it was difficult to plant different strips of the same field with crops of vary- Laiifidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  roved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 el RESOURCES AND TRADE Page IX-3 ing growing seasons and maturities, especially since the stubble frequently was used as pasture. Such a system of farming precluded the use of modern power machinery, involved considerable waste of land in boundaries between strips (providing a fertile breeding ground for weeds and pests), and wasted time in traveling from one field to another. During the decade preceding World War I, a strong effort was made by the government to promote con- solidation of the scattered strip holdings into a single tract but such consolidated holdings were divided again dur- ing the revolution. Another consolidation of scattered holdings, on a much larger scale, occurred in the early thirties when Russian agriculture was collectivized, fol- lowing a bitter struggle of the Kremlin with the peasants, in the course of which millions were driven off the land and many deported to remote regions. (1) Kolkhozy As a result of agricultural collectivization, there were developed two distinct types of Soviet farm units and a separate farm machine service organization: 1) the col- lective farm or kolkhoz (plural "kolkhozy"), 2) the state farm or sovkhoz (plural "sovkhozy"), and 3) machine- tractor stations or MTS. By far the most important of these is the kolkhoz, which represents the pooling of the holdings of formerly independent peasant farmers oper- ating under tight government control and direction. Only the land, horses, and other livestock (with some qualifications discussed in Topic 92, B), and the farm machinery are collectivized. The elimination of boun- daries transformed the narrow strips into large fields, suitable for modern power machinery, especially in the level steppe country. The peasant families, having thus pooled their holdings, continue to live in their own dwell- ings in villages. Each village usually comprises the mem- bers of one or more kolkhozy, and from these centers the farmers go out every day to work the collective fields. The state continues to own the land, but each collective farm holds the land it occupies for an unlimited period, "in perpetuity," according to Article VIII of the Soviet Constitution. The title of the kolkhoz to the land is secured by a title deed issued after an official land survey is made. In addition to their dwellings, each peasant family is entitled, if land is available, to a small plot for a kitchen garden and a small number of personally-owned cattle, hogs, sheep, and goats. But horses, except in nomadic regions, are collective property. A member of a kolkhoz who needs a horse for his own use must borrow it from the kolkhoz. When their earnings from the kolkhozy were small, the peasants often found it advantageous to work on their little plots and tend their few animals rather than to work in the collective fields, especially if they had the oppor- tunity to sell their produce at good prices on the limited private market in a neighboring town. Kolkhozy mem- bers have a legal right to carry on such trade provided they do not use the services of a middleman. In 1937 this personal farming by members of the kolkhozy was esti- mated to yield over one-fifth of total agricultural produc- tion. In 1939 the government decided to limit this type of farming, which competed with collective farming, by fixing a minimum required time for each member to devote to collective work. Members of collective farms, both men and women, who consistently fall below the mini- mum are liable to expulsion and loss of their plots of land. The basic law governing the organization, function, rights, and obligations of the kolkhoz is embraced in a model charter approved by the government in 1935. Ac- cording to the charter, the kolkhoz is a self-governing organization. It elects its officers by majority vote, and manages its own affairs within limits set by government plans and regulations. In practice, however, government officials have been in the habit of appointing, dismissing, and transferring officers of the kolkhozy at will. The government concerns itself directly with problems of seed and forage supply, timely and efficient sowing and har- vesting, proper care of livestock, crop rotation, internal organization of the farm unit, and many others. Crop acreages and even yields per acre, and numbers of live- stock, are directed by national plans, establishing the goals for republics and provinces. Local goals are set up by republic and province authorities. The state is a partner in collective farming and has the first claim on production. A kolkhoz must deliver to the government, at low fixed prices, a specified quantity of crops and livestock products per unit of land. The kol- khoz must also pay the state for the field work (plowing, seeding, harvesting) performed by state-owned tractors. After the obligations to the state are met, seed supplies assembled for the next year's sowing, and other required reserves set up, the remainder is available for distribution by the kolkhoz to its members. The kolkhoz may sell some of its produce to the government at somewhat higher prices than those fixed for compulsory deliveries, and thereby also secure the privilege of purchasing some manu- factured products in short supply. It may sell some of its produce on the free private market in the neighboring town at uncontrolled prices, which are usually higher than the prices paid by the state. As no middleman can be legally employed in this process, such trade is limited in scope. The remainder of the kolkhoz output is distributed in kind among the members, as is the cash income after the necessary expenses of production are met and required appropriations to capital are made. Distribution in kind and in cash is made on a sort of piece-work basis, accord- ing to the quantity, skill, and quality of work performed. Work is measured in special units called "labor days." The greater the skill required in a particular task, and the.greater the quantity of work done, the larger the pay- ment assessed in terms of "labor days." Bonuses for bet- ter quality of work, resulting in higher yields of crops or livestock products, have also been provided in terms of additional "labor days." Inferior quality of work is pun- ishable by reduction in the number of "labor days" as- sessed. The total number of "labor days" credited to all members of the collective farms are added up at the end of the year, and the income to be distributed, in cash and in kind, is divided by the total number of "labor days." Each "labor day," therefore, entitles a member of the collective farm to a certain quantity of the product and cash, and, since the number of "labor days" credited to different members of the kolkhoz varies, their earnings also differ. The earnings of individuals and families show considerable variation in the same kolkhoz. There are even greater variations as between different kolkhozy, since the quantities distributed per "labor day" vary from kolkhoz to kolkhoz, depending upon such factors as effi- ciency of management, fertility of the soil, type of equip- ment, distance to town markets, and weather conditions, which vary from region to region. For instance, in 1937, in the Central Agricultural region, 22.2 ~4, of all members of the collective farms were credited with 50 or less "labor days," 16.1% from 51 to 100, 25.4% from 101 to 200, 17.8% from 201 to 300, 10.51,/c from 301 to 400, and 8.01/o over 400. Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-4 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 NUMBER OF COLLECTIVE FARMS (KOLKHOZY) AND HOUSEHOLDS, ALL LAND AND SEEDED AREA PER COLLECTIVE FARM (KOLKHOZ) AND HOUSEHOLD BY REGION, EUROPEAN USSR., 1 JULY 1938 European USSR proper: North .................................. Northwest .............................. Central Industrial ........................ Central Agricultural ...................... Upper Volga ............................ Middle and Lower Volga .................. South .................................. West.. ................................. Number of kolkhozv All European USSR proper ....................' Number of households per kolkhoz i j Total land Total land Total. seeded Totalseeded per per area per area per kolkhoz* household* kolkhoz household Acres Acres Acres Acres In the same Central Agricultural region, the average amount of grain, which is the most important product, distributed per "labor day" was four kilograms, or about nine pounds. But, in 24% of kolkhozy it exceeded 11 pounds. For purposes of labor management, the members of a kolkhoz usually are divided into so-called brigades, each including 40 to 60 workers under a foreman. A definite area of land to be cultivated or a certain number of live- stock to be tended is assigned to each brigade. For crops such as sugar beets or cotton, which require much in- tensive labor, a brigade is further subdivided into smaller units, called zveno. On 1 July 1938 there were over 168,000 kolkhozy in Euro- pean SSR (TABLE IX-1). The size of the kolkhozy, both in population and in seeded area (FIGURE IX-1), varies from region to region. The number of peasant households or families in a kol- khoz, and the seeded area per household, are small in the more northern regions. These regions are not densely populated, their villages have always been small, and a considerable area of their land is under forests and per- manent meadows or is not suitable for agricultural pur- poses. The much more densely populated Central Agricultural region and much of the Ukraine (south) has large collec- tive farms measured in the number of households, but the acreage seeded per household is relatively small. The Middle and Lower Volga region has a large number of households per kolkhoz and the largest acreage seeded per household. However, much of this region is in the semi- arid zone of low and variable crop yields which to some extent offsets the larger acreage. In 1938 the kolkhozy accounted for 86.2% of the crop area, varying from 83% in the south to 92% in the Upper Volga region (TABLE IX-2 and FIGURE IX-2). (2) Machine-tractor stations Tractors, combines, and other important farm imple- ments are not owned by the kolkhozy, but by state ma- chine-tractor stations, which supply the necessary power machinery and operators to the kolkhozy on the basis of annual agreements. For their services the machine- tractor stations are paid in kind by the kolkhozy at speci- fied rates per hectare (2.471 acres). These rates vary with the officially determined crop yields in a district. The machine-tractor stations usually have repair shops for tractors and combines, and also staffs of mechanics, agronomists, and officials to provide technical assistance and direction of the kolkhozy. Tractor drivers are paid by the kolkhozy on the basis of "labor days" earned, as are other collective farmers, except that minimum amounts of grain and cash per "labor day" are prescribed by law. Combine operators are paid by the machine- tractor stations. European USSR proper: North ........................ Northwest .................... Central Industrial ............. Central Agricultural ........... Upper Volga .................. Middle and Lower Volga...... . South ........................ West ......................... Collective farms State farms Percent of total sown area Collective State farms farms 1,000 acres 1,000 acres 1,000 acres 3, 688.0 111.2 244. 6 13, 176.4 410.9 1,092.4 21, 428.0 1, 306.7 1, 318. 3 31, 660. 7 2, 216. 7 2, 548. 4 18, 208.3 545. 1 990. 9 26, 935. 6 3, 716. 4 751. 9 63, 865.5 8, 210. 4 5,086.0 7,026.0 150.0 1,069.2 All European USSR proper......... j 185, 988. 5 16,667.4 13, 101. 7 9, 722 47 2, 523 57 381 8 1.5. 1 32, 501 37 1,305 37 405 11 31. 0 34, 146 56 1,324 25 640 11 48. 3 23, 041 94 2, 293 25 1, 280 14 55. 8 21, 828 52 1,576 32 835 16 53. 0 7, 003 136 10, 272 82 4, 090 30 39. 8 30, 436 138 3, 517 25 2, 098 15 59. 7 9, 665 74 1, 977 27 726 10 36. 7 168,342 4,043.8 14,679.7 24, 053. 0 36, 425. 8 19,744.3 31,403. 9 77,161.9 8, 245. 2 91.2 2.8 89.8 2.8 89.1 5.4 86.9 6.1 92.2 2.8 85.8 11.8 82.8 10.6 85.2' 1.8 Percent seeded area to total land per kol- khoz 6. 0 100. 0 7. 4 100. 0 5. 5 100. 0 7.0 100. 0 5. 0 100. 0 2. 4 100. 0 6.6 100. 0 13. 0 100. 0 Q i'4l Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 AW FIGURE IX-1 LAND SOWN, COLLECTIVE FARMS, 1938 JANIS 40 Cgy-magm -i1ii~?- EUROPEAN USSR: COLLECTIVE FARMS PERCENTAGE OF LAND SOWN PER HOUSEHOLD, 1938 10 15 20 25 30 35 40 45 50 55 60 65 70 75 KA RA SE A o A Y r B A R E N T S S E A 0/ 65 SWEDEN 65 WHITE SEA ~~ r o a l Ark FINLAN 14x NORTH 60 Y I tIAKE ONEGA 60 LAKE LADOGA GULF OF FINLAND BALTIC 57 SEA re Leningrad / ESTONIA .n, Vologda L ,1 Riga ~ ^+. T ~ ! ~?~ 703x F ', A /., 50x 50x ~'~ F 55 1 7 (L. \? 4 .; Kalinin / Ivg}'ipYq? 44z b ' 55 \ a t \...~ 37 s. 5 Gorky NORTHWEST Moscow lMoskval? J I- I< Ll ` , GERMAN ~ al nsk 25 U P P E 9 VOLGA ~ ~ s- 7 -?~ .~./'y J C ENTRAL INDUSTRIAL % x Tula ?RYaxan' fj ~~. Ulyanovsk 63 s MIDDLE P L A N D 27 .ores CENTRAL WHl IA 'Pena AGRICULTURAL 41" 6 K.,by h j AND (WEST) ?T? a L OW R VOLGA Ku k* 50 44x ': 50 _ Lvov ~? ` ~~ ~ K 366x 25 zecx.'~ Yinnilsa ? Kharkov 40x .; 634x j 60x SOUTH Dnepropetrovsk 25 Total land 82 per household Rosmrna Deno DdfdSd 45 SEA OF AZOV `, Astrakhan _ Total sown area 45 R UMANIA ~~~ ~ \, rood CASPIAN Figures under circles represent ?~. SEA acres per household BULGARIA L BACK Shi istosI data & na in~wae area. or the USSR beyond the 1937 bo.rd., S BOUNDARIES ~! . USSR - ? - International (1937) ? ~////OO/1dl0. JANIS study T U R 40 ~. NOTE. 0,. so?ne. D, uh_. on tO. ..w do - ?.n.O cen.w-d ;n .n coresro A. ea:nd. r.coq:..dh rh. U S. 6--v 40 U. S Gc...mneet h . not r.noena,,ef. ir:.wywai AE..~a, 1MVa, .nd I.rtnwnu i05 N. Swiee Union. Y 100 200 300 Miles 0 100 200 300 KI ~ CASPIAN SEA AL 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-2 SOWN AREA, 1938 JANIS 40 C iTT" T1k%bw- EUROPEAN USSR: SOWN AREA BY TYPES OF FARMS, 1938 10 15 20 25 30 35 40 45 50 55 60 65 70 75 XARA SE o BARENTS S EA J j a ~ 1, ob, o 65 /SWEDEN 65 S O WNI TE a SEA S 0 Arkhangel'sk OR FINLAN ?\ 2.ax 60% 60 I) L1 LACE ONEGA 4.0 60 LA K NORTH LADOGA BALTIC GULF OF FINLAND Leningr a SEA ESTONIA 2.8% 74% Vologda 2.Sx 6 L A Riga 5.4 5.5% = -. 14 7 . 55 c r T ? \`, NORTHWES Kalinin. Ivj T 55 Dorkiy yb. 19.7 ?''^ zan MOSCOW Ka J/ J (Moskva) OLG A / V 24,1 U PPER y GERMAN j ,~ r?~ 13. Smolensk ~ ) CENTRAL C INDUSTRIAL j .8% Ryazan' ~ Tula Ulyanovsk i. 8.2 Z Kuybyshev WHITE R SSIA P L A N D CEN Orel61 P za TRAL AGRICULTURAT (WEST . Tambov MIDDL AND U'.l so Kursk. LOWER O L G A 50 Saralov 6.6% ?l'vov I 10.6x 24% it. ?.. 36.4 czecx. Vinnilsa. ? Kharkov 2 x SOUTH Dnepropetrovsk 31.4 Collective farms ? State farms Odessa Rostov no Deno 4 Other farms 45 Astrakhan 45 SEA Of - Total farms 0 RUMANIA A Z O V u.wd. Figures under circles represent millions of acres ~. Yalta C CASPIAN , SEA Sbdisf I date do not inctode areas of the USSR beyond the 1937 booed., BULGARIA BLACK S E r1 '"~ ? A BOUNDARIES ?" USSR - ? - International (1937) WMA, JANIS study 40 T U NOTE: 76 s...d.d?.r.....a do a,.? ?.Atr -d 40 md.6oi.d.d...~Y~ by di. U S. Goo.n..x. F, Th. U. S Gonse..o 5..d -add. n..ononnm u/E , Ln;y .d Labo... mN U.. .So.;., U.ino. 0 100 200 300 }' Milan 0 100 200 Kit I CASPIAN SEA f R A N IRAN 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-3 COLLECTIVE FARMS SERVICED BY MACHINE-TRACTOR STATIONS, 1937 JANIS 40 C( rDENT AL EUROPEAN USSR: COLLECTIVE FARMS PROPORTION SERVICED BY MACHINE TRACTOR STATIONS, 1937 10 15 20 25 30 35 40 45 50 55 60 65 70 75 KARA SE O A . Y BARENT S S E A o A f ^vJ o O Ob' `5 SWEDEN I j 65 f o WHITE SEA aV Q a Arkhangelsk 04 011 FINLAN 50 , J 42z LACE ONfGA q., i c.. 5 x `a~ ' 60 o uK~ :: LADOGA 9.7 6 BALTIC GULF OF FINLAND 11 NORTH SEA o Leningrad ESTONIA f O I Vologda L A Riga ?~'?~ L 32s -: 74 7 55 I7 Kallnin. ivanomjk iy 55 a ~' ? NORTH EST MOSCOW Kaznta a!/ (Moskva) U P P R VOLGA GERMA N `_ ?y~. Smolensk CENTRAL 34 3 . IN DUST RI AL Ryazan' 82% Tula UI'yanovsk 9.6 F P fA N D 1WHITE R SSIA Orel, Penza d Kuybyshev (WEST) CENTRAL 7s; AGRICULTURAL j ? Tambov Kursk* 50 Saratov .J 50 ~ L'RO 2 MIDDLE AND / 230 LOWER VO GA czECx '~ ! Vinnitsa SOUTH ? Kharkov ` ? (Ukraine only.Comparable data not vailable for Rostov and Crimea) ? 98 98% ad Dnepropetrovsk 27.3 6.9 Rostovna Donu Total farms Odessa 45 Astrakhan Proportion SEA OF serviced 45 RUMANIA Az?v O Figures under circles represent th d f ll i f ousan s o co ect ve arms CASPIAN alta SEA slatisucal data -.t Include areas of the USSR beyond the 1937 bounden BULGARIA BLACK S E "''~ ? A BOUNDARIES USSR "`? r -?- International (1937) JANIS study 40 ? T U R t orE: T4 on d -.6 - -4 ra:.,ppnd A' ;n.n ~..~ m d. bound de. r.mpr:.d br d. U S Go.?nn,mr. 40 ~. rh. LaU. S. Go wMOmt Rae me ~ogond A. 1....porae7oa d E..* 50 .d LdoaeA. drte d. Swm Union . r 100 200 300 Mile 0 100 200 300 Ki J CASPIAN SEA ENTIAL I ~ Q, [ R A N IRAN ) 30 35 40 4 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE In 1937 there were over 3,500 machine-tractor stations in European USSR. Each machine-tractor station, on the average, served 38 kolkhozy with a seeded area of about 49,000 acres. The number varied from 13 in the Middle and Lower Volga area, where collective farms are large, to 80 in the northwest where the farms are small (TABLE IX-3). Page IX-5 ALL COLLECTIVE FARMS, AND COLLECTIVE FARFIS SERV- 1(1?D BY MACHINE-TRACTOR STATIONS, 13Y REGION, EUROPEAN USSR, 1937 Collective farms serviced by MTS \I"JIBER OF MACHINE-TRACTOR STATIONS (FITS), COLLEC- 1IVI, FARMS SERVICED PEB FITS, AND NUN113ER OF TRAC- All collee- live farms Compared to all col- f l i Sown area to sown area of all collective TORS AND COMBINES PIA1 FITS, EUROPEAN USSR, 1037 European USSR proper: Thousands arms ect ve Percent farms Percent North .................. 9. 7 58 65 Num- Collective Northwest .............. 32. 6 75 82 h f farms \um- Mm- Central Industrial ....... 34.3 68 82 er o MT., serviced tar of 1 her of Central Agricultural. . . . . 23.0 93 97 f raC- Co111- tipper Volga............ 21. 8 74 85 Num- Sown ! tors i hind .Middle and Lower Volga. 6. 9 98 99 her area South* ................. 27. 3 98 99 West ................... 9.6 82 87 l-:uropea.n I SSR proper: North ...................... 126 -15 19. 7 . 37 3 -Northwest .................. 305 80 36.9 46 3 Central Industrial........... 387 61 .16.5 5-1 1 8 Central Agricultural......... 595 36 17.11 55 14 t-pper Volga .......... ..... 247 65 61. 0 52 12 Middle and Lower Volga .... 528 13 51. I 76 29 South ..................... I. 148 26 5-1. 2 70 2-1 West ...................... 200 40 32. 3 36 3 In 1937 the machine-tractor stations on the average had 60 tractors and 17 combines, but the number ranged from 36 tractors and 3 combines per station in the West, to 76 tractors and 29 combines in the Middle and Lower Volga area. In the South and the Middle and Lower Volga, 98`(" of the collective farms were serviced at least to some extent by machine-tractor stations. The Central Agri- cultural region followed with 93(7, ; the smallest percent of kolkhozy serviced by machine-tractor stations, less than 60 ; , was in the North (TABLE IX-4 and FIGURE IX-3). The most mechanized field operation is plowing. Sow- ing and harvesting are much less mechanized in most regions. Thus, in the Ukraine, 85(/,' of spring plowing was done with tractors, but only 40`-' of spring seeding * t'kraine only. No comparable data are available for Rostov and Crimea. was mechanized. The gap in mechanization between plowing and other field work was much smaller in the Middle and Lower Volga and Crimea, while in the Ros- tovskaya Oblast' there was greater mechanization of seed- ing and harvesting than of plowing (TABLE IX-5). A serious drawback in the work of the machine-tractor stations has been the poor maintenance of equipment, resulting in frequent breakdown and stoppage, and need for extensive repairs and overhauling. The excessive turnover of tractor drivers and combine operators, in- duced by poor living conditions and large arrears in pay- ment of wages, was another unfavorable factor during the prewar period. By a decree of the Presidium of the Su- preme Council of the USSR of 17 July 1940, tractor drivers and combine operators were prohibited from quitting their jobs without permission of the management. World War II had a very adverse effect on machine- tractor stations. In the invaded zone, the Germans de- stroyed over 2,600 machine-tractor stations, and destroyed or removed 137,000 tractors and 49,000 combines and much other machinery, according to a report of a Special Soviet Investigating Commission. Spring plowing European USSR proper: Percent Percent North .................................... 34.I 3. 3 Northwest ................................ 45. 9 4. 2 Central Industrial ....... ............ 59. 2 15. 9 Central Agricultural ........................ 76. 3 30. 7 tipper Volga .............................. 52. 2 19. 0 Middle and Lower Volga.. ................. 9I. -1 75. 5 South: tikraim .............................. ....85.0 39. 9 Crimea ..... .............................. 89. 6 59.9 Rostov .................................. 83. 0 83. 6 'tVest ..................................... ....I 55.9 9 (;rains Percent Fall plowing Percent Fall sowing Percent Total Percent legumes Combines only Percent 4. 1 57.5 10.7 2.9 2.7 6.0 40.3 15.2 2.4 2.2 20. 2 1 49.5 27. 4 7. 0 (i.9 37.1 52.5 35.5 16.5 16.3 21. 1 54.0 25.5 9.7 9.7 85. I 84. 9 Ski. 0 74.5 58.9 1-1. 6 71. 6 38. 7 -14. 5 39. 6 75. 4 86.0 68. 1 80.2 78.6 91.0 82. 1 !'8.8 83. 62. 1 Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Page IX-6 JANIS 40 In the uninvaded zone some tractors were withdrawn for army use, and the stations also lost, through army mobilization, most of their skilled personnel. The extent of the decline in tractor work can be gaged from the fact that, while the total volume of such work for the Soviet Union as a whole increased by 22 % in 1945 over 1944, it still was less than half of the prewar volume. For Euro- pean USSR proper, the decline was probably greater. Reconstruction of the destroyed machine-tractor sta- tions began immediately after the expulsion of the enemy from each region, and is still going on. The postwar Five- Year Plan, promulgated in March 1946, contemplates in- troduction during 1946-50 of not less than 325,000 new tractors, the bulk of which will undoubtedly go to the machine-tractor stations, and the creation of 950 new machine-tractor stations, most of which will probably be located in European USSR. (3) Sovkhozy The sovkhoz, or state farm, is a farm entirely owned and operated by the state, like any factory in the Soviet Union. The first state farms were organized during the early years of the Soviet regime from what was left of the estates that the peasants had not already seized. A new impetus to the development of state farming was given by the grain crisis of 1928-29, when the government encountered great difficulty in collecting grain from the peasants for the needs of the urban population. The government decided then to establish large mechanized state grain farms, pri- marily on uncultivated land in the drier areas of the Union. Later, during the collectivization campaign, peas- ant slaughtering of their livestock on a large scale created a severe livestock shortage. At that time the government established large-scale state farms to raise livestock. Sim- ilar ventures in state farming were made in other branches of agriculture. The state farms were at first unwieldy and suffered from excessive specialization and from inefficient utilization of tractors and combines. These problems led during the 1930's to subdivision, transfer of some land to the kolk- hozy, and emphasis on diversified farming. In 1938 the state farms in European USSR accounted for less than 8`%, of the total crop area. The largest acreages under state farms were in the south, particularly the southeast, followed by the Middle and Lower Volga, the Central Agricultural, and the Central Industrial re- gions. The acreage under state farms in the northern regions was small (TABLE IX-2 and FIGURE IX-2). In the newly incorporated territories, before they were occupied by the Soviet Union, small and medium-sized peasant holdings largely prevailed. During the interwar period all these territories had undergone more or less extensive agrarian reforms in which some redistribution of ownership in favor of the peasant farmer took place. If 50 hectares (about 125 acres) is taken as a rough dividing line between smaller and larger properties, in Estonia and Lithuania over 80% of the land was in small and medium-sized holdings; in Latvia, about 75 %1c ; and, in the former Polish territories, about 65 percent. Much of the land in large holdings in the Polish territories was in forests or otherwise not used or usable for agricultural purposes. In Bessarabia, where details of distribution are available only for crop land, holdings up to 50 hectares occupied 94% of the total crop area in 1931. A new redistribution has taken place since Soviet occu- pation, or reoccupation, of these territories. Detailed sta- tistical data on the results of the new agrarian reform, however, are lacking. Confidential C. Farm practices The collectivization of agriculture has been accom- panied, not only by a considerable mechanization of farm operations, but also by the government's strong emphasis on the adoption of certain farm practices tending to im- prove crop yields. The government has a vital interest in increasing agri- cultural production, and improvement of yield per acre has been considered the principal means to this end since the early 1930's, when the major expansion of acreage took place. While the acreage was being increased, during the early years of collectivization, the yield per acre declined, partly because of the inferior land brought under cultivation (extension of farming in the semiarid zone), but largely because of inefficient management and the poor work of the peasants on the new collective farms, which they were forced, as a rule, to join. This, coupled with the fact that the crop yields were generally lower in the Soviet Union than in Western Europe and the United States, stimu- lated governmental effort to increase the yields by adop- tion of better farm practices. In comparing crop yields in the Soviet Union with those of the United States, and particularly Western Europe, there should not be overlooked, apart from the respective efficiencies of farm practices, the differences in climatic and economic conditions which are in no small measure responsible for variation in yields. Light pre- cipitation and a short growing season in USSR tend to- ward low yields of crops. Similarly, until recent years, relative abundance of land and slight industrial and urban development, which limited a profitable market for agri- cultural products, favored extensive farming in Russia, with its low yields, as compared with the intensive farming based on high yields per unit of land in the industrialized western European countries. A scientific system of crop rotation holds the center place in this government program of improved farm prac- tices. This method was intended to replace the tradi- tional three-field cropping system (winter grain, spring crop, fallow) in the north and central parts of the coun- try, and the continuous cropping in the south and east until exhaustion of fertility. While the character and number of crops and their ro- tation under the new system differ from region to region, usually involving a 7- to 10-year cycle, two features are considered essential to every cropping system: a sod crop to improve the soil and provide forage, and a fallow plowed as early as possible, preferably in the autumn, to conserve the moisture supply and for weed control. Weed infesta- tion, as a result of careless tillage during the early years of collectivization, has become a major problem. Hence, the emphasis is placed on fallowing as a means of weed eradication, even if no special measures are needed for moisture conservation. However, the effort of the government to introduce crop rotation in the 1930's was only partially successful. It was admitted by the Soviet Minister of Agriculture in 1939, (then, Commissar of Agriculture), that only 12% of the collective farms had a more or less satisfactory system of crop rotation. The agricultural planners were often re- sponsible for this state of affairs by prescribing acreage goals inconsistent with the observance of the crop rotation system. Whatever the improvement in rotation before the war, the situation, of course, greatly deteriorated with the Ger- man invasion, not only in the invaded regions but also in Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE Page IX-7 the uninvaded area, where rotation was often neglected. A new decree of the Council of People's Commissars on "measures for improvement in the introduction and adop- tion of crop rotation in collective farms," published in June 1945, once more set up in detail a comprehensive government program on this problem. As was pointed out earlier, conservation of soil moisture is of great importance in Soviet farming, so much of which is centered in the semiarid zone. Among farm practices designed to this end, retention of snow has re- ceived considerable attention. Similarly fall plowing, for seeding during the following spring, has been stressed in the Soviet production program. Fall plowing also has the advantage of easing the heavy load of field work in the spring, and has been increasingly practiced in Soviet agriculture. Another measure to protect the crops from the effects of droughts and to control wind erosion, is planting of tree shelterbelts in the semiarid steppe regions. The Russians have been pioneers in this field and, by 1940, about 500,000 hectares (1,250,000 acres) of tree shelterbelts were planted in the Soviet Union, mostly in European USSR. The war affected this work adversely. There was con- siderable destruction and neglect of the trees. A new im- petus to the planting of tree shelterbelts, however, was given by the considerable emphasis on this point in the government's agricultural Plan for 1946 and the Five-Year Plan for 1946-50. Great strides have been made in improving the quality of seed, especially since the passage on 29 June 1937 of the decree by the Council of the People's Commissars, entitled "Concerning the Measures for Improvement of Grain Seed." A system has been developed to provide the collec- tive and state farms with seed of pure strains. In the case of grain, it consists of three important stages: first, a plant-breeding station develops seed of pure strains; second, such seeds are supplied for propagation to a desig- nated collective or state farm in each district, which spe- cializes in seed production; third, this seed is delivered to a government agency in charge of the stock of seed of pure strains, and the agency, in exchange for ordinary seed, supplies the collective and state farms with pure strains for planting on special plots, to provide the seed supply for the farm. This system resulted in considerable prog- ress in the use of seed of pure strains. In 1937, 42of the total grain acreage was planted with such seed and, in 1940, 841% . Corresponding advances have also been made in other crops. The war retarded seed improvement, par- ticularly in the regions invaded by the Germans. A new decree of the People's Commissar on "Improvement of the Grain Seed Supply," published in the Soviet press at the end of February 1945, outlined various measures for post- war recovery and further improvements in this field. The progressive farm methods described above, as well as others, have been introduced on a large scale through Soviet centralized planning and direction. The beneficial effects, however, of government planning have often been offset by poor farm practices at the grassroots. Extensive weed infestation has required a great deal of labor in the actual weeding of the fields. According to one Soviet authority, on some collective and state farms, the expenditure of labor for the weeding of wheat and flax fields constituted often more than half of the total labor required for the growing of these crops. Furthermore, weed infestation has necessitated much deeper plowing and consequently increased expenditure of draft power. Another serious evil of Soviet agriculture is the untimely field work. Delayed plowing, seeding, harvesting, etc., were common during the early years of collectivization. Untimely seeding is highly detrimental to yields, especially in the semiarid region where the late crops may not have time to develop sufficiently to withstand the adverse ef- fects of a hot, dry spell. Conditions had improved con- siderably in the later 1930's, but delay in harvesting, with consequent large crop losses, has been a much more per- sistent evil, especially in the case of grain and hay. Much attention has been given by the Soviet Govern- ment to the problem of improving the efficiency of agricul- tural labor. The so-called Stakhanovist campaign, for increased labor productivity and speed-up of work, began first in industry, in 1935, and was soon extended to agri- culture. It was carried on among the tractor drivers and combine operators, and among workers in animal hus- bandry and production of intensive crops, such as sugar beets, where individual labor counts for a great deal. The campaign for increased productivity was spurred by re- wards to the pace setters. Although the efficiency of labor on the collective farms was higher in the late 1930's than in the early days of collectivization, labor requirements for production of crops were still very high. According to a sample survey of collective farms made in 1937, production of winter grains, including preharvest and harvest operations, and hauling to delivery points, required 6.24 man-days per hectare (2.471 acres) in Dnepropetrovskaya Oblast', 8.89 in Odesskaya Oblast' in southern Ukraine, and 6.82 in Rostovskaya Oblast'-all regions of highly mechanized wheat production. While comparison with the United States is hazardous, since corresponding data in this country are given in man-hours rather than man-days, and it is difficult to convert Soviet man-days into man- hours, the superior American efficiency is indicated by the fact that in the United States the number of man-hours (not man-days) required for wheat production averages only 21.5 per 2.471 acres (1 hectare), and is as low as 11.4 in Kansas and 14.6 to 16.1 in the Dakotas. Before World War II, farm methods in the newly incor- porated territories (with the exception of the Baltic Re- publics and Konigsberg) were rather backward. Although the lowlands of the old Kingdom of Rumania and Bessa- rabia are in a soil belt of exceptional fertility, crops are subject to extremes of temperature and precipitation. During the prewar period, farm practices had not ad- vanced to include moisture conservation measures or modern methods of cropping, and farm equipment was primitive. Farm practices in other newly incorporated territories, particularly in the former Baltic Republics of Latvia and Estonia, and the East Prussia (Konigsberg) district, were generally more progressive than in the for- mer Rumanian provinces. D. Fertilizers (1) Manure The extent to which manure is used varies markedly. In the nonblack-soil area with its poor podzolized leached soils, manure is absolutely essential for satisfactory crop yields, and is widely used. In the more fertile regions of the black-soil area it is less, or not at all, essential. In the whole of the Ukraine, for example, manure applied on the grain fields in 1934 was only three-fourths of that used in the Moscow province alone. In general, the use of manure in European USSR de- creases toward the south and southeast, where moisture rather than fertility of the soil is a limiting factor. In Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-8 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential 1934 the Tatar ASSR used 6,365,000 metric tons of manure to fertilize the grain fields, but the neighboring Middle Volga region, to the south, with a grain acreage nearly three times as large, used only 2,890,000 metric tons. Still farther south, in the Lower Volga region (Saratov and Stalingrad provinces), about 100,000 metric tons were used that year. Manure is used primarily for winter grains and but little for spring grain. In the Moskovskaya Oblast' for instance, over a third of winter rye and 60% of winter wheat acre- age, but less than 5% of the oats acreage (planted in the spring) were manured in 1934. More manure is used for potatoes and sugar beets than for spring grain. In general, the amount of manure used in Soviet Russia decreased by some 60% during the decade preceding World War II, and a Russian agricultural scientist has cited this as the main cause of an unfavorable plant food balance of the USSR crop area. The situation deterio- rated still further during the war with the great decline of livestock and the consequent reduction in the quan- tity of manure available. For this reason alone, crop yields in the nonbiack-soil area, where manure is essen- tial, will also be affected adversely during the postwar period until livestock numbers are restored. AVAILABLE SUPPLY OF COMMERCIAL FERTILIZERS, USSR 1928, 1932, 1938 Nitrates (20.5 % N) ........... Potash (41.0 jo I(20) .......... Superphosphate (18% P202) .... Ground phosphate rock........ Thousands of short tons 12.7 24.5 778. 0 4.0 29.8 343. 3 228. 2 526.5 1, 756. 2 13.2 436. 5 667. 9 (2) Commercial fertilizer The use of commercial fertilizer was greatly increased in the USSR during the interwar period, as indicated in TABLE IX-6. No separate data for European USSR proper are available. The increase in the use of commercial fer- tilizer paralleled the growth of the Soviet chemical indus- try and the discovery of phosphate and potash deposits. Newly incorporated areas: Commercial fertilizer is used in the USSR primarily for the so-called industrial or technical crops (sugar beets, flax, cotton), and only in insignificant quantities for grains. The situation will doubtless continue during the postwar period. Whatever the output is of commercial fertilizer by the war-damaged Soviet chemical industry, it will be urgently needed for the recovery of the produc- tion of industrial crops. E. Land utilization Data on land utilization are given in TABLES IX-7 and IX-8. It will be noted from TABLE IX-8 that the propor- tion of meadows and pastures, and of arable land (except in Estonia), is higher in the newly incorporated territories than in European USSR proper; the proportion of forests is greater in European USSR than in the newly incorpo- rated territories. There are also considerable regional variations through- out European USSR. The proportion of arable land is higher, and that of meadows and pastures is lower, in the black-soil area than in the nonblack-soil area. In the Ukraine, for instance, arable land constitutes 691/c and meadows and pastures 8.5% of total land, and in the western part of the Central Agricultural area (Kurskaya Oblast', 1935 frontiers), 76 % and 8.8 %, respectively. But, in White Russia (nonbiack-soil area), arable land is 33.9'/ and meadows and pastures 22.3 percent. Still farther north, in the Leningrad area, arable land is only 12.5 Y and meadows and pastures 16.4%, but a much higher propor- tion of land in this area is in forests : 48.5 % as against 31.1%c in White Russia, and 8.4% in the Ukraine. The great importance of meadows and pastures in the economy of the nonblack-soil area is due to the need for manure for crop production on the poor soils of these regions; hence, the need of livestock and of forage. Not all of the arable land is occupied by crops in any one year. Part of the land is lying fallow each year, either as tilled fallow in a regular system of rotation, or reverted to sod after continuous cropping exhausts the fertility of the soil. In European USSR proper, 81 % of the arable land was under crops in 1938; and in the Baltic Republics, 86 percent. Most of the remaining arable land is occupied by tilled fallow. As was explained earlier, the practice of fallowing is considered essential in the USSR for conserva- tion of soil moisture, which is the limiting factor in pro- duction in the large semiarid zone, and for weed control, TABLE IX - 7 LAND UTILIZATION, EUROPEAN USSR (Thousands of acres) Area with farm buildings Fruit or- chards and vine- yards Arable land Perma- nent meadows Forests and Other brush land 1 stonia *** ................................. . 2,718 2,552 1, 764 2, 294 1, 463 10, 792 Latvia *** .................................... 5, 404 2, 236 1, 856 4, 317 2, 444 16, 257 Lithuania *** ........................ 94 6, 778 **1, 720 1, 097 2, 577 1, 490 13, 756 Polish f ...................................... 766 16, 940 5, 477 3, 572 10, 040 5, 272 42, 067 Rumanian f .......................... ..... 357 8,041 143 1, 076 924 1, 850 12, 391 * Data are for 1935 exclusive of Rostovskaya Oblast'. ** 1935 Census. Data are for 1938 (exceptions indicated). f Data are for 1938. Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-4 CROP DISTRIBUTION, 1938 JANIS 40 CONFIDENTIAL EUROPEAN USSR: CROPS PERCENTAGE OF DISTRIBUTION, 1938 10 15 20 25 30 35 40 45 50 55 60 65 70 75 KARA SE 0 ~o A Y ~'t B A R E N T S S E A j J ~ 65 i SWEDEN t S ~ 4 65 WHITE SEA kP q a OA Arkhangelsk 0 O x3% FINLANOD 83% NORTH s.3x3.ex "w ?7 ip.te odm not ,ri.d mlud rpwale0 xr.aL m nni al 40 60 to ? / t1ACE OMEGA q X4 IA- 6 GULF OF FINLAND LADOGA BALTIC SEA Leningrad ^u/ \,..C SJTONIA 11.9% Vologda. UPPER VOLGA P'/ 27.5 44s 593% `?`. 20.3% 9.2z L 55.12 3.9z 5.9x 1 12.72 ~r 18.0 .Sx 55 LIT B A L ?j" 1. C 1 14.7 Kalinin ~ 55 Gq ~?~ NORTHWEST 13.4x Gor'kiY /// ~..` N~ ( .{? x vde. 19 7 . (tM s6a) Kazan aK' GERMAN 241 Smolensk _.~?~ ~.r'~ J 7.4% CENTRAL INDUSTRIAL 6%,,A RAINFALL LIMIT 10.4 Ryaz 16,nchas .6 0.5% 20.1% 6 Tula Uiyartgvgk 1 8.2 1 PDPtces xWHITE RU SIA CENTRAL Orerr-: ~Feaz lfuytyshev~ % (WEST) AGRICULTURAL 55% 50 POLISH 10.0% 4usk~ x SaMIDDLE / rao 50 NORTH 1,Ox / J 41 'L UKRAINE i 2% 10 . AND t % 7.7x ~~~~~ SOUTH ~,+ 54% ' 93 +sk 4 Wheat, other grains, and legumes P6 UKRAIN DON 31.4 2.6% DON?TS LOWER VOL 52i 4 Vegeta6lles and potatoes RaA6nu o Forage crops including tame hay Odessa as 80 AND Astrakhan Q Industrial crops sugsgidbeets tobacc spices. R A N 45 IS E A of antl medicinal crops) UM NIA RUMANIA CRIMEA Azov QOther crops O Total sown area YaltaCASPIAN Figures under circles represent millons of acres SEA Black soils Ichernozem) BULGA RIA B L ACK S E rj '~'~ ? A BOUNDARIES USSR -?- International (19371 . 1011% JANIS study 40 o T U R NOTE: TO. boo.d-t- dw.. a. Jd. mad. rot .-.ve.;y .-d K ;o,4 m-s ro 16wo Bond On die U. S. Gn.o o. n. 40 ~. Th. U. S. Go..mn~e 6, - -m-d'6 N.9rFOren o I Euo q lemy.:d LWh.-imoe5.So 0UM.. 100 200 300 Miles 0 10D 200 300 Kilometers J CASPIAN S E A ` CONFIDENTIAL I R A N IRAN 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE Page IX-9 Total land area with farm buildings 1.000 o f n s European USSR proper* .......... ...... 902, 332 \ewlp incorporated areas- 1?stonia*** ........................ Latvia*** ........................ Lithuania*** ..... ................. 1'olisht ..... ...................... H.urnaniant ............ ............ 10, 7'.12 16, 257 13, 756 42, 067 12. 391 Fruit or- chardk and vine- Yards 0. 1. 2. Data, except for Rostovskava ()blast', are for 1935. ** 1935 Censru. .k** Data are for 1938 (exceptions indieatedt. t Data are for 1938. rendered even more necessary by the serious weed infesta- tion in the region invaded during the war. The arable, or crop, land in European USSR can be in- creased through land reclamation. During the years 1933-37, over 7.3 million acres were added to the crop land in the nonblack-soil area (Northern, Northwestern, West- ern, Central Industrial, and Upper Volga regions). Of this area, prior to reclamation, 13 `,% was meadows and pas- tures (presumably of a very poor type), 27 ' brushland, 291;4 small woods, 151% forests, 13'7. cut-over land, and other land 3 percent. There is still a considerable area of brushland, marsh- land, and, in the more northern regions, of forest land, which could be adapted to crop production. In White Russia (West) drainage of extensive marshes would pro- vide a sizable addition to the crop land. A government decree of 6 March 1941 outlined a plan for draining nearly 4 million acres during the years 1941-47, of which over 1.3 million acres were to be adapted to crops and nearly 2 mil- lion acres to meadows and pastures. The war interfered with this program and caused serious damage to the drainage system. The drainage operations in White Russia were resumed after the war, but on a more modest scale. The postwar Five-Year Plan, 1946-50, specifies drainage of 667,000 acres of agricultural land in the enlarged territory of White Russia, which now includes western provinces formerly under Polish control. In the Ukraine, the plan specifies drainage of 100,000 acres and irrigation of 75,000 acres of agricultural land, some of which may have been under irrigation before the war. Additional land can be brought into cultivation by irrigation in the Middle and Lower Volga regions. Irrigation in this area is in its infancy, and long-range projects for this purpose were being devel- oped before the war. The postwar Five-Year Plan pro- vides for an irrigation project in the so-called Volga- Akhtuba depression between Stalingrad and Astrakhan'. According to a Moscow press report of 3 March 1945, some 100,000 acres were scheduled to be opened within five years. In general, it appears that whatever the theoretical pos- sibilities, little new acreage will be brought under cultiva- tion by reclamation in European USSR during the years 1947 to 1950, while the government is preoccupied with the problem of restoring Soviet agriculture to the prewar level. Arable land Derma- Forests neat Pastures and Other Total meadows . hrushland 25.2 23. 6 16.3 21.3 1 13.6 100.0 33. 2 13.8 1 1. -1 2 6. 6 15.0 100.0 7 11).3 **12.5 ** 8.0 18.7 10.8 100.0 8 -10.3 13.0 8. 5 23.9 12.5 100.0 !1 (i-1. 9 1. 2 8. 7 7. -1 11. 9 100.0 92. FARM PRODUCTS AND FISHING A. Crops (1) General crop pattern The outstanding feature of the European USSR crop pattern is the predominance of grain, which greatly out- ranks all the other crops (TABLE IX-9, FIGURE IX-4). The proportion of grains (including grain legumes, such as peas, lentils, etc.) in the total acreage of European USSR proper constituted, in 1938, nearly 72 percent. (In 1928, it had been even larger-79 percent.) The Volga regions have the highest proportion of grain, 80 percent. It decreases westward, and is least in the northwest with 55'/, of the acreage under grain. In the Baltic Republics, in 1938, it was nearly 601/,;; in the former Polish territo- ries, 68' ; and, in the former Rumanian territories, 88 per- cent (TABLES IX-10 to IX-12), Among the nongrain crops, forage crops, including tame hay, hold first place. They accounted, in 1938, for about 12':; of the total acreage in European USSR proper, but the proportion is higher in the Northwestern and Central Industrial regions, with about a fifth of the acreage in for- age crops. It is especially high in the Baltic Republics, where forage crops occupy more than a fourth of the acre- age. These crops are considerably less important in the former Polish territories than in the Baltics, and are insig- nificant in the former Rumanian territories. Potatoes and other vegetables occupy between 81/, and 9'4 of the acreage of European USSR proper but they are much more important in the western and central parts of the country than in the eastern and the southern. The region where they are especially significant is White Rus- sia (West), where a fifth of the acreage is under potatoes and vegetables, largely the former. In the former Polish territories potatoes alone account for 15'/,, of the acreage, but they are less important in the Baltic Republics. Finally, there are the so-called industrial or, as the Russians term them, technical crops, which provide the raw materials for such manufacturing industries as the textile, sugar, vegetable oil, and tobacco. These crops ac- counted for nearly 8~/, of the acreage in European USSR proper, where they were especially important in the north- west and the south (Ukraine and Crimea). In the former Rumanian territories, 7V( of the acreage was under these crops, but less than 4,: in the Baltic Republics and less Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-10 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential European USSR proper: North ............................ Northwest ......................... Central Industrial ................. . Central Agricultural ............... . Upper Volga ....................... Middle and Lower Volga ............ South: ............................ North Ukraine ................. South Ukraine and the Crimea.. . Don-Donets Region ............ . West .............................. Newly incorporated areas: Finnish ........................... Baltic republics ................... . Konigsberg ........................ Polish ............................ Rumanian ........................ . 254, 701.8 Al,' European USSR .............. . TABLE IX - 10 CROP AREA, EUROPEAN USSR, 1938 (Thousands of acres) Winter wheat.......... Spring wheat .......... Total wheat ......... Rye .................. Oats .................. Barley ................ Corn ................. Millet ................ Buckwheat ............ Potatoes .............. Legumes .............. Vegetables............ Sugar beets ............ Sunflower seed ......... Flaxseed .............. Flax for fiber .......... Total flax ........... Hemp ................ Cotton ................ Tobacco .............. Makhorka ............. Tame hay ............. Other forage crops...... Other crops............ 215, 757. 6 Total crops........ European USSR proper Estonia Baltic Latvia Republics Lithuania -- --- Total Finland Territory a --- Poland cquired from Rumania : * East Prus- sia (Kb- nigsberg) Total ac- quired territories Graiicl total 24, 608. 7 67. 7 166.8 355.6 590. I 3. 0 1, 580.0 1,894.3 63.9 4, 131. 3 28, 740. 0 25,256. 6 104.5 181.6 144.8 430.9 42.7 287.6 442.5 9. 6 1,213. 3 26,469. 9 (49, 865.3) (172.2) (348.4) (500. 4) (1, 021.0) (45.7) (1,867.6) (2,336.8) (73. 5) (5,344.6) (55, 209. 9) 42, 986. 5 365. 2 709. 2 1, 304. 7 2, 379. 1 58. 6 4, 538. 5 530. 3 282. 2 7, 788. 7 50, 775. 2 26, 699.9 367. 9 859.7 877.4 2, 105.0 105.3 2, 277. 8 152. 7 140.8 4, 781.6 31,481.5 14,455. 1 216.7 439.6 536.2 1,192.5 24.2 1,213.0 1,276. 3 103.1 3,809. 1 18,264.2 3, 268. 6 .... .... .... .... .... 204.4 2, 604.9 .... 2, 809.3 6, 077. 9 5, 822. 2 .... .... .... .... .... 117.4 6. 7 .... 124.1 5, 946. 3 4, 137. 2 .... 11.9 19.8 31.7 .... 500. 1 3.0 .... 534.8 4,672.0 14, 892. 0 192. 7 340. 2 459. 6 992. 5 27.9 2, 450. 2 138. 6 110. 6 3, 719.8 18, 611. 8 4,914. 1 23.0 87.7 1.35. 9 246. 6 2. 5 213. 2 59.0 7. 4 528. 7 5, 442. 8 2, 392. 4 21.3 31.4 63.0 115.7 .... .... 27. 7 3. 1 146.5 2,538.19 2, 708.2 .... 33. 6 21.0 54. 6 .... 43.5 32.6 2. 9 133.6 2,841.8 5, 135. 7 .... .... .... .... .... .... 327.4 .... 327. 4 5, 463. 1 461.6 .... .... .... .... .... .... 4,220.2 .... .... .... .... .... (4,681. 8) (57. 8) (161. 8) (192. 5) (412. 1) (1. 0) (246. 6) (4. 9) (1. 4) (666.0) (5, 347. 8) 1, 255.5 .... .... .... .... .... 61. 8 26.2 .... 88.0 1, 343. 5 778.6 .... .... .... .... .... .... .... .... 778.6 66.2 .... .... .... .... .... 9.4 7. 7 .... 17. 1 83. 3 233. 5 .... .... .... .... .... .... .... .... .... 233. 5 23,434. 7 460.9 1,462. 6 1,099. 1 3,022. 6 353.6 .... 129.0 48.2 3,533. 4 26,988. 1 2, 563.4 100.8 Ill. 7 269. 3 481. 8 6. 7 2, 156. 7 74.9 326. 7 3, 046.8 5, 610. 2 5, 466.7 285. 9 206. 1 287.4 779. 4 .... 193.2 229. 5 322. 6 1, 524. 7 6, 991. 4 2, 264. 4 4, 803. 9 5, 766. 3 12, 834. 6 625. 5 16, 093. 4 7, 968.2 1, 422. 5 38, 944. 2 254, 701. 8 Total sown area All wheat Other grains and legumes industrial crops Forage crops in- eluding tame hay Vegeta- bles in- eluding potatoes Other crops Total 1,000 acres Percent Percent Percent Percent Percent Percent Percent 4, 043. 8 10. 4 63. 4 7. 3 10. 6 8. 3 .... 100. 0 14, 679. 7 7. 9 47. 2 12.0 20.3 12. 6 .... 100. 0 24, 053. 0 11. 9 52.8 4. 0 17.9 13.4 .... 100. 0 36, 425. 8 17. 4 56. 2 8. 6 9. 0 8. 8 .... 100. 0 19, 744.3 it. 9 68. 5 4. 4 9. 2 6. 0 .... 100. 0 31, 403.9 39. 3 41.8 7. 7 7. 4 3. 8 .... 100. 0 (77, 161. 9) (30. 9) (39. 5) (9.0) (13. 2) (7.4) .... (100.0) 32, 616. 7 18. 5 49. 2 10. 1 12.0 10.2 .... 100. 0 26, 051. 7 42. 2 30. 7 9. 3 12. 6 5. 2 .... 100. 0 18, 493. 5 36.9 35.0 6. 8 15.9 5. 4 .... 100. 0 8, 245. 2 6. 7 55. 4 7. 4 10.4 20. 1 .... 100. 0 215, 757. 6 23. 1 48.4 7. 9 12. 1 8. 5 .... 100. 0 625. 5 7.3 30. 5 0. 1 57. 6 4. 5 .... 100.0 12, 834. 6 8. 0 51.7 3. 6 27.5 8. 6 0. 6 100. 0 1, 422. 5 5. 2 49. 4 0. 3 26.4 8. 0 10. 7 100. 0 16, 093. 4 11. 6 56. 7 2. 6 13.4 15.2 0. 5 100. 0 7, 968. 2 29. 3 58. 3 7. 2 2. 6 2. 6 .... 100. 0 38, 944. 2 M. 7 52.8 4.4 17.0 9. 9 2. 2 100. 0 21. 7 49. 1 7. 4 12.8 8. 7 0. 3 100. 0 Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Winter wheat.......... 11.4 Spring wheat.......... 11.7 Total wheat.......... (23. 1) R.ye .................. 19.9 Oats .................. 12.4 Barlev ................ 6. 7 Corn ................. J. 5 Millet ................ 2. 7 Buckwheat............ 1. 9 Potatoes ..............~ (i.9 Legumes .............. ~ 2. 3 Vegetables ............ ~ 1. 1 Sugar beets............ 1.2 Sunflower seed ......... 2. 4 Flaxseed .............. Flax for fiber .......... Total flax.......... . Hemp ................ Cotton ................ Tobacco .............. Makhorka ............. Tame hay ............. Other forage crops ...... Other crops............ Original Total European USSR. proper.. Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE PERCENTAGE OF TOTAL SOWN AREA OCCUPIED BY SPECIFIED CROPS, EUROPEAN USSR, 1938 European USSR proper 0. 2 1. 9 (2. 1) 0.6 0. 4 0. 1 10. 9 1. 2 2. 6 Total crops ......... 10 .0 Winter wheat European USSR proper: North ................ 46. 7 Northwest ............ 464. 3 Central Industrial ..... 1, 515. 0 Central Agricultural .... 2,812.0 Lipper Volga .....................III. 2 Middle and Lower Volga .............. 579. 2 ........ (18, 897. 7) South: ....... North Ukraine ...... 5, 206. 4 South Ukraine and the Crimea ........ 10, 256. 9 I)on-Donets Region.. 3,434.4 \Vest ......... ... ...I 1.82.6 Newly incorporated areas: Finnish ...............I Baltic ................ I Konigsberg........... Polish ................ Rumanian ............ Total European USSR..........! 28, 740.0 3. 0 590. 1 63. 9 4,580.0 1, 894. 3 3. 0 4. 6 (7. 6) 16. 1 16. 2 0. 6 8. 5 1. 0 0. 0 20. 4 4. 5 12. 6 Spring wheat 373. 4 693. 1 1,346. 0 3, 511. 3 2, 246. 9 11, 763.4 (4, 955. (5) 811, 7 740. 6 3, 380. 3 366. 9 42. 7 -130. 9 9. 6 287. 6 442. 5 3. 5 3. 8 (7. 3) 14.8 17.9 9. 2 0. 2 7. I 1.8 0. 6 0. 7 30. 4 2. 3 -1.3 6. 2 2.5 (8. 7) 22. 6 15.2 9.3 0. 3 8. 0 2. 3 1. l 0. 4 19. 1 4. 7 5.0 TABLE IX - 12 SOWN AREA OF SPECIFIED CROPS BY REGION, EUROPEAN USSR, 1938 (Thousands of acres) 936.3 2,979. 5 5,418.9 9,280. 3 6, 392. 7 (1,751.3 (8, 939. 8) 5, 920. 3 1, 296. 0 1, 723. 5 2, 287. 7 58. (i 2, 379. 1 282. 2 4,538. 5 530. 3 9-17.6 2,740.8 5,216.8 5,303.8 .1,632.-1 2, 280. 0 (4, 483. 9) 2,901.7 857. 2 725. 0 1,004.7 42, 986. 5 26, 690. 1) 105. 3 2, 105. 0 140. 8 2, 277. 8 152. 7 4.6 3.4 (8.0) 18.5 16.4 9. 3 0. 2 7. 7 LA 0. 9 0-1 23.6 56.5 3.8 1.1 6. 1 .... 532. 5 611.3 228. 8 1,031.4 745. 5 0. 5 6. 8 (7. 3) 9. 4 16. 8 3. 9 304. 2 1,657.3 2,872.5 2,840.6 1,084.3 1.1, 455. 1 14, 892. 0 24, 2 27. 0 1, 192. 5 992. 5 1.03. 110. 6 1,213.0 2, 450. 2 1, 276. 3 138. 6 9. 8 1. 8 (11. 6) 28. 2 14. 2 7. 5 1. 3 0. 7 3. 1 15.2 1. 3 13. 4 1. 2 Sun- flower seed 10.6 1,274.3 63. 5 23. 8 5. 5 (29. 3) 6. 7 1. 9 16. 0 32. 7 0. 1 1. 7 0. 8 0-1 0.4 4. 1 0. 1 1. 6 0. 9 2.9 Sugar beets 22. 2 685. 9 1, -157. 6 677. 8 1, 331155.. 7 9. 1 (9, 231. 9)1(3, 883.2) (2, 331. 6) (1, 190. 9) 2, 896. 5 2, 636. 6 364. 2 I, 766. 8 3,724. 6 695. 3 955.0 219. 2 2,610.8 551.3 1,012.4 I 4.0 616.0 1, 563.2 54. 6 2.9 32. 6 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 East Prus- sia (Ko- nigsberg) Flax fiber 4. 5 0. 7 (5. 2) 19. 8 0. 9 7. 2 7. 8 0. 5 0. 2 0. 2 3. 4 23. 0 22. 7 291. 1 1, 731. 2 727. 0 76.4 596. 0 (278.2) 278. 2 Flax seed 8.2 47. 7 67.2 150. 7 (187.8) 1. 7 82. 0 104. 0 Total ac- quired territories 10. 6 3. 1 (13. 7) 20. 0 12. 3 9.8 7. 2 0. 3 1. 4 9. 6 1. 4 0. 4 0. 3 0. 9 9. 1 7.8 3.9 Total flax Page IX-11 Grand total 11. 3 10. 4 (21. 7) 20.0 12.4 7. 2 2. 4 2. 3 1. 8 7. 3 2. I 1. 0 1. 1 2. 2 0. 5 0. 3 0. 1 10. 6 2. 2 2. 7 291. 1 2. 2 1,731.2 18.8 735. 1 79.3 124. 0 584. 6 663. 2 87.0 150. 7 22. 7 (466. 0) (403. 5) 279. 9 204. 8 92. 0 107. 0 104.0 1.7 520. 4 57. 3 4, 681. 8 I 1 , 255. 5 1. 0 ' 412.2 1.4 246. 6 1 61. 8 4. 9 26. 2  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Page IX-12 JANIS 40 than 3 % in the former Polish territories. It should be borne in mind, however, that the economic value of these intensive crops is far greater than their relative place in the acreage indicates. The official value which was placed on the output per acre of industrial crops in the Soviet Union, in 1937, was 46 % greater than the official value of output per acre of all other crops. The postwar Five-Year Plan contemplates a decrease in grain acreage as compared with prewar, and an increase in the area under vegetables, potatoes, and forage crops, especially perennial grasses. The following planned acre- age changes in the Ukraine may be considered more or less typical of the contemplated shifts in European USSR. Grains are to decrease in 1950 to 48.4 million acres as compared with 50.5 million acres in 1940, or 4 percent. The acreage of industrial crops will remain practically the same. Vegetable and potato acreages are to increase to a little over 7 million as compared with 6.8 million in 1940, or 4 percent; forage crops are to increase to 13.4 mil- lion as compared with 10.6 million, or 27 percent. Of these forage crops, the area under perennial grasses in the Ukraine is to be increased to 8.3 million acres in 1950 as compared with 4.2 million in 1940, or to become nearly double. The contemplated decrease in the grain area is to be more than offset by increased yields per acre, so that production is expected to rise substantially. However, acreage goals are much more easily achieved than yield goals, since the latter depend greatly on weather condi- tions, and on good farm practices which Soviet experience shows are not easily or rapidly adopted on a wide scale. The emphasis on the seeding of perennial grasses, which according to the government plan by 1950 should occupy 11 % in the Ukraine and 13.5 % for the USSR as a whole, compared with 5.7 and 7.2% respectively in 1940, is not only for the purpose of increasing the available forage supply but, also, to raise the fertility of the soil. The physical structure of the soil is improved by perennial grasses. The leguminous grasses, such as clover and al- falfa, the seeding of which is recommended in combina- tion with cereal grasses such as timothy, also enrich the soil with nitrogen (an essential plant nutrient), both di- rectly through the roots of leguminous plants and indi- rectly through the increase in the quantity of manure resulting from a larger forage supply. Produc- tion ACREAGE, YIELD, AND PRODUCTION OF PRINCIPAL CROPS, EUROPEAN USSR PROPER, AVERAGE 1933 TO 1937 Winter wheat....... Spring ' wheat........ Total wheat .... Winter rye.......... Spring barley ....... Oats ............... :Millet .............. Corn .... ...........: Buckwheat ......... Other grains and legumes . OfPi- cial yield* Short tons per acres acre 20, 566.6 0. 49 23, 563. 5 0. 36 (44, 130. 1(0. 42) 47,800.5 13,949.8 28,548.7 9,791.6 4,090.2 3, 954. 6 0.43 0. 45 0.44 0. 24 0. 52 0. 27 0. 30 (0. 41) Potatoes ............ 13, 746. 2 3. 81 Sugar beets ......... 2.822. 1 5. 53 Sunflower seed ...... 5, 635.4 0. 26 Flax: .............. l 5, 185.9 Fiber............ ....... . 0. 12 Seed ............. 0. 13 lienip :............. 1,078. 3 Fiber............ Seed .............: ....... Cotton**............ 765. 3 0. 21 Tobacco ............ . 67. 5 0. 32 Makhorka.......... 234.5 .. 1,000 short tons 10, 077. 6 8,482.9 (18, 460. 5) Esti- inated yield Short tons per acre 0.42 0. 31 (0. 36) Produc- tion 1,000 short tons 8, 638. 0 7, 304. 7 (15, 942.7 ) 20, 554. 2 0. 37 6, 277. 4 ~ 0. 39 12, 561.0 0. 38 2, 350. 0 0. 21 2, 126.9 0. 47 1, 067. 7 ! 0. 24 2, 836. 6 0. 20 (66, 334. 7)1(0. 35) 52,373.0 15,606. 2 1, 465.2 579.5 674. 2 17,686.2 5,440.4 10, 848. 5 2,056.2 1,914.2 949. 1 1,863.5 (56, 627. 2) 0. 11 11'8'.'6 160.7 . . 21.6 .. I ...... 0.401 93.8 * Official yield data for the USSR as a whole were assumed to be ap- plicable, and were used where the crop was predominantly grown in European USSR proper. ** 1937 only. Earlier years are not representative since these are new cotton-growing regions. It should also be noted that a considerable increase in the forage supply could be achieved by better utilization of natural meadows and pastures. Little has been done to improve them and they were bypassed in the progress of agricultural mechanization, which rendered very little aid to haying. In fact delay in harvesting, which became common under collectivization, resulted in serious losses ACREAGE, YIELD, AND PRODUCTION OF PRINCIPAL CROPS, 13ALTIC REPUBLICS, AVERAGE 1933 TO 1937 Winter wheat.......... Spring wheat.......... Total wheat ...... . Rye ..................I Barley ................ Oats .................. Legumes .............. Potatoes .............. Sugar beets ............ Flax .................. Fiber ............... Seed ................i 1,000 acres 51.1 109. 0 (160.1) Yield Short tons per acre 0. 65 0. 41 (0.49) Produc- tion 1,000 short tons 33. 2 45. 1 (78.3) Acreage 1,000 acres Short tons per acre 183.6 149. 2 (332. 8) 360. 0 0. 61 248.3 0. 40 345. 0 0. 42 15. 8* 0. 39 179. 6 5. 83 62. 8 218. 3 663. 7 100. 4 458. 9 146.2 797. 6 6. 2*1 100. 1 1,047.2 1 287.6 0. 14 9. 1 0.15 9.7 33. 9 144. 3 0. 67 0. 50 (0. 59) 0. 61 0.48 0. 50 0. 44 5. 90 8. 64 1 0.14 0.14 Produc- Lion Acreage Produc- tion Produc- tion 1,000 short 1,000 acres Short tons 1,000 short 1,000 acres 1,000 short tons per acre tons ~ tons 122. 7 388. 7 0. 55 213.6 623.4 1 369. 5 74.5 1240 0. 45 56. 1 382. 2 175. 7 (197.2) (512.7), (0.53) (269.7)11 (1, 005. 6) (545.2) 405. 2 1,236.0 0. 54 664. 1 2, 259. 7 1,287. 6 220.7 516.4 0. 53 274. 4 1, 223. 6 595. 5 395. 6 853.7 i 0. 47 404.9 1 1, 996. 3 946. 7 43.8 152. 0 0. 36 1 55.1 267. 9 105. 1 1, 698.2 1 444. 3 5.29 2,350. 4 I 011.5 5, 095. 8 293. 0 15.6 9. 03 140.9 49. 5 433. 9 182.6 .. .... 389. 7 20.9: .... 0.16 29.4 59.4 19.6 1 0. 19 34.8. .... 64. 1 Confidential "Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE of hay and deterioration of its quality and caused consider- able concern to the government. For acreages, yields, and production of principal crops, see TABLES IX-13 to IX-18. AC'REAGE', YIELD, AND PRODUCTION OF PRINCIPAL ('ROPS, FINNISH TERRITORY, 11138 1,000 acres Short tons 1,000 short per acre tons Wheat. ............. 42. 4 0. 83 35. 1 Rye ....................... 70. 7 0. 67 -17. 6 Barleyy ..................... 23. (1 0. 72 16. (i Oats ....................... 114. 5 0.79 89. !1 Potatoes ................... 27. 8 5. 97 165, !) Flax and hemp (fiber)........ 0. 9 0. 14 0. 1 ACREAGE, YIELD, AND PRODUCTION OF PRINCIPAL ('HOPS, FORMER EAST PRUSSIAN TI7BBITORY (KONIGSBLB(;), 1938 1,000 acres Short tons per 1,000 short rare tons Winter wheat ......... 63. 9 0. 95 60. -1 Spring wheat ......... 9. 6 0. 89 8. 5 Total wheat........ (73. 5) (0. 94) (fib. 9) Be v................. Barley ............... Oats ................. Mixed grains .......... Total grains...... 282. 2 103. 1 140. 8 169. 4 (769. 0i Potatoes ............. 110. 6 Sugar beets........... 2. 9 0. 93 262. I 0. 9(i 98. 8 0. 93 130. .1 0.417 164. 5 (0.94) (724.7) 8. 14 900. I 12. 79 37. I ACREAGE, YIELD, AND PRODUCTION OF PRINCIPAL ('ROT'S, FORMER POLISH TEREITORIES, AVEIIAGE 1933 TO 1937 1,000 acres Short tons per 1,000 short acre tons Winter wheat ......... 1,457. 1 0. 50 734. 7 Spring wheat ......... 313. 3 0. 44 , 136. 7 't'otal wheat ........ (I, 770. 4) (0. 49) (871. 4) All rye ............... 1 4, 333. 6 I 0. 44 I, 914. I Barley ............... 1, 245. 4 0. 46 569. 0 Oats .................. 2, 219. 5 0. 43 964. 1 Buckwheat ........... 535. 7 0. 30 161. 4 Corn ................. 214. 7 0. 45 96. (i Millet ................ 121. (1 0. 46 55. (i 01 her grains........... 85. 2 0. 40 33. 7 Total grains....... (10, 526. 1) (0. 44) 1 (4, 666. 2( Legume's .............. 250. 8 0. 35 Potatoes .............: 2, 266. 6 4. 75 Sugar beet s........... . 30. 4 7. 66 Rape seed ............ 38. 5 0. 37 Flax .................. 196.9 Fiber ............... ...... 0. 12 Seed ............... ...... 0.22 Hemp ................. 61.5 .... Fiber .............. ...... 0. 15 Seed ............... ...... 0. 25 'T'obacco .............. 7. 9 0. 72 [lops ................ 4. 9 0. 22 86. 9 10, 763. 5 233. 0 1-1.2 23. 7 43. -1 9. 3 15.2 5. 7 1. 1 Page IX-13 A('R,EAGE, YIELD, AND PRODUCTION OF PRINCIPAL CROPS, FORMER RUMANIAN TERRITORIES, AVERAGE 1933 TO 1937 Winter wheat........ . Sl)rmg wheat.. . . . .... . Total Zyheat......... All rye ............... Barley ............... Corti ................. Oats ................. Millet ................ Buckwheat ........... Other grains......... . 'T'otal grains ...... Ieguntcs ............. Potatoes ............ . Sugar beets........... Sunflowers........... . Rape seed............ soybeans***.......... Flax ................. Filer .............. Seed ............... ilerup ................ Fiberr .............. Seed ............... Tobacco .............. 1,000 acres Short tons per 1,000 short (Ore tons 1, 4-17. 2 0. 39 559.4 50-1.6 0. 25 126. 2 (1, 951. 8) (0. 35) (685. 6) 398. 3 0. 42 168. 4 1,754. 2 0. 31 549. 0 2, 742. 1 0. 41 1, 112. 7 196. 7 0. 34 66. 1) 21.0 0. 15 3. 1 5.7 0.32 1.8 1.7 0.24 0.4 (7, 071. 5) (0. 37) (2, 587. 9) 169. 8 0. 19 33. 1 172. 5* 4. 06 700. 1 23, 0 8. 10 186. 3 348. It 0. 41 144. 0 72. 4 0. 17 12. 2 48.2 0. 34 16. 6 1-1.3 .... 0. 1 6 2. 3 0. 15 2. 2 25.9 .... ...... 0.25 6.6 ........ 0. 26 6.8 7.7 0.30 2.3 * Excludes 17.8 thousand acres of intertilled potatoes. ** Excludes 1.6 thousand short tom of intertilled potatoes. *** Three-year average, 1935-37. (2) Grains (a) Wheat.-This grain had forged ahead in the 1930's as the leading crop of European USSR. In 1938 it accounted for 231%0 of the total crop area in European USSR proper, and for 2911/o in the former Rumanian prov- inces. In the Baltic Republics and former Polish prov- inces, it was much less important (TABLE IX-9 and FIGURE IX-5). Where winters are mild, as in western and most of cen- tral Europe, wheat is usually sown in the fall and har- vested during the following summer. But in regions of more severe winters, such as eastern USSR, Canada, and parts of the United States, wheat is sown in the spring for harvest during the summer of the same year. Thus, the harvest of any particular year, say 1946, in countries like the USSR and the United States, where both types of wheat are extensively grown, includes winter wheat sown during the fall of 1945, as well as wheat sown in the spring of 1946. TABLES IX-19 and IX-20 show planting and har- vesting dates. The winter and spring wheat varieties are distinct, and winter wheat sown in the spring does not, like spring wheat, mature during the same year. Winter and spring wheats differ in the length of their growing period, their yields, and their nutritive qualities. . Winter wheat usu- ally brings higher yields per acre than spring wheat (TABLE IX-13), the difference being associated with the greater length of the growing period. The 1938 acreage in European USSR proper was almost equally divided between spring and winter wheat. Prior to the 1930's, however, spring varieties predominated, ac- counting in 1927 for about 601; of the acreage. In the newly incorporated territories, winter wheat is grown for the most part (TABLES IX-10 and IX-11). Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page?IX-14 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential APPROXIMATE BEGINNING PLANTING DATES FOR WHEAT, OATS, AND BARLEY, BY REGION, EUROPEAN USSR PROPER, AVERAGE 1922 TO 1926* North ................ Northwest ............ Central Industrial ..... Central Agricultural.. . Upper Volga......... . Middle Volga ......... Lower Volga......... . South: North Ukraine ...... South Ukraine and Crimea. Don-Donets Region May 16-21 ... May 7 ....... May 10 ...... April 20...... May 7-13.... April 29...... April 11...... April 7-13.... March 11-26 . March 25- April 3 May2....... May 12-17.. . May 11 ...... May 7 ....... April 20 ...... May 5-0 ..... April 29 ...... April 14...... April 8-13.... March 17-27 . March 30- April 6 May 10 ...... May 16-27 May 17 May 17 April 19 May 12-13 May I April 14 April 9-14 March 16-27 March 27- April 4 May 8 * The regions for which the data for 1922-26 were given were arranged to correspond as closely as possible to the regions used in this study. It was found desirable to divide the Middle and Lower Volga region into its two parts because of the great difference in planting dates. APPROXIMATE BEGINNING HARVESTING DATES FOR WHEAT, RYE, OATS, AND BARLEY, BY REGION, .,EUROPEAN USSR PROPER, AVERAGE 1922 TO 1926* Northwest ..... Spr wh Augus Augus ing eat t 30. . t 14. . July 24 . .... Aug. 30- Sept I August 19 .. August 16 Central Indus- Augus t 14. July 29. .... August 18 .. August 23 trial. Central Agri- July 2 9..... cultural. Upper Volga ... Aug. 17-20. July 22- 30.. Aug. 20-2 2. Aug. 12-1.0 Middle Volga... Augus t 4.. . July 1.9 . .... August 4. .. August 1 Lower Volga... . July 1 8..... July 4 .. .... July 24... .. July 16 South: North Ukraine July 1 .9-28 . July 8-1 5 July 20-30 . July 17-22 South Ukraine July 1 2-13.. June 29 - July 10-16 .. July 3-1.1 and Crimea. July 3 Don-Donets July 4-8 .... Region. West .......... * The regions according to which the data for 1922-26 were given were arranged to correspond as closely as possible to the regions used in this study. It was found desirable to divide the Middle and Lower Volga region into its two parts because of the great difference in harvesting dates. There are distinct winter and spring wheat belts in the USSR. Most of the winter wheat is concentrated in the south and southwest (the Ukraine and the Crimea). Spring wheat is concentrated in the Middle and Lower Volga and the Central Agricultural region (FIGURE IX-5). Wheat is primarily a crop of the black-soil area, but there was a marked expansion of the wheat acreage in the non- black-soil area during the 1930's. The acreage there in- creased six- to seven-fold from 1928 to 1938. Nevertheless, out of a total wheat acreage of 50 million acres, only a little more than 7 million acres were grown in the non- black-soil area in 1938. It should be noted with regard to yields of wheat, as of all other grains, that official figures since 1933 are esti- mates of the crop prior to its harvest; harvesting losses, which are usually large in the USSR, are not taken into account, and the crop is therefore overestimated. A downward adjustment of the official figures is therefore necessary in order to make them at all comparable with USSR figures prior to 1933, or with those of other countries. A classification, according to United States standards, of samples of 40 varieties of wheat considered representative of commercially important wheat in the USSR, indicated that 5 of these varieties were hard red spring wheats, 11 were hard red winter wheats, 9 were soft red winter wheats, 13 were durum wheats, and 2 were white wheats. Tests made by the United States Department of Agricul- ture indicated that : The hard red winter wheats had the best milling quality among the five classes of Russian wheats tested. . . . Next in order of merit were the durum wheats, followed by the soft red winter wheats and the hard red spring wheats. The samples of white wheats were not sufficiently large to make it safe to draw conclusions. . . . Baking strength of the flour milled from the durum wheats was, individually and collec- tively, excellent. . . . The baking data associated with the hard red winter wheat flours show that these flours were lack- ing in strength. . . . The baking strength of only two of the hard red spring wheat flours was sufficiently high to call them of good quality. Of the other three varieties, the baking strength of two was very poor and that of the third variety was somewhat below average. The baking qualities of the two white wheat varieties were above the average for this class of wheat. The poorest baking quality of all was associ- ated with the soft red winter wheat flours.... If a com- parison is made of the baking quality of these Russian varie- ties and those of similar classes grown in North America, it is apparent that only the Russian durum wheat varieties had as great baking strength as those varieties grown in North America. The Russian spring and winter wheats, in spite of their very high protein content, displayed weakness in bak- ing strength too frequently to be called the equals of North American wheats.* The important durum type of wheat mentioned above often also referred to as macaroni wheat because of its use in the manufacture of this and similar products, is en- tirely spring-,grown. It is typical of southeastern USSR, from which it was introduced at the turn of the century into the United States. No separate statistics, however, have been available on durum wheat production in Euro- pean USSR. During World War II, the USSR winter wheat belt was almost entirely overrun by the Germans, who also made some inroads into the spring wheat belt in the direction of Stalingrad. Therefore wheat suffered especially severely as a result of the reduction of acreage which followed the invasion. Not only in the invaded zone, but in the spring wheat belt of uninvaded USSR, a reduction of wheat acreage took place during the war, according to official statements. Since the end of the war, recovery of the spring wheat acre- age has been emphasized by Soviet spokesmen and publi- cations. (b) Rye.-The crop that rivals wheat in the USSR is rye, which has always been an important bread grain in that country. From an historical point of view, it would be more correct to reverse the order and refer to wheat as a rival of rye, because prior to the 1930's the rye acreage exceeded that of wheat in European USSR proper. But during that decade rye was relegated to second place. In 1938 rye predominated over wheat in all the northern and central regions, and was nearly equal in acreage in north- ern Ukraine. There was a substantial rye acreage in the * United States Department of Agriculture, Technical Bulletin No. 197, October 1930, Milling and Baking Qualities of World Wheats, pp. 151 and 157. Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-5 WHEAT AND RYE, 1938 JANIS 40 CONFIDENTIAL EUROPEAN USSR: SOWN AREA OF WHEAT AND RYE, 1938 10 15 20 25 30 35 40 45 50 55 60 65 70 7 5 KARA SEA rr v ~~t B A R E N T S S E A o 11 / obi 65 SWEDEN f f / S O 65 4 WHITE SEA SP * 0 A Y/ t'a 1 2 Arkhangel'sk FINNISH S o FINLANqD 4 60 tIAKE OMEGA ? q._ 1 2 9r `"KE NORTH 60 cGGA BALTIC GULP OF FINLAND AD ] SEA ? Lenin ad / EsroN1A Vologda ? / a L A 7'? Riga V 1 4 11 i 55 C 1 0 . alinin? 4 ? i I z lvanovo ~%% 1IV 2~ '4? NORTHWEST Gorki vd,0 y 55 2 % B A L T4 C i / ? osc J MM scow 0 Kazn' Y GERMAN U P P R VOLGA4 Smolensk CENTRAL INDUSTRIAL ?Ryezan' UI'yanovsk P/m Tula? P / 4 \ 0 1 2 1 P L A N WHITE .&e- CENTRA ? L Penza M I "' LE Kuybyshe 1 L E RUSSIA AGRICULTURAL T b am ov D (W E S ) 0 1 Kask?4 12 LOW VOLGA 50 P O L I S J, h Saratov 50 U?o' NORTH g UKRAINE ? cLECN.?\ Vinnitsa? 0 Khar'kw 12 DON- talin Dnepropetrovsk D 0 N E T S 4 ACRES 4 ? 1 2 (Millions) SOUTH UK AINE 8 - 8 0 e AND R.I. KWinter 45 1 2 1 z Astrakhan Spring 4 45 ( RUMANIA 4 - s SEA OF R U M A N I A A z o v CRIMEA ~ a b. 2 \. 1 alts CASPIAN SI ' ~~ P SEA N BULGARIA B L A C * Winter wheat less than 3000 acres K S ~~~ ? E A BOUNDARIES ,~ USSR -?- International (19371 .~%%/e~///ia JANIS study 40 rQ T U s. R NorE: -h - m d,. s. ,d.,i.. ws..d br d. U. S. Go...,on.. , 40 Th. U. S Obn,. a M..mr..rapnrs.d dH ~w.Pm.e I E.ea,:, Y /e.viy .rd Lahwnu imo eV. S-- Undo. 1 0 00 200 300 Miles 0 100 200 300 Kil? C A S P I A N S E A CONFIDENTIAL I R A N IRAN 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE Middle and Lower Volga region. Only in the extreme south was it insignificant (TABLE IX-12 and FIGURE IX-5). It has always been the leading grain in the Baltic and for- mer Polish territories, but in the former Rumanian terri- tories it was less than a fourth of the wheat acreage in 1938. Just as wheat is the typical grain of the black-soil area, rye is the leading grain of the nonblack-soil area. But rye is regionally less concentrated than wheat and, except for the southernmost districts, is a significant crop in all re- gions of European USSR. With insignificant exceptions, rye is a winter (fall-sown) crop. Usually it can be seeded earlier in the fall than winter wheat because of its immunity to the Hessian fly, which damages early fall-sown wheat. Rye is a more hardy winter crop than wheat, and can therefore be grown in the northern and eastern regions where climatic conditions make wheat production hazardous. While rye is sensitive to excessive heat and is not grown too far south, it stands spring drought much better than spring grains do. Rye is also an effective crop for weed control, which is so important in the USSR. These factors contribute to its wide use in the Soviet cropping system. Nevertheless, rye was losing in competition with wheat during the inter- war period. In accordance with the Soviet policy, the wheat acreage was increasing, while the rye acreage was declining during the decade preceding World War II. Although no definite statistical information is available, there is reason to believe that rye acreage fared better than wheat during the war years, but the resumption of the former downward trend during the postwar period is probable. (c) Oats.-The grain crop next in importance to wheat and rye is oats. Oats acreage is third in European USSR proper, first in Latvian SSR and the former Finnish territory, and shares first place with rye in Estonian SSR. It was second in importance in the former Polish and East Prussian territories, and only in the former Rumanian territories was the acreage under oats insignificant (TABLE IX-11). In European USSR proper, oats is fairly widely distrib- uted, except in the more southern and dry regions, where it is replaced by the more drought-resistant barley. The most important oats regions, however, are the Central In- dustrial, Central Agricultural and Upper Volga, account- ing for nearly 60% of the total 1938 oats area of European USSR proper. Oats holds second place in the sown area of the northwest and is the leading crop in the north, exceeding rye. It is also important in north Ukraine (TABLE IX-12). Oats is entirely a spring-sown crop. Oats is predominantly a feed crop and the amount used for human consumption is normally insignificant. The great reduction in the number of horses (the principal consumers of oats), which took place in the 1930's, led to a decrease in the acreage under this crop, although not to a great degree, because of the established position of oats in the system of crop rotation. The acreage under oats decreased considerably between 1928 and 1938 in the Cen- tral Agricultural, and Upper Volga regions, and in the South, but oats held its own in other regions, and even increased considerably in the Middle and Lower Volga, despite reduction in the number of horses. Since the war sizable quantities of oats have been used for the manufacture of alcohol, and as cereal and flour for human consumption. (d) Barley.-Barley was a much more important crop in Russia before World War I than during the subsequent years. Before 1914 it rivaled wheat in importance as a Page IX-15 leading export grain. The acreage, production, and ex- ports of Russian barley declined considerably during the interwar period. Only some 20 million bushels were ex- ported on the average during the five years ending 30 June 1938, as compared with exports prior to World War I of over 170 million bushels, most of which originated in the territory of European USSR proper. The growing of barley is highly concentrated, and most of the acreage is found in the south (TABLE IX-12). But barley adapts itself to varying climatic conditions, and is relatively even more important in the far north than in the south. Thus, in Odesskaya Oblast' in the Black Sea littoral, barley, in 1938, occupied 151,v,; of acreage as com- pared with 39 % for winter wheat, the leading crop in this region. At the opposite extreme, in Arkhangel'skaya Oblast' the northernmost agricultural region of the USSR, barley accounted for 19.1 /c% of the acreage as compared with 22.4; for oats and 22.8% for winter rye. With insignificant exceptions, barley is spring-sown in European USSR (TABLES IX-10 and IX-11). Only spring varieties of barley show the great adaptability to climatic extremes, which makes it possible for them to grow from the Black Sea littoral to beyond the Arctic Circle. Winter (fall-sown) barley is not hardy enough to withstand se- vere winters and can be grown only in regions with mild winters. In this respect it is inferior to rye and even wheat. Only in the extreme south, in the Crimea, was there a significant acreage under winter barley before World War II. Wherever it can be grown, winter barley is a valuable crop in a rotation system, because it is seeded later in the fall than winter wheat, and can therefore follow a late maturing crop such as cotton; it is also the earliest crop harvested, thus permitting the planting of another summer crop or of winter grain. Barley is primarily a feed grain, valuable because of the high protein content of most of the USSR crop. It is, however, less exclusively used for feed than oats. Of the total rural consumption in 1926-27 nearly four-fifths was for feed and one-fifth for food. But in the more northern regions the food use of barley exceeds that as feed. No similar breakdown is available for urban consumption, in which food, feed, and industrial uses of barley by the civilian population and the army are lumped together. Barley is a source of grits (porridge), and in the north and northwest, bread is made of barley flour, which is sometimes also mixed with rye and oats. Uniform and well-matured grain, with a moderate pro- tein content, is required for beer-making purposes. These qualities are met by barley grown under sufficiently humid conditions in the western regions of the country, while most of the barley grown in the south is unsuitable. Although barley is grown predominantly in the part of the country that was invaded by the Germans, its recovery has been more rapid than that of many other crops. It was stated by a high Soviet official that the 1946 barley acreage in the Ukraine exceeded prewar. (e) Corn.-The minor role which corn plays in the USSR constitutes, perhaps, the most striking difference between the agricultural pattern of that country and the United States. Corn is a major crop only in the former Rumanian territory (where before the war it accounted for nearly a third of the acreage and is the staple article of the population's diet). The small corn acreage of Eu- ropean USSR proper (about 3.3 million acres) is concen- trated in the southern part of the country, nearly half of it in the southern Ukraine and Crimea. Even in the latter region, corn constitutes only 6 % of the total crop area (TABLE IX-10 and IX-11). Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-16 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential The acreage trend was downward before World War II. The 1938 corn acreage in the Ukraine was only a little over 40% of that in 1928. The yields were said to have been increased considerably during the years 1936-40, but a sharp reduction in yields has been reported since the war, due to the deterioration of the agricultural technique, a great decrease of selective seed plantings, and increased corn diseases and pests. Since the end of the war, effort is being made to restore corn cultivation. But the large amount of labor involved in growing corn by hand methods is a handicap to corn culture during the early postwar years, when mechanization is at a low ebb and there is an acute shortage of animal draft power. Even before the war, an acre of corn in southern Ukraine re- quired 7.4 to 8.5 man-days of labor, which is much higher than in any section of the United States except New England. (f) Other grains.-Millet and buckwheat play a sig- nificant part in the Russian diet as sources of porridge (kasha). In 1938 they occupied in European USSR proper 5.8 and 4.1 million acres, respectively (TABLE IX-10). Because of its short vegetation period, buckwheat can be cultivated quite far north, despite its sensitiveness to spring frosts. It is also not an exacting crop as far as soil is concerned. Buckwheat is grown primarily in the cen- tral regions and in the northern Ukraine. Because of its sensitiveness to drought, the effort to extend it eastward and southward was not successful. The southern fron- tier of buckwheat cultivation follows the line Vin- nitsa-Voronezh-Penza-Kazan'. The yields of buck- wheat have been rather low and unstable. Millet acreage is concentrated in the Middle and Lower Volga and Central Agricultural regions, and throughout the south, extending into the extreme south. Unlike buckwheat, it is an excellent drought-resistant crop. Since millet can be planted late in the season, and requires little seed, it is considered an important "insurance" crop in the semiarid zone of the USSR, providing a source of food and feed when other grain crops fail. A serious dis- advantage of millet is the necessity of extensive weeding and consequently large labor requirements. The govern- ment has paid considerable attention to the millet crop during the past decade and encouraged its planting and better farm practices to improve the rather low yields per acre. Such leguminous crops as peas, lentils, etc., are included in Soviet statistics with grain crops. An area of 4.9 mil- lion acres was occupied by grain legumes in 1938 in Euro- pean USSR proper. A little over a half of this acreage was under peas. The Central Agricultural region, Upper Volga, Middle and Lower Volga, and Northern Ukraine, are the regions were practically all of these grain legumes are grown. Very little of the acreage is located north or south of these regions. Planting of these leguminous crops, which not only provide valuable food and feed rich in protein but also enrich the soil with nitrogen, is now encouraged by the Soviet Government. (3) Potatoes Next to wheat and rye, potatoes constitute the most im- portant food crop in the European USSR. In 1938 pota- toes accounted for only about 7% of the sown area in European USSR proper (TABLE IX-11), but they were of much greater importance in the western and central re- gions, in which over half of the acreage was concentrated, and of less importance in the east and south (TABLE IX-12). In a region like White Russia (West), nearly a fifth of the acreage was devoted to potatoes. Northern Ukraine also had a sizable potato acreage, but in southern Ukraine the potato area was relatively insignificant. In the former Polish provinces, 15% of the sown area was oc- cupied by this crop and in the Baltics nearly 8 percent. Few potatoes, however, were grown in the former Ruma- nian provinces. Yields per acre were generally higher in the newly incorporated territories, particularly in the Baltics, than in European USSR proper (TABLES IX-13 to IX-17), though they were increasing in the latter before the war. The yields were particularly low in the southern regions, where the high temperature of the soil during the period of development has an adverse effect on tubers. Widespread virus diseases, resulting in the degeneration of the potato culture within two or three years, in the southern steppe regions makes it necessary to bring seed potatoes from northern or mountainous regions. Summer planting of potatoes in the south at the end of June or the beginning of July was introduced before the war in order to postpone the period of tuber development until September when the temperature is lower and the humidity greater. In 1938 nearly 116,000 acres of pota- toes were planted in the summer in European USSR proper. Although the use of potatoes for feed in the USSR was less prevalent than in western Europe, particularly Ger- many, over a fourth of the crop was used for feed in the USSR, according to the data available for the years 1925- 26 and 1929-30. The per capita food consumption of pota- toes was much larger in the northern and western parts of the country, where potatoes are largely grown, than in the south and east. Thus, the food budget surveys for the years 1925 through 1927 showed 540 pounds per capita consumption of potatoes in the so-called consuming, or grain-deficit area, which includes roughly the Northern, Northwestern, Western, Central Industrial, and part of the Upper Volga regions. In the so-called producing, or grain-surplus area, which included the Central Agricul- tural, Middle and Lower Volga, and South, as well as Siberia, the average per capita consumption of potatoes during the same period was 336 pounds. In Germany in the 1930's it was 417 pounds. Before World War I, potatoes were used extensively for the production of alcohol, but during the interwar period grain was substituted to a considerable extent for this purpose. The use of potatoes as a source of alcohol, how- ever, began to increase again before the war. In 1937 potatoes constituted only 15% of the total raw material used in the alcohol industry, and grain 70%; the plan for 1938 called for 23% and 57% of potatoes and grain, respectively. The war has greatly enhanced the importance of pota- toes because of the large outturn in terms of calories per acre. Even in the invaded regions, their acreage decreased relatively less than that of other crops; in the uninvaded regions, potato acreage has expanded considerably since the war. Potatoes became the principal crop on the numerous victory gardens of the urban dwellers, the acre- age of which increased from 1,500,000 acres in 1940 to 2,750,000 acres in 1944. Still, in 1946, the potato acreage of the whole USSR, including the uninvaded European and the Asiatic regions, was 86% of the estimated 1938 acreage. The decline was probably greater for European USSR alone. (4) Sugar beets The sugar beet is the only domestic source of sugar in European USSR, although a little sugar cane is grown in Central Asia. Since it is also a highly intensive crop with a large labor expenditure and high return per acre, it is Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-6 FLAX, SUNFLOWERS, SUGAR BEETS, AND HEMP, 1938 JANIS 40 CONFIDENTIAL E EUROPEAN USSR: SOWN AREA OF FLAX, SUNFLOWERS, SUGAR BEETS, AND HEMP, 1938 10 15 20 25 30 35 40 45 50 55 60 65 70 7 5 KARA SE O A Y .; B A R E N T S S E A ~ O / Ob' 65 1 f SWEDEN 65 0.5 WHI TE SEA 1 (Lass acresj 500 Arkhangel'sk 0 0 0 OF 1 4, FINNISH FINLAND 0.5 60 / urE Draw qy 60 UCE . 5 I LADOGA 0 BALTIC GULF OF FIMLA140 1 4 I SEA Leningrad N O R T H ) yy ESTONIA / Vologda 0.5 Rig. E ? 0.5 JALTIC A NORTHWEST CENTRAL o.5 05 y alining INDU TRIAL 55 Goi ki Vd - y 0 1 'i 3 .i ow Kazan' 2 4 M J (Moskva))) UPPE VOLGA GERMAN 0 _.-?J ~./ f 0.5 - Sma 1 2 3 4 ula Ryazan' UI'yanovsk ~ 1.0 5 1 4 CENTRAL MIDD Kuybyshev P L A N D WHITE RUSSIA .0'e1 AGRICULTURA~Penza A D (WEST) Tambov 1.5 LOWE VOLGA 0.5 0 Kursk 3 0 5 1 - - aro 50 ratov POLISH i B0 /. Lvov r i 1.0 - / NORTH 0 1 2 4 x 0 czec ~ Vinnit. 1 3 4 Khai kov UKRAINE .5 - 0.5 1.0 1.0 SOUTH UK NE Stali ACRES Dnepropetrovsk DON - (Millions) AND DONETS ? CRIMEA - - 0 1 2 3 4 Seed 0 1 2 3 4 0 RUMANIAN oa Rosto na 0.5 Fiber 45 5 E A OF Astrakhan 45 RUMANIA Azov o 0 1 'Ny 3 4 0 D-6 1 2 3 .? 1 2 3 4 ~~~5 ~F}tQ Yalta CASPIAN ~SF,J ~ SEA BULGARIA BLACK SJ SE A BOUNDARIES rl "~? USSR -?- International (1937) JAN r I S d a T U NOrE.T6b.& 40 x ? mwdo ,..,,.ab~,~.v~d ;..Roos to t..smd drs -aow+d N#. U S. C - 40 N,. Lj rb. U SC ....e .s .w 1.d A. l.sapantrm d E-, Y Lee.:., .nd l:dw.l. mro et. Soave U.re.. 1 moo 6 300 Miln 0 100 200 300 Kilo.. tem J a CASPIAN SEA CONFIDENTIAL l R A N IRAN 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE of greater importance in the economy than is suggested by the size of the area on which it is grown. The 2,841,800 acres sown to this crop in 1938 accounted for only 1.11/v of the total sown area; in European USSR proper the per- centage was 1.2 and in the acquired regions only 0.3. More than 90'/o of the sugar beets are grown in the Cen- tral Agricultural and Northern Ukrainian regions. This localization is in great part due to the special require- ments of sugar beet growing (TABLES IX-10 to IX-12 and FIGURE IX-6). Fertile soil, or well-fertilized soil, and intensive cultiva- tion, requiring much labor, are needed to obtain high yields of sugar beets. The history of sugar-beet culture in the USSR demonstrates the difficulties which have been encountered in meeting these requirements. The area under sugar beets in European USSR proper increased markedly in the late 1920's and early 1930's, after which it declined. Sugar-beet yields fluctuated: during the period 1925-29, the average yield was 5.6 short tons per acre, but in the next five years, when agriculture was being extensively collectivized, the yield dropped to an average of 3.7 short tons per acre. In the middle 1930's, special efforts were made by the government to improve cultural practices and increase their mechanization, with some improvement in the yield. The average for 1935-39 was 6.1 short tons per acre. The most important sugar-beet regions were invaded during the war. The devastation by the Germans, the destruction of machinery and the inability to replace it, the disruption of crop rotations, the infestation of weeds, and the lack of necessary manpower during the war, have had the most serious effects on sugar-beet production. While in some places in European USSR sugar-beet acre- ages have been restored to their prewar levels, the over-all acreage is still below prewar and yields are estimated to have recovered even less. The estimates for the whole USSR (1938 boundaries) for 1946 are : 2,584,700 acres, a yield of 5.1 short tons per acre, and production 13,260,000 short tons, as compared with the 1935-39 averages of 2,970,000 acres, 6.1 short tons per acre, and 18,201,000 short tons total. The sugar industry also suffered severely from the de- struction of refineries. Great efforts have been made to repair the damage. As a consequence, in 1946, 100 sugar refineries were operating in the Ukraine alone, as com- pared with 160 before the war. Over all of the USSR, the total number of refineries in operation at the end of 1946 was 186, as compared with 158 the preceding year. In the years 1934-38, the USSR was on an export basis and net exports of sugar and processed sugar products averaged 105,616 metric tons (116,421 short tons). The war reversed this situation and necessitated severe ration- ing of sugar. During the 1930's sugar-beet production was expanded in Latvia and Lithuania. In Latvia, the average acreage for 1935-39 was 33,000 acres with a production of 282,000 short tons of sugar beets. The comparable figures for Lithuania were 20,000 acres and 168,000 short tons. In both countries, the yields - 8.5 and 8.4 short tons per acre respectively - were higher than the average yield for the whole USSR during 1935-39. Sugar-beet growing in the Baltics suffered severely during the war. The fragmen- tary data available suggest that, as in the rest of the USSR, great efforts are being made to recover these production losses. In other territories acquired by the USSR, the sugar-beet crop was an even smaller proportion of the sown area. In 1938 it amounted to less than half of one rercen~ in flip Original Page IX-17 Rumanian territory, about a quarter of one percent in the Polish provinces, and only two-tenths of one percent in the Konigsberg (now Kaliningrad) region of East Prussia. The yields obtained that year were 8.3 short tons per acre in the Rumanian territories, 7.9 short tons per acre in the Polish provinces, and 12.8 short tons per acre in East Prussia, where agriculture was at a higher level. In 1938 the total area under sugar beets in the acquired territories was 133,600 acres with a production of 1,064,100 short tons. (5) Sunflower seed Sunflower seed is the principal oil crop in the USSR which before the war produced almost 80(/,) of the world crop. Almost the entire crop is found in the Central Agricultural, Middle and Lower Volga, and Southern re- gions of European USSR, and it is domestically consumed. In the newly acquired territories, sunflowers are important in the former Rumanian provinces, where likewise they are the chief oil-bearing crop, occupying an even larger pro- portion of the cropland (TABLES IX-10 to IX-12; also FIG- URE IX-6). The plant is well suited to the USSR as it is rather hardy and drought-resistant. Successful efforts were made before the war to breed high-yielding, rapidly matur- ing varieties to avoid the great losses from frost and snow. In the Soviet Union, sunflowers are profitably used from stalk to flower. Oil from the seeds is the basic vegetable oil for food; oil cake is valuable feed concentrate; and the remaining part of the flower can be used as a coarse fodder after threshing. The husk of the flower is used for fuel, and the ashes of the stalk are a source of potassium carbonate. In the principal producing regions, whole sunflower seeds are eaten like peanuts and constitute a popular delicacy. The 1933-37 average production of sunflower seed in European USSR proper was nearly one and a half million short tons (TABLE IX-13), with a yield of only 0.26 short tons per acre. The 1938 production in the Rumanian territory was 152,100 short tons, with a yield of 0.46 short tons per acre. During the war sunflower production in the USSR was reduced because, to a large extent, the crop lay in the path of the invasion. Great efforts have been made to recover these losses. There has been more success in reestablishing the sown area than the yields. Large harvest losses were reported in 1945. (6) Flax Flax is one of the most important industrial crops in the European USSR. Fiber for linen fabrics is obtained from its stalk. Its seed is a source of linseed oil, which is used as a drying oil and also, after refining, as an edible oil, or for the manufacture of such products as margarine. The oil cake remaining after the extraction of oil is a valuable feed concentrate. Different varieties of flax are planted, depending upon whether it is grown primarily for fiber or seed. The fiber varieties, of course, also pro- duce some seed, but the yield of the latter is considerably smaller than of the specialized seed varieties. There are also important differences in climatic conditions required for the best growth of fiber and seed varieties of flax. The former require a humid climate with moderate summer temperature, whereas the latter grow better in regions with warmer and drier weather. Unlike the United States and Argentina, where flax is primarily grown for its seed, European USSR produces it principally for fiber. In European USSR proper, exclu- sive of the newly acquired territories, 4,220,000 acres were sown in 1938 to fiber flax, and 462,000 acres to flax grown only for its seed (TABLE IX-12 and FIGURE IX-6). Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-18 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential The growing of fiber flax is centered in the western re- gions of European USSR (Northwestern and White Rus- sia), in the Central Industrial Region, and the Upper Volga. The Middle and Lower Volga and the southern regions of the country lead in flaxseed acreage. Of the 666,000 acres of flax in 1938 in the acquired territories, a little more than 60% were in the Baltic republics, which also specialized in fiber flax. The yields per acre of both fiber and seed are higher in the acquired territories than in European USSR proper. The highest yields are shown by Lithuanian SSR (TABLE IX-13 to IX-18). It was customary for the Soviet peasant farmers to plant flax as late as June, but planting early in May is recom- mended by Soviet agronomists as advantageous to yields and to the quality of the stalk. It is characteristic of flax, even more than of many other crops, that growing it con- tinuously on the same land is detrimental to yields. Even a generous application of fertilizer does not remedy the situation, as some of the deterioration in yields may be due to the prevalence of soil fungous diseases. Rotation of flax with other crops, therefore, is essential for main- tenance of yields. Clover is considered one of the best predecessors for flax as it enriches the soil with nitrogen in proper proportion, maintains good structure of the soil and keeps it clean of weeds. The development of flax- growing, therefore, in the principal regions of the USSR was accompanied by the expansion of the area under clover. In 1936, 26 ~4, of the flax-fiber area was preceded by clover, and 43% by winter grains, which in turn were usually preceded by a fallow. Successive planting of flax had become insignificant before World War II. Considerable effort was made before the war to mecha- nize various operations connected with flax production and processing, which require a great amount of hand labor. Especially was this true of hand harvesting (pull- ing) of flax. On 1 January 1939, there were over 9,000 pulling machines and 800 threshing machines of Soviet make being used in harvesting of flax in the USSR. In 1938 nearly 8017o of the flax acreage was seeded with selected seed. The quantity of commercial fertilizer used was also increasing from year to year. However, the in- crease in the yields of flax of about 13%, on the average during 1933-37, compared with 1928-32, had not been con- sidered satisfactory by the government. The third Five- Year Plan, which was approved in 1939, called for an in- crease of over 75 ~1,) in yields per acre as compared with the 1933-37 average. Russian flax was an important article for export during the 19th and early years of the 20th century. In fact, prior to World War I, Russia was the leading exporter of flax and tow in the world. These exports declined greatly during the interwar period. They averaged only about 5,000 short tons during 1935-38, as against more than 300,000 short tons in 1913. (The figure for 1913 includes exports from the Baltic States, at that time a part of Russia. The average for 1935-38 does not include the Baltic States, which exported on the average over 30,000 short tons.) Flax production suffered tremendously during the war. Large stretches of the most important flax-growing re- gions were invaded by the Germans, who caused great damage to the collective farms and the machine-tractor stations. The example of the Smolensk province (North- western region) shows the extent of acreage decline. In 1940, over 500,000 acres were devoted to fiber flax in that province, and less than 200,000 acres in 1945, after the province was liberated and recovery ensued. In the unin- vaded regions, flax production has been handicapped by shortages of labor and draft power, fertilizer, and the difficulties of adequately replacing and repairing ma- chinery. For all these reasons both acreage and yields of flax were greatly reduced. The 1946 flax acreage was less than half of prewar. (7) Hemp Before the war the USSR was also a leading producer of another fiber and oilseed crop-hemp. Hemp seed yields valuable oil and cake for fodder; the stalk yields a fiber used in the manufacture of such durable cloth as canvas, bagging, sailcloth, and rope. In European USSR, two kinds of hemp are grown : the middle-Russian, or northern, hemp, accounting in 1938 for two-thirds of the total acreage, and the more recently introduced Italian hemp, also known in the USSR as southern hemp. The latter has a longer growing period, 100-110 days, by comparison with 80-90 days for middle- Russian or northern hemp. The fiber of the southern hemp is of superior quality and is sometimes used as a substitute for flax. While the yield of fiber is higher for southern hemp than for the northern variety, the reverse is true of seed. The seed of southern hemp, grown in Central Russia, does not usually mature. Thus, the middle-Russian or northern hemp can be said to be a dual- purpose crop, grown both for fiber and for oil, while the southern hemp is primarily a fiber crop. The middle-Russian or northern hemp is grown widely in the European USSR. It is concentrated especially, however, in the Central Agricultural Region, the Northern Ukraine (Chernigovskaya Oblast'), and in the southwest- ern corner of the Ukraine. Southern hemp is grown largely in the Central Agricultural Region and in the central and southern Ukraine (TABLE IX-12 and FIGURE IX-6). Hemp is entirely a spring-sown crop. The period be- tween 1 May and 20 May is normally recommended for planting. June plantings give poorer yields. Hemp, which is highly responsive to fertilizer, has usu- ally been grown on abundantly manured plots of land devoted exclusively to the raising of this crop. Without application of fertilizer, low yields are obtained even on the fertile black soil. In addition to the use of fertilizer, it is recommended that hemp be planted in rotation with a legume grass, like clover. The need of specially pre- pared land presents an obstacle to a rapid expansion of the area under hemp, which, in fact, declined during the 1930's after reaching a peak in the early years of that decade. Hemp, unlike other crops, continued to be grown to a considerable extent by farmers individually, even after collectivization. The old hemp land, which was included with the individual kitchen garden plots on collective farms, continued to be used for this purpose. Before World War I, Russia shared with Italy the lead- ing place as supplier of hemp fiber to the world industry. But during the interwar period, Russian hemp fiber ex- ports dwindled to insignificance. Hemp seeds have not been exported since 1934. The Soviet Union, it is estimated, produced, prior to the war, about three-quarters of the world crop of hemp seed and between a quarter and a half of the world's hemp fiber. Both Poland and Rumania were also relatively large producers. Approximately three-quarters of the Polish and one-fifth of the Rumanian hemp areas were located in territories recently acquired by the USSR. This suggests that, when the ravages of war have been overcome, the USSR will continue to be by far the largest world producer of hemp seed and fiber. Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE Since the war, hemp production in the USSR, although apparently somewhat less emphasized than flax produc- tion, has been the object of efforts toward improvement, initially toward the reestablishment of prewar acreages and yields, which were drastically reduced in wartime. In 1945, the acreage goal planned for the crop was increased, but the plan was not fulfilled, and severe harvesting losses were reported. In 1946, the acreage plan was again in- creased and the few reports of both sowings and harvesting were more favorable. But the 1946 hemp acreage was still only about 40'/, of the prewar. The Five-Year Plan for 1946-50 envisages hemp acreages and production in excess of prewar levels. (8) Cotton During the 1930's cotton, which up to that time was grown in the USSR only in the irrigated regions of Central Asia and Transcaucasia, was introduced into southern European USSR. In 1938, 564,600 acres (228,500 hec- tares) were planted to cotton in the southern Ukraine, 123,800 acres (50,100 hectares) in the Crimea, 35,800 acres (14,500 hectares) in Rostovskaya Oblast', and 4,900 acres (2,000 hectares) in the lower Volga area (Astrakhanskaya Oblast'). This innovation meant the movement of cotton north- ward, and its cultivation under less favorable climate and under dry-farming (nonirrigated) conditions. The crop, which requires a long growing period free from frosts, was often damaged by early frosts in these regions. The cot- ton yields were very low, the quality inferior, and the cost high. Practically all this cotton area was in the zone which was occupied by the Germans during the war, and little if any cotton was produced during the occupation. Judging from the production program of the Five-Year Plan announced in the spring of 1946, there is no intention to resume cotton growing on the former large scale in these relatively low-yielding, high-cost regions. Shortage of manpower in this war-ravaged area may have had an important bearing on the decision to reduce the acreage under cotton, which requires considerable labor expendi- ture per acre. (9) Tobacco Two kinds of tobacco are grown in the European USSR, 1) the so-called yellow tobacco, which is predominantly a cigarette leaf, and 2) a low-grade, coarse, strong tobacco, high in nicotine content, which is called makhorka. The latter is used both for smoking and for extraction of nico- tine for insecticides. In 1938 the total area under yellow tobacco in European USSR proper amounted to 66,200 acres, of which northern Ukraine accounted for 18,800 acres and the Crimea 21,700 acres. Tobacco culture in the Crimea is 200 years old, and some fine leaf of the oriental, or Turkish, type is grown in that region. In 1938 an area of 233,500 acres was planted to mak- horka, of which the Ukraine accounted for 94,900 acres, Middle and Lower Volga for 40,300 acres, and the Central Agricultural region for 48,900 acres. While most of the makhorka acreage is in European USSR, some of the most important yellow-tobacco-producing regions are in the Caucasus. The acreage and production of both yellow tobacco and makhorka were greatly reduced during the war. The tobacco area in the Crimea in 1944 was only 3,645 acres as compared with nearly 22,000 acres before the war. The yield per acre was only 294 pounds as compared with 758 pounds in 1939. An improvement in the Crimea occurred in subsequent years. Makhorka acreage is being restored more rapidly than yellow tobacco. In the Ukraine, to- Original Page IX-19 bacco acreage in 1946 was 581/u of prewar and makhorka nearly 83 percent. B. Livestock The livestock industry of European USSR proper has passed through several phases of decline and recovery since World War I. Between 1916, when the first Russian census of livestock was taken, and 1922, livestock numbers declined. This was the period of revolution, civil war, and famine. Between 1922 and 1928, a recovery took place and live- stock numbers generally exceeded the 1916 level. An- other decline took place in the early 1930's during the collectivization campaign, when the peasants (who were joining the collective farms or who were being liquidated as independent farmers) slaughtered their livestock on a huge scale. Poor husbandry in the new collective and state farms, and shortage of feed, contributed to excessive mortality of livestock. In the Ukraine livestock numbers decreased as follows between June 1928 and 1933: all cattle 481/,, cows 40'/(, hogs 701/c, sheep and goats 75%, and horses 53 percent. For White Russia the percentage reduction for the same period was: all cattle 29%/, cows 24%, hogs 35%, sheep and goats 52'/,,, and horses 27 percent. After the middle 1930's, with governmental encouragement of individual ownership of livestock (except horses) by members of col- lective farms, a recovery again took place. But in 1938, as far as it is possible to judge from available data, live- stock numbers were still below the 1928 level in European USSR proper, except hogs which were substantially above. The great decrease in the number of horses in the 1930's was offset by the introduction of tractors, but it was never part of the government program to permit so serious a reduction. On the contrary, the need to increase the number of horses was frequently stressed in government decrees and pronouncements. A new decline took place as a result of the war and particularly of the destructive German occupation. By the end of 1945, when some recovery already had taken place, cattle numbers for the Soviet Union as a whole were 801/,, of the 1938 figure, horses were a little more than half, and hogs only a third of the 1938 numbers. For the European USSR alone, which includes the whole of the invaded area, the decline was probably greater. Collectivized livestock suffered especially during the Ger- man occupation. Horses were collectivized with minor exceptions, but most other livestock before the war was individually owned. In the Ukraine, out of 2.9 million horses on 1 January 1938, only a little over a hundred thousand (in- cluding city horses) were individually owned and the rest were either on collective or state farms or institutions. However, of the 7.8 million head of cattle, nearly 5.4 mil- lion were individually owned; of the 7.7 million hogs, 5.1 million were individually owned. In White Russia, out of more than 600,000 horses, only about 70,000 were indi- vidually owned; out of 1.9 million head of cattle, over 1.1 million were individually owned; out of nearly 2 million hogs, 1.7 million were individually owned. Other regions would show a rather similar proportion. Between 1939 and the beginning of war, a strong effort was made by the Government to increase the communal herds (collectivized livestock). An important step in this direction was the change in the basis of compulsory deliv- eries of dairy and livestock products. After 1940 the col- lective farms were required to deliver a certain quantity of livestock and dairy products per unit of land instead of Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Page IX-20 JANIS 40 Confidential TABLE IX - 21 LIVESTOCK NUMBERS, TOTAL AND PER 100 ACRES OF SOWN AREA, EUROPEAN USSR, 1938 Total livestock (thousands) Livestock per 100 acres of sown area Region Horses Cattle Sheep Hogs Horses Cattle Sheep Hogs European USSR proper: North .................................................. 460.1 1,221.4 779.6 220.3 11. 4 30.2 19.3 5. 4 Northwest. . .............................................. 1,135.4 2, 765.9 3, 063.6 1, 885.0 7. 7 18.8 20.9 12. 8 Central Industrial ....................................... 1, 312.8 3, 144.8 3,021.3 1,863.2 5. 5 13.1 16.3 7. 7 Central Agricultural. ....... ......:............... 1,451.4 3,480.9 3, 617. 9 2,471.8 4. 0 9. 6 9. 9 6. 8 Upper Volga ............................................ 940. 2 1, 968.9 2, 798.9 1, 079.5 4. 8 10.0 14.2 5. 5 Middle and Lower Volga ..........................:...... 603.4 2, 824. 1 4, 259. 9 965.7 1. 9 9. 0 13.6 3. 1 South .................................................. 3,242.1 9, 174.4 4, 984.0 8, 422.8 4. 2 11. 9 6. 5 10. 9 North Ukraine ........................................ 1, 872.6 4, 647.8 1,033.9 4, 845.8 5. 7 14.2 3. 2 14. 9 South Ukraine and Crimea ............................. 895.0 2, 551.9 2, 122. 7 2, 218.9 3. 4 9. 8 8. 1 8. 5 Don-Donets Region .................................... .474. 5 1,074. 7 1; 827.4 1, 358.1 2. 6 10.7 9. 9 7. 3 West .................................................... 632. 9 1,905.3 1, 055.9 1, 951.0 7. 7 23. 1 12.8 23. 7 All European USSR proper ....................... :... 9, 778.3 26, 485. 7 24, 481.1 18, 859.3 4. 5 12.3 11.3 8. 7 Newly incorporated areas: Finnish ................................................. 43.0 195. 0 1.08.0 68.0 6. 9 31.2 17.3 10. 9 Baltic** ....................... 1,168.7 3,049.4 3,251.4 2,384.7 9. 1 23.8 25. 3 18. 6 Konigsberg*** ........................................... 174.0 554.0 39.0 712.0 12.2 38.9 2.7 50. 1 Polish** ................................................ 1,629.8 4, 098.3 2,371.6 2, 696.4 10. 1 25. 5 14.7 16. 8 Rumaniant ............................................. 602.8 734. 3 2,400.3 610.7 7. 6 9. 2 30.1 7. 7 All European USSR ................................. 13, 396. 5 35, 116. 7 32, 651. 4 25, 331. 1 5. 3 13.8 12.8 9. 9 Data are for 1 January 1938. ** Data are for June 1938. *** Data are for December 1936. t Data are for summer 1935. per head of livestock. It was essential.for the collective farms to increase their communal livestock numbers in order to comply with this requirement. As far as regional distribution of livestock in European USSR proper is concerned, northern Ukraine had, in 1938, the largest number of horses, cattle, and hogs; it was fol- lowed by the Central Agricultural Region. In sheep, the Middle and Lower Volga was leading, followed by the Cen- tral Industrial Region. A somewhat different picture, however, is presented. when livestock numbers are related to acreage. The northern and western parts of European USSR proper had the largest number of cattle per 100 acres. Here in the proximity of the two largest cities, Moscow and Leningrad, is the dairy-farming region of European USSR. Incidentally, the famous Cholmogor dairy cow is a native of the far north, Arkhangel'skaya Oblast' (TABLE IX-21). White Russia (West) had 37% more hogs per 100 acres than northern Ukraine, which leads in the total number of hogs. In the number of sheep per 100 acres, likewise the northern regions led, andnot Middle and Lower Volga with their largest absolute number. In the case of horses, relative to acreage, the northern regions are also ahead of the Central and especially the Southern regions with their high degree of mechanization. Livestock is essential for farming in the more northern parts of European USSR also because without manure crop production is impossible on the infertile soils of these regions. The number of animals per 100 acres is considerably larger for all types of livestock in the newly incorporated areas (with the exception of the former Rumanian terri- tory) than in European USSR proper. Dairy farming and pig raising were of importance in the Baltic republics, which were substantial exporters of butter, particularly Latvia, and of hog products and live pigs, especially Lithuania. C. Food consumption and distribution European USSR as a whole is normally self-sufficient with respect to most foodstuffs and even had small export surpluses. Before World War II European USSR proper exported small quantities of wheat, rye, barley, and oats, oilseeds, and sugar. The Baltic Republics also exported small quantities of grain and substantial quantities of butter and hog products. The former Rumanian territory exported wheat, corn, oilseeds, and some fruit. As could be expected of an area of the size of the Euro- pean USSR and with its variety of natural and economic conditions, there are considerable regional differences with respect to self-sufficiency in the matter of food supply. The pattern is most definitely established for grain, which is the most important article of the Russian diet. The country is broadly divided into a grain-deficit area, which roughly corresponds to the zone of nonblack soils, and a grain-surplus area, embracing for the most part the black- soil zone. The South, the Middle and Lower Volga, the Central Agricultural region, and part of the Upper Volga fall within the grain-surplus area, and so do the Baltic and former Rumanian territories and the southern part of the former Polish territories. The rest of the country is the grain-deficit area. (1) Consumption Data on Soviet food consumption were provided by spe- cial food surveys, the results of which, however, are not available beyond 1928. At that time the average caloric intake amounted to roughly 3,000 calories. Breadstuffs greatly predominated in the Soviet diet, accounting, even in normal years, for over 80% of the caloric intake. While no independent statistical data on food consumption were published in the 1930's, there is good ground for believing, from both production statistics and reports of observers, that the Soviet diet deteriorated. . This deterioration was Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Cbnfdentioi RESOURCES AND TRADE especially great during the early 1930's, when the rural population actually suffered from starvation, while the urban population was subjected to severe rationing. But even in the late 1930's, conditions were less satisfactory than they were in the middle 1920's, especially in meat and dairy products; the country still felt the adverse effect on the livestock industry of the agricultural collectiviza- tion in the early years of the decade. A further deteriora- tion of the Soviet diet, especially in nonbread components, has taken place since the war. This subject can be best dealt with in conjunction with rationing, which will be discussed in connection with the general problem of dis- tribution of foodstuffs. (2) Distribution system The foodstuffs grown on the three types of farms (col- lective, state, and independent) reach the ultimate con- sumer by various complicated routes over which the state has almost complete control. (a) Producers' outlets.-Basic to collective and state farming in the USSR is the entry of the state into the dis- tribution system as a principal buyer, regulating prices directly and indirectly. The government is the direct recipient of farm produce in four ways. First, all farms are required to deliver to the state, at low fixed prices, a portion of their crops and livestock produce, based on the size of their land. Second, the state, as owner-mana- ger of the machine-tractor stations, receives the produce paid to these stations by the collective and state farms which they service. The proportions of the collective farm produce delivered to the state in these two ways varies. In 1937, compulsory deliveries of the grain crop of collective farms amounted to 12.2 `y: and payments in kind to machine-tractor stations to 13.9 percent. In 1939 the respective shares of a smaller crop increased to 14.3 14 and 19.2 %% of the crop. The third direct means by which the government obtains agricultural commodi- ties is through sale to the government, by collective farms and their members, in excess of their quotas, at prices somewhat higher than those paid for compulsory deliver- ies. Finally, the supplies produced by the state farms are at the disposal of the government. Collective farms have other, less rigidly restricted out- lets for their produce on the free, open markets or bazaars in cities, towns, and villages. Likewise, members of col- lective farms and the few remaining independent farmers may sell in such markets the produce from their own gardens, or the surplus from their wages in kind. These sales are necessarily limited by such factors as transportation (since railroads could not be used for food shipment, except by passengers carrying it as their per- sonal baggage), by the prohibition of the services of middlemen who are labeled in Soviet parlance as specu- lators*, and by state ownership of most processing plants. Finally, the surpluses available for sale on the free market, after meeting government deliveries and consumption re- quirements, are not large. Prices in these open markets are largely the result of supply and demand, although the government exercises some control indirectly by the competition of its "com- mercial" stores, where food is sold at high prices and without the requirement of ration coupons. During the winter of 1943-44, when the deprivations of war were at a maximum, prices on these open markets were at their highest and much of the trade was on a barter basis. ? "Speculation" is a criminal offense, and "speculators" at these markets may be arrested by the police. Nevertheless, there have been reports of considerable activity by "speculators" in periods of widespread shortages, such as those of 1946-47. Original Page IX-21 (b) Distribution to consumers.-Since 17 July 1941 the Soviet Union has rationed the basic foods to all non- agricultural producers. Unrationed self-suppliers have a less privileged position than that of most agricultural producers in other rationed countries, because the system of planned production, compulsory deliveries to the state, and residual payments to collective farmers, acts as a sort of rationing. The rationed population, exclusive of the armed forces, is divided into the following six categories : R-1 Card is for workers in heavy industry, such as metallurgy, machinery industries, etc. It is understood that in many cases miners receive a super-ration which is larger in terms of bread than an R-1. R-2 "Worker's card" is given to outdoor workers doing manual labor or work requiring considerable amounts of exercise. It is also given to indoor workers and executives with special qualifications (such as a higher education), and to students in higher educational institutions. A special variation of this card exists for engineering and technical workers. S-3 "Employee's card" is held by almost all workers not re- ceiving R-1 or R-2. It is particularly for indoor and office workers without highly specialized qualifications. 1-4 "Dependent's card" is held by adults (persons over 18) who are unemployed and at the same time are in one or more of the following groups: a) invalids of the first or second categories; b) mothers with children under eight years of age; c) women over 55; d) men over 60. IT-4 "Dependent's card" for all unemployed adults, including housewives who do not receive 1-4 cards. D-5 "Children's cards" are received by all children under 12 or 15 (the upper age limit is not clearly known) and also, apparently, by some or all students through the 10th grade of school. Prior to October 1946 a large number of persons re- ceived special supplementary rations, most of which were, at least theoretically, designed to take the place of meals served in the institution in which the holder was employed. There were various categories of these supplementary ra- tions: "Liter A," "Liter B," Dry Rations, "Abonnementy," Scientific Workers' cards, "R-4," etc. In addition, dur- ing the war, supplementary rations were issued to ex- pectant and nursing mothers, blood donors, and hospital patients. The broad categories into which rationed food is divided indicate the inclusive and differentiated food rationing in the USSR. Allowances for each ration category, often unfulfilled during the war, are shown in TABLE IX-22. The special categories, which have been greatly reduced in number since October 1946, formerly allowed the holder a certain amount of bread, grits, sugar, fats, etc. So far as is known, all bread and all grits now have been elimi- nated. In the past, the meat ration has included fish or eggs when meat was scarce. The sugar ration has often been met with candy or cookies. At the present time, potatoes, other vegetables, and fruit are not rationed. The rationed population obtains its food in so-called "open" and "closed" shops. "Open" shops, however, are not open to the general public but rather to the public of a given ration district. "Closed" shops are those con- nected with a particular place of work. They may also have an order department where special customers be- longing, as a rule, to the more privileged official class leave their orders to be filled and call for them later, thus avoiding a long wait in line. These stores are usually much more adequately stocked than the "open" shops. . How well one is supplied with rationed food, therefore, depends upon whether one is able to trade in an "open" or "closed" shop. There are considerabel differences also among the latter, depending upon the particular organ- ization or institution with which the shop is connected. Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-22 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential Food Unit Heavy worker R-1 Worker R-2 Employee S-3 Dependent 1-4 Dependent IT-4*** Child D-5 Bread ............................ Grains per day.......... 650 550 450 250** none 300f Grits ............................. Grams per month....... 2000 2000 1500 1000 1000tt 1200 Meat and fish ..................... Grams per month....... 2200 2200 1200 600 none 600 Fats .............................. Grams per month....... 800 800 400 200 none 400 Sugar ............................. Grams per month....... 900 900 500 400 400tt 500 Salt .............................. Grains per month....... 400 400 400 400 400 400 Tea .............................. Grams per month....... 25 25 25 25 none 25 Matches .......................... Boxes per month........ 3 3 3 3 3 3 * Only the few major changes indicated below took place in basic ration categories from September 1946 until early 1947. It is quite apparent that. this ration classification is maintained only for purposes of keeping records straight. ** 1-4 bread ration was reduced from 300 to 250 grains per day. *** A new category IT-4 was created. D-5 bread ration was reduced from 400 grains to 300 grams per day. Children in the eighth, ninth, and tenth grades continue to receive 400 grams per day, as previously. tt In December 1946 there was no sugar given on IT-4 cards, and in January grits were eliminated. As a rule, the official Party (Communist Party), govern- ment, technical, and military personnel are best supplied. As for the general population, its rationed allotment of bread has usually been available, at least in the larger cities. Other rationed foods, however, are often not avail- able in the "open" shops, or substitutes are offered. A large proportion of the rationed population has to sup- plement its rationed food allotment from other sources. Individual gardens have become an important source of supplementary food, largely potatoes. Food, both on the rationed and unrationed lists, can also be obtained without submitting ration coupons on the private, or open market and in special government "com- mercial" stores, established in a number of cities in 1944. On the open market, at the bazaars to which peasants bring their surplus agricultural produce, consumers may purchase what foods are for sale. During the war, at least, much of this trade was on a barter basis, the city dwellers exchanging second-hand clothing and other con- sumer goods for foodstuffs. These bazaars are practically a legalized black market over which the state exercises police control. The so-called "speculation" or barter trad- ing, which is not strictly legal, may be overlooked or the Taw may be strictly enforced, and consequently trading considerably curbed. Even more important is indirect regulation by the government of the private market through the competition of its own "commercial" stores, where food is sold without the requirement of ration coupons. These "commercial" stores also granted certain rather large groups of their customers 10 or 25% dis- counts, but in September 1946, these discounts were abol- ished. Since 1944 the government has also opened a few public restaurants where meals can be obtained ration free but at high prices. In preparation for future derationing, the difference in price levels for food sold with and without ration coupons was markedly reduced by legislation in September and October 1946, lowering prices in "commercial" stores and raising prices in ration stores. Unrationed prices, how- ever, are still very much higher than the fixed prices in rationed food stores and restaurants. TABLES IX-23 and IX-24 illustrate the effect of the changes on the monthly cost of rations for each category and on the individual food items in "commercial" stores. Prices on the open market did not all drop when prices in "commercial" stores were reduced. The most marked exception was bread, which instead of dropping increased as much as 335'/c, for black bread in Moscow. The reason for this is largely that the downward ration classification of many people, the discontinuance of special supple- mentary classifications (Litre A, etc.), and the creation COST OF ONE MONTII'S RATIONS, IN RUBLES*, AUGUST AND NOVEMBER 1946 RI-Heavy Worker....... 142-Worker ............. S3-Employee............ I4-Dependent........... IT-4-Dependent ......... D5-Child ............... Litre A .................. Litre B .................. Abonnement ............. 251. 53 255. 88 169.43 95. 45 22. 30 122. 03 244. 45 213. 45 126. 03 * Official exchange rate of the ruble fixed at 18.9 cents United States currency; so-called "diplomatic" rate, 8% cents. COMMERCIAL STORE PRICES OF FOOD ITEMS, BEFORE AND AFTER 16 SEPTEMBER 1946, IN RUBLES PER KILOGRAM* 99. 85 91. 30 59. 60 36. 30 49.25 109. 55 96. 15 58. 10 Beef ....................... Smoked ham ................ Chicken .................... Sausage .................... Fresh fish .................. Cheese ..................... Butter (salted) .............. Rice ....................... Wheat flour ................. Tea ........................ Sugar (cube) ................ Sugar (granulated) .......... Raisins (black) .............. Without discount 140 470 200 300 80 270 400 70 35 380 150 120 240 With 25% discount 105 352 150 225 60 220 300 52. 5 26 285 112. 5 90 180 After 16 September 90 220 195 140 40 170 240 45 24 380 70 60 70 Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE Page IX-23 RISE IN COST OF FOOD FOR VARIOUS FAMILY UNITS AUCITST-NOVEMBER. 19.16 I l[ j III Cost ill November Type of family unit and Cost of Cost of of same type of ration cards rations, rations, amount of held August, November food as purchased oil rations in August* Relation of cost. in Column III to cost in Column increase in the cost of food, the principal item of the Soviet worker's cost of living. United States observers believe that these ration, wage, and price changes would force most families in the USSR to reduce their consumption of foodstuffs, would require persons who are employable but unemployed to seek work, would force the employed to work harder so as to in- crease their wages (in the USSR mostly piece-work rates are paid) or to seek additional work, and would compel those having liquid assets to liquidate these assets, in-, eluding cash and surplus consumer goods, in order to purchase food. D. Fisheries Single man or woman: (a) 1 R-2............ 91.30 256. 00 256. 00 280 (1) General (b) I S-3 ............. 59. 60 161). 43 169.13 28-1 The most important fish-producing areas of European I[nsband and wife: USSR, in the order of importance, are the Caspian Sea (a) 2 l1-2s..... 182 60 511. 76 51 1 76 280 , ....... (b) 1 IL-2 & 1 S-3..... . 150. 90 -125.31 . 125. 31 282 the Black Sea, the Sea of Azov, and the Murman coast. (c) 1 R-2 & I IT-4.... 127. 60 288.18 750. 18 590 Statistics published by Soviet authorities vary widely. llusland ), wife, one TABLES IX-26 and IX-27, however, are fairly representa- child: tive of published data on the catch, by species and areas. (a) 111-2; 11-1: 11)-5.. 176. 85 173. 36 653. 36 370 TABLE IX-28 gives planned catch, to be achieved by the (h) I It-2; I S-3; 200. 15 547. 3.1 667 3.1 330 lliishaud, wife, two chil- dren: . end of the current Five-Year Plan (by 1950). Fishing industries are collectivized in the Soviet Union (a) 1 11-2; I I-4; 2 D-5 .. 226. 10 397 and organized into large nationally planned trusts. Vir- (b) 1 R-2; 1 S-3; 2 D-5.1 249. 10 364 tually all fishermen belong to cooperative farms which IIushaild, wife, two chil- dren, 2 elderly de- pendents: , the fishing industry is designed to assist. The coopera- tives receive assistance from so-called "motor-fishing sta- 2 R-2; 2 D-5; 2 i--1..... 353. 70 tions," which in fishing, play the same role as the machine- tractor stations play in agriculture. Most of the larger * It, is assumed that. difference between amount of food allotted oil ra- tions ill November 111.16 and in August. 19.16, is made up by purchasing on open market at prices prevailing 1Lore in November 19.16. of the IT-4 category meant that many people, who had formerly received more bread than they needed, no longer received such surpluses and did not trade with them on the open market. Furthermore, in Moscow "commercial" stores in the winter of 1946-47 bread became practically unavailable. The scarcity of bread on the open market and its high price encouraged speculators who bought in "commercial" stores for resale on the open market. To prevent this, bread has been sold in these stores only in combination with other foodstuffs. As the result of official wage increases in September 1946, it is estimated roughly that 500 rubles per month, exclusive of tax deductions, etc., represented the average wage in the USSR. This average wage can be compared with the figures in TABLE IX-25 which shows the marked TOTAL USSII CATCII OF MARINE MAMMALS, BY FISHING (MOUNT)S AND SPECIES, 193-1 Polar bear.......... . Whale ............... Seal ................ Walrus ............. Sea-hare............ Dolphin............ Do. polar........ Other n!alnmals...... TOTAL USSR. CATCH, IIY SPECIES AND (Metric tons) Caspian ................ Black and Azov......... Northern ............... 0W. . . ................. ar East ............... Aral ................... Balkhash ............... l l n classified ............. (52, 900 20.1, 800 5, 300 1 1, 800 11.1,700 ..... 132,200 * :Miscellaneous large fish. ** Miscellaneous small fish. 3, 100 1, 500 221, 500 Large Sinall Chastik* I('hastik 157, 800 (i0, 900 1-1,000 .1, 900 16, 300 19, 700 10, 000 45, 100 ,17, 900 48, 800 18,800 5, 600 8, 200 3, 200 3, 200 63, 300 Cas- pian 3, 200 Cod Salmons Sturgeon 93, 500 9, 200 1, 100 15, 100 -1,500 3,800 .... 7, 000 1, 4100 128, 500 200 Flatfish 700 2, 100 200 2, 000 . 1, 210 ..... , , 410 7 ..... 3,390 ..... ..... ..... ..... ..... 110 100 ..... 20 ..... , 70 70 (. . 3,390 340 550 140 160 3, 390 4, 340 11 100 9, 920 120, 950 Other Carp fish 5, -100 .... 11)5, 000 130, 700 .... 262, 700 16, 200 .... 263, 100 18, 11)00 5, 700 1 2, 600 323, 700 26, 500 13, 200 1, 600 6, 400 123, 000 1, 600 164, 400 1 2, 600 370 9 370 `) Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-24 TOTAL USSR PLANNED CATCH, BY AREAS, 1950 (According to fourth Five-Year Plan) RSFSR ................................................ 1,884,500 Ukrainian SSR ......................................... 80,000 White Russian SSR ..................................... 5, 200 Uzbek SSR ............................................ 22,500 Kazakh SSR ........................................... 97,500 Georgian SSR .......................................... 5,500 Azerbaydzhan SSR ..................................... 23,900 Lithuanian SSR ........................................ 15,000 Moldavian SSR ........................................ 1,500 Latvian SSR ........................................... 20,000 Estonian SSR .......................................... 20,000 Karelo-Finnish SSR ..................................... 15,000 Total ............................................ 2,190,600 fish-producing enterprises are under the People's Com- missariat for the Fishing Industry. Secondary enterprises are under the People's Commissariats for local industry. It is reported that 130,000 laborers and 220,000 fisher- men were engaged in fishing in 1941. The only available figures on the number of fishing enterprises in the Soviet Union are given in TABLE IX-29. Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential Num- ber Cold storage plants... Ice producing plants.. Canneries............ Fish meal and oil plants. Motor manufacturing plants. Barrel plants......... Metric tons 393 a day.. 8,000 a yr. Num- ber Metric tons 828 a day.. 23,000 a yr. Num- ber In 1935, Soviet fishing interests were reported to have 3,150 motor vessels with an aggregate of 230,000 horse- power. By the beginning of the Russo-German War this number had increased to 6,700. At that time there were about 100 trawlers. During the 1930's it appears that Soviet fishing was largely dependent upon imports from the United States and Japan (the latter for the Far East region in par- ticular) for the more advanced types of equipment, such as motorized fishing vessels, floating canneries and special types of nets. Some parts of machinery may also have been imported from Germany. Beginning roughly with the second Five-Year Plan, Soviet industry developed fa- cilities for making more efficient and modern nets, ma- chinery and vessels. From the outbreak of the Russo- German War considerable progress seems to have been made toward self-sufficiency in this respect. At the same time, official Soviet publications showed great interest in new developments in fishery technology abroad. Many of the articles published are descriptions of new machin- ery, taken from trade journals of American food and re- frigeration industries. Most of the vessels of the fishing fleet are small or average sized craft (presumably sailing vessels). Mo- tored vessels are for the most part equipped with engines of 15 to 150 horsepower. In the past, ships were built in yards belonging to the fishing industry, mainly in ac- cordance with local design and tradition. In recent years, however, ship-planning has been reorganized to keep pace with new developments in the fishing industry. Designs for new ships are now made by the Central Construction Bureau only. Standard types of ships have, in the main, been worked out for the fishing fleets of the Caspian, Azov-Black Seas and Aral Sea basins. It was planned to have standard types worked out for the North Basin by 1945. For the Caspian Sea, 32 types of craft have been proposed, including vessels for fishing, transport, and auxiliary service. It appears that winches for trawlers, seiner's nets, lift- ing machines, capstans, and similar gear which had for- merly been imported, were by the beginning of the Russo- German War supplied by Soviet plants. Production of metal floats was carried on in a factory at Odessa; me- chanical lifts for purse seines could be manufactured in a Vladivostok dock yard. A four-inch centrifugal pump, similar to the Fairbanks-Morse pump, made in a factory at Moscow, is mentioned in a Soviet article. Soviet fishermen adopted pound and purse seine nets to a large extent and Soviet workers learned to make them in the dozen years preceding the war. Before the war the Soviet net industry provided about two-thirds of the needs of the fishing industry of the USSR. Three im- portant net-making plants were probably responsible for most of this production. These are the Reshetikhinskaya plant at Zhelnino near the city of Gor'kiy on the Volga, the Astrakhan' plant, and the plant at Kasimov in Ryazan- skaya Oblast'. One other plant is the Kostroma plant, no doubt at Kostroma in Kostromskaya Oblast'. The tabulation of dockyards of the fishing industry lists shipyards available to the fishing industry for build- ing wooden boats and repairing metal ones. DOCKYARDS OF TIIE FISHING INDUSTRY, USSR, FOR BUILDING WOODEN BOATS AND REPAIRING METAL ONES (Total 18) Astrakhan' wharf in Kirova Berdyanskaya dockyard Astrakhan' metal works Tobolskaya do. Murmansk dockyard Aral do. Sosnovskaya do. Bolkhash do. Arkhangel'sk do. Strunnoskaya do. Soroskaya do. Ship repair shop in Fridribha Azov do. Engelsa Kerch' do. Diomid Sudoverf Kherson do. Sakhalin Sudoverf Klynchevskaya Sudoverf (2) Caspian Sea The Caspian Sea is the most important fishing area of European USSR. The Caspian basin includes the whole sea plus the Volga (beginning from Saratov), the Ural, Emba, Kuma, Terek, Kura, and other rivers emptying into the Caspian. Each year 200,000 to 225,000 metric tons of fish are caught in the Caspian. Of this quantity, 6517o to 70% are taken in March, April, and May; 9% to 10% in June, July, and August; 15% to 20% in September, October, and November; 4% to 5% in December, January, and February. For the spring season 45,000 men are employed; for the autumn season 12,000 men. Of these numbers, 6,000 men in the spring and 2,000 men in the autumn are brought in from other areas especially for the fishing industry. In the northern part of the Caspian Sea there is frost and ice in the winter. This is not true in the southern part. The northern third of the Sea, in a straight line from Cape Uch to Mys Tyub-Karagan, is much more im- portant than the southern two-thirds of the sea as a source of fish. In the north are located the oldest, best- Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE Page IX-25 equipped, and richest Astrakhan' fisheries, which operate chiefly in and off the mouth of the Volga. Conditions there are very favorable to fish. In the delta of the Volga are concentrated more than 200 large fishery establish- ments which account for about one-half the production of the whole Caspian basin. While the southern end of the Caspian Sea reaches a depth of more than 800 meters, much of the northern end is less than 6 meters deep. This shallow northern end, which is fed by the tremendous inflow of water from the Volga, is an exceedingly rich fishing area. The annual catch here attains about 37 hundredweight per square kilometer. The fishery operating from Astrakhan' is most produc- tive in spring and fall, particularly in the spring. Between the left bank of the Volga and the Akhtuba the fall is the most important season. In the southern part of the Caspian the best-equipped fishing industries are at the mouth of the Kura where sturgeon are caught, the better types in April. The bulk of the catch in the Caspian consists of herring, pilchard, and cisco. Pilchard fishing was begun there in 1925 in the delta of the Volga and on the coast of Daghes- tan. In 1928 it was prohibited in the delta of the Volga, but in 1940 there was a very active fishing season for pil- chard near the eastern shore of the middle Caspian. It is estimated that the potential catch of pilchard is at least 500,000 hundredweight annually. Pilchards are caught all year round, but mainly in the spring and on the western shore, incidental to herring fishing. Salting has been the only method of treating them. Some seals are also taken in the Caspian, the total quantity in 1944 being 4,300. This, however, was an ex- traordinarily good year. These were taken near the river Zhili and sent to Artema island where they were manu- factured into oil and lard. (3) Sea of Azov The Sea of Azov is connected with the Black Sea by the narrow Kerch Strait. Fishing in this region is concen- trated in the delta of the Kuban' and Don rivers. Fish go through the narrow Kerch Strait early in spring and into the Azov for spawning. They remain until autumn, then return well fed and fat to the Black Sea. The Azov is very shallow, and owing to the many rivers that empty into it, is not very saline. Nevertheless it is remarkably rich in fish. The average catch is five tons of fish per square mile of sea surface. Some 115 species of fish live in the Sea of Azov and in the lower reaches of the rivers that flow into it. Among these are marine fishes of Medi- terranean origin which migrate from the Black Sea only in the summer, permanent residents of the sea, and finally fresh-water species that inhabit the rivers and enter the sea only occasionally. Thirty-seven species are of com- mercial importance and include various sorts of sturgeon, herring, anchovy, pike-perch, carp, bream, and chub. The most valuable are those of the sturgeon family, the various herrings, carp, and bream. Every autumn fishermen from the Don and Kuban' rivers, from the Crimea and the remotest shores of the Black and Azov Seas used to make the trip to the Taman- skiy Poluostrov, where they made big catches of anchovies. Before the war tinned fish was shipped to all parts of the USSR from Temryuk, the small port at the mouth of the Kuban' river. Pound nets (that is, traps) are used in the Azov - Black Sea basin. Giant pound nets, adapted from Japanese designs, were first used in Kerch Strait in 1930. In 1944, the mouth of Kerch Strait was reported to be almost closed by nets. Mechanical net lifters are used to haul the net from the water to the fishing boats. Trailing nets are used in the main sections of the rivers Don and Kuban'. It was reported in December 1944 that the Azov fisheries industry was building a cannery, with an annual produc- tivity of 15 million cans, and also refrigerators and ship wharves. When the war began the first section of a large food combine had gone into operation at Nizhne-Dnep- rovsk. The plant was destroyed by the Germans, but the Russians report that much of the equipment has been repaired, and that the enterprise is already functioning. In 1945 the Sea of Azov had some 100 collective fisheries and 14 motor-boat stations. The catch in some years has amounted to 150,000 metric tons. Practically the whole of the fishing industry on the shore of the Sea of Azov was ruined by the Germans when they occupied the coast. All the plants were looted and burned, the fishing fleet was scuttled, and equipment was removed. According to Soviet information reorganization has taken place rapidly. (4) Black Sea In the Black Sea, fishing is concentrated along the Crimean bank and in the Dnieper-Bug estuaries. Because of the proximity to market and convenient transportation facilities, two-thirds of the catch is marketed fresh. The bulk of the catch consists of beluga, sudak, leshch, carp, and taran. Scouting planes rove over the Black Sea and Sea of Azov searching for fish and radio the location to the fishing fleet. (5) Northern seas In the White Sea, the Barents Sea, and Kara Sea, there are very productive fishing grounds. In the Barents Sea the catch per trawler is between 3,000 and 3,500 metric tons per year. The most important ports are Murmansk and Arkhangel'sk. Information on the fisheries located in these areas is very scanty. Among the more valuable species in the Barents and White Sea are plaice (Pleuro- nectes platessa), dab (Pleuronectes limanda), long rough dab (Hippoglossoides platessoides), halibut (Hippoglossus vulgaris), cod (Gadus morrhua), haddock (Gadus aegle- finus), and catfish (Anarrichas minor?). Among those taken in the Kara Sea are herring (Clupea sp.), various species of sculpins, polar cod (Boreogadus saida), eel pout (Lycodes spp.), flounders of various species, salmon, smelt (Osmerus eperlanus dentex), whitefish (Coregonus sp.), sturgeon, char (Salvelinus), stickleback (Pygosteus pungi- tius), and burbot (Lota lota). The principal Murman fishing regions are the Mur- mansk and the Finmarken Banks and Nordkin and Bear (Medvezhiy) Islands. Hopen, an island south of Spits- bergen, is also well known for its abundance of fish. The trawler fleet in the Barents Sea, returned to opera- tions after war duties, has been supplemented with new units. The Murmansk shipbuilding yard of Markomry- bprom expected to resume building new vessels in 1946. The region of the Kara Sea from the shore to a depth of 20 meters is characterized by low salinity and high tem- perature and is an extremely good feeding ground for fish. The narrow strip of sea along the shore of Novaya Zemlya has fewer fish than the other coastal areas, prob- ably owing to the fact that the water is more saline, is warmer, and the depth greater. In the Gulf of Finland, salmon (Salmo salar L) are captured in Luzhskaya Guba, Narva Laht, and Koporskaya Guba as they approach the Luga and Narva rivers for spawning. The main catches are made in May and June. Original Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-26 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential In 1933, 335.8 centners (a centner is approximately 220 pounds) of salmon and sea trout (Salmo trutta) were ob- tained in Luzhskaya Guba, 48.7 centners in Kaporskaya Guba, and 6.4 centners in the Narva Laht. In Luzhskaya Guba the great bulk of salmon migrate along the eastern shore; a few run along the western shore and the central part of the bay. In Narva Laht salmon proceed to the river Narva, passing near the northern and southern shores. In Koporskaya Guba the first indi- viduals appear at the western shore. During the winter, fishing is done under the ice of the White and Barents seas. At Murmansk is located the Polar Institute of Fishing and Oceanography. It was reestablished after the war and was to resume weather forecasting for the trawler fleet. Great multitudes of sea mammals abound in various parts of the northern seas. The drifting ice is thickly covered with seals in the winter. Airplane sealing is carried on in the White Sea with planes directing the ships. In 1936 the ice breaker Georgia Sedov, operating from Murmansk, opened the way for sealing ships which caught at least 2,000 animals. From the south, the ice breaker North Wind lead the steamer Dezhnev, with ex- perienced seal hunters from Novaya Zemlya and maritime towns of Arkhangel'skaya Oblast', to a mass of seals. About Novaya Zemlya 20,000 to 80,000 are said to be taken annually by Russians; considerably more are taken there by the Norwegians. Sharks and white grampus are hunted in the Zapolyarye. Fishermen operate from Poluostrov Kanin. An average shark weighs around 500 to 600 kilograms and a grampus two tons. These are taken for oil, meat, and skins. The shark meat is sent to the cannery at Shoina. Some of it is salted and sent to Arkhangel'sk. (6) Fresh water (a) Farm pond culture.-Fish are raised in artificial ponds in various parts of the USSR. In the Ukraine there are fish ponds aggregating in area 60,000 to 63,000 hec- tares. Before the war these produced approximately 14,- 000 metric tons of fish annually. Many of the ponds in the Ukraine were destroyed by the Germans in the war. Reconstruction is reported. In the region of Leningrad City, fish farms produced 60 metric tons of fish in 1943. There are fish farms in the Karelo-Finnish SSR. (b) Rybinsk reservoir.-This reservoir produced in 1944 over 1,000 metric tons of pike, bream, and other fresh-water species. Pike-perch from the White Sea region and Amur carp are being introduced into this large inland sea. In 1944 there were two motor-fishing stations in the Rybinsk reservoir and it was planned to establish 11 more. It was also planned to place there 41 special motor boats of seagoing type. On the shore near Perebory Pier, at the mouth of the river Yug, a shipbuilding dock was under construction in June 1944. At that time, three factories were reported under construction for the manu- facture of nets. (c) Danube.-Before the war Russian fishermen took a thousand metric tons of fish a year from the Danube. Fishing in this region was resumed in 1945 and catches shipped to Moscow, Leningrad, Kiev, and cities in the Donets Basin. Fishing on the Danube continues all year, but the best catches are obtained in spring, fall, and winter. (7) Leningrad District The main fisheries of the Leningrad District, operating in Lake Pskov and Peipus Lake, in the Gulf of Finland, in Ozero Il'men' and Ladozhskaya Ozero (Ladoga Lake) supply respectively 4717c, 27%, 13%, and 10% of the total production of commercial fish. Moreover, there are in this region 1,700 small lakes with a total area of 151, 718 hectares. The most important and valuable commercial species in the Leningrad region are : smelt, sprat, bream, sandre, gwyniad (one of the whitefishes), large vendace, and common vendace (whitefish). (8) Lithuanian SSR Lithuanian fisheries are small compared with those of other Baltic countries, and some fish always must be imported. Because of the short coast line and lack of good harbors, Klaipeda is the only good fishing port. The 1939 catch was 1,271 metric tons, with whiting the largest item. (9) Estonian SSR In Estonia there are 50 fishermen's associations. The most important fish taken are Baltic herring, lamprey, anchovy, and pike-perch. Five canneries have been re- opened in Talinn. (10) Latvian SSR Latvia has 520 kilometers of coast line on the Baltic Sea and the Gulf of Riga, and 250,000 acres of lakes and ponds, as well as several hundred kilometers of rivers. From Latvia, fishing is carried on in the Gulf of Riga and off the shore of Kurzeme. Latvians caught close to 14,000 metric tons of fish in 1938. Almost half this quantity con- sisted of Baltic herring; next in importance were cod, flounders, and burbot. It is reported that the Germans destroyed a large part of the harbor installations and fishing fleet. In December 1944 it was reported that five canneries, as well as ship-repair facilities, were operating in Riga. Salmon, lamprey, and smelt were being canned. A ship dock has been recently built at Mangali for build- ing fishing vessels. 93. WATER RESOURCES A. General Natural sources of water supply, either of surface water or ground water, or both, are plentiful in all parts of European USSR except in the extreme south and south- east. In the west-central and northern parts, the climate is humid, precipitation is distributed fairly evenly through the year, and there is a close net of perennial streams. In the northwest, lakes are very numerous. To the south and southeast precipitation gradually decreases and the severity of summer droughts increases. Near the Black Sea, in the Crimea, and in the lower Volga River region all but a few streams go dry in summer and autumn. Three small areas bordering on the Caspian Sea and Black Sea are semideserts, where the only streams are dry washes that flow for brief periods after infrequent heavy rains, and even the few lakes and most of the ground water are saline. Surface-water supply is complicated by the extensive freezing of rivers and lakes in winter. Over most of European USSR even the largest rivers are frozen for con- siderable periods each year. The periods of freezing are longest in the northeast, shortest in the southwest. The Dnestr, in the southwest, is ice bound on the average for 70 days; centrally located rivers, for 4 to 5 months; and northern rivers, for 51/2 to 7 months. Many of the smaller streams and shallow lakes, and even large rivers in the far north freeze to the bottom. Average seasonal dura- Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 Confidential RESOURCES AND TRADE tion of ice cover on streams and lakes is shown on FIGURE IX-53. Water-bearing rock formations are widely distributed, although in many places they are only partly developed by wells. In large sections of the country, moderate to abundant supplies of good water can be obtained at depths ranging from 20 to a few hundred feet. In some areas, however, little or no ground water is obtainable. All the larger cities obtain their supplies from nearby rivers or lakes and have modern purification plants and distribution systems. In some places, wells or springs are used as auxiliary sources. In the smaller towns, wells and springs are more commonly used for part or all of the municipal supply. Many small towns, however, have in- adequate municipal water systems, and some have none. As a rule, people living in suburban districts outside the areas served by the distribution system use private wells. A tabulation of the sources and other features of the water supply systems of the principal cities is given in Chapter VIII, 81. For village and farm supplies, wells, springs, and ponds are the most important sources; streams and lakes gener- ally are used on a small scale. Surface water is important in some regions, however, where ground water is scanty or very deep. Where other sources are deficient, small ponds created by earthen dams are used to store flood runoff. Although whole villages may depend on such a source, the water almost invariably is polluted. Wells are particularly nu- merous where aquifers are near the surface. The great majority of wells are dug rather than drilled. Most of them are less than 50 feet deep, have low yield, and are commonly badly polluted because of insanitary location and construction. Drilled wells are much less numerous, and are totally absent in large areas of the far north and east; they are most numerous in the more densely settled areas and in the semiarid south. Springs are preferred sources wherever they are available, as they are less liable to become polluted than wells or surface water; the ma- jority, however, yield only a few gallons per minute. B. Surface water On the basis of abundance and regimen of surface- water sources, European USSR can be divided into six regions, or zones. Surface water is very abundant in the northwest, but decreases southeastward, the extreme southeast being semidesert (FIGURE IX-53). (1) Lake region The northwestern part of the country, adjacent to the Baltic Sea and Finland, is especially well supplied with dependable surface-water resources. Lakes of all sizes are very numerous and are connected by a close network of streams, nearly all of which are perennial and have much greater constancy of flow than those in other parts of the USSR. Water levels are highest in streams and lakes during the spring thaw, but few streams have severe floods, in contrast to the lake-poor humid region that adjoins on the east and south. The lakes act as regu- lators of stream flow by absorbing flood flows so that flood crests are greatly reduced, and gradually letting out the water so that flow is sustained over periods of low precipitation. In many parts of the region, lakes occupy 201/, to more than 50'X of the land area. Lakes are some- what less numerous in an area near the Baltic Sea south of Lake Ladoga. (2) Humid region The region east and southeast of the lake region also has a humid climate and a close net of perennial streams. Original Page IX-27 Lakes, however, are neither numerous nor large; most of them are mere ponds on the marshy lowlands of a few main rivers, and they have little regulating effect on stream flow. All the streams are in flood, commonly bank-full or overflowing, during the spring thaw, which occurs in late March or early April in the south, and as late as June in the extreme northeast. On several of the northern rivers, such as the Pechora, Mezen', and Kara, the spring floods are especially severe because of ice jams. The period of lowest stream flow is in late summer but only a few of the smallest streams go dry. (3) Poles'ye (Pripet Marshes) In west-central European USSR are extensive marshes, threaded with many sluggish streams and a few small lakes. Most of the region is flooded during the spring thaw in March. The water gradually drains away during the summer, and in late summer and fall many of the marshes become dry. Organic contamination from swamp vegetation and peaty deposits gives much of the water such a foul stench and taste that it is unfit for most uses. This contamination is worst during the low-water period in late summer. (4) Transition zone This region has a somewhat drier climate than the northern regions, and the summer dry season is more pronounced; the climate becomes drier from north to south within the zone. Most of the streams are peren- nial, but some of the smaller ones go dry during late sum- mer and autumn. The proportion of perennial streams decreases southward; near the northern margin of the zone they are rarely more than 3 miles apart, but near the southern margin they are commonly 5 miles or more apart. Floods at the time of the spring thaw, in March or April, are somewhat less severe than in the humid northern regions, but commonly cause extensive inunda- tion of the valley lowlands. (5) Semiarid region In the southernmost part of the country, the precipita- tion generally is less than 20 inches a year, and the rain- fall is so scanty in summer and fall that the majority of streams go dry. Perennial streams are generally 5 to 10 miles apart near the northern margin of the zone, and decrease to as much as 20 miles apart near the south- ern margin. The high-water period is at the time of the spring thaw, in March or April, but floods are much less severe than in the northern regions, except on a few main rivers that head farther north. August and September are the months of most severe drought. (6) Semideserts Three relatively small areas in the extreme south are so dry that they are totally devoid of perennial streams. A few of the main drainage channels, heading in border- ing highlands, flow during the spring months, but the rest of them flow only for brief periods after the infrequent heavy rains. The areas have a few permanent lakes, but all are saline. In parts of the lower Volga region, tempo- rary ponds of fresh or brackish water collect in depressions after rains. C. Ground water Sources of ground water in European USSR may be divided into two main types: 1) the unconsolidated sur- ficial sediments, which are the most easily accessible, and which in part contain the most productive aquifers; and 2) the bedrock formations (including poorly consolidated sediments of great thickness), less accessible than the surficial deposits, and extremely variable in yield and Confidential Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Page IX-28 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 JANIS 40 Confidential chemical quality of ground water. The distribution of the water-bearing surficial sediments (non-water-bearing surficial sediments excluded) is shown on FIGURE IX-54; bedrock, both water-bearing and non-water-bearing, is shown in FIGURE IX-55. Permafrost and salinity are two important factors in- fluencing ground-water supply that are not entirely related to differences in rock types. In the far north, the ground is permanently frozen to great depth, thawing only at the surface in summer; in this region, much of which con- tains abundant ground water in thick sediments, special precautions must be taken in the construction and opera- tion of wells. Areas of salty or brackish ground water, some quite extensive, are scattered over much of European USSR (FIGURE IX-7). Most of the salinity, especially in the north, is caused by salt deposits in the bedrock. In the southern and regions, climate and proximity to the Black and Caspian Seas also contribute to the salinity of ground water. In the semidesert areas (FIGURE IX-53), the ground water typically contains 5,000 to 30,000 parts per million of chlorine; small amounts of fairly fresh water, however, can be obtained locally, especially in areas of dune sands, where at shallow depth a thin layer of fresher water floats on the salty water. (7) Surficial sediments The most accessible, and in places the most productive, aquifers are contained in the shallow deposits of uncon- solidated sediments that partly or completely mantle the bedrock in most parts of the country. The principal source of ground water at shallow depth is the sandy or gravelly alluvium of the river lowlands (Map Unit 1, FIG- URE IX-54). This is the most easily utilized of all the water-bearing deposits. Most of the rivers flow in wide, flat-bottomed valleys underlain by unconsolidated alluvi- um 10 to 100 feet thick, consisting of sand and gravel irregularly interstratifled with silt and clay. In most places, these deposits contain good water-bearing sands or gravels within 50 feet, in places within 20 feet, of the surface. Locally, however, they are mainly clay, and the finding of good aquifers may require considerable ex- ploratory test drilling. Of the surficial deposits that mantle the bedrock out- side the river lowlands, not all are water bearing. A large part, mostly silt and clay or, in the northern part of the country, boulder clay, yield little or no water. In places, however, these deposits contain water-bearing beds of clean sand or gravel; these water-bearing sediments are indicated as Map Unit 2 in FIGURE IX-54. Where these sandy or gravelly deposits are thin and deeply dissected by closely spaced stream valleys they yield little water, but where they are thick and only partly dissected by valleys they are important water bearers. Commonly the depth to water is somewhat greater than in the river alluvium. (2) Bedrock Large parts of European USSR are underlain by sedi- mentary bedrock formations that contain fair to good aquifers at depths between 100 and several hundred feet (Map Unit 2, FIGURE IX-55). In a few regions, however, the bedrock is mainly non-water-bearing or contains only salty water (Map Units 3 and 4), and the only source for ground water is in the overlying surficial deposits. In some other areas, the bedrock is so deeply buried be- neath poorly consolidated sediments (Map Unit 1, FIGURE IX-55) that it is not important as a source of ground water. The thick, poorly consolidated sediments that deeply bury the bedrock (Map Unit 1, FIGURE IX-55) are mostly favorable for the development of large ground-water sup- plies. Such deposits are commonly several hundred to several thousand feet thick, and are thus distinguished from the relatively thin surficial sediments that mantle most of the country. The thick sediments are mostly mixtures of clay and sand, containing irregularly distrib- uted aquifers. Many of the deeper aquifers are artesian. The sedimentary rocks (Map Units 2 and 3) mostly form great structural basins, with thick, nearly horizontal or very gently inclined strata of interbedded shales, lime- stones, and sandstones. The water-bearing beds are mostly limestone, and in places sandstone. Commonly they are interbedded with large thicknesses of shale, or dense sandstone or limestone, that yield little or no water. Many of the water-bearing beds are very extensive, some persisting for hundreds of miles. They outcrop in bands roughly parallel to the edges of the basins, and along their exposures water may be obtained from shallow wells. Where they dip beneath impervious strata they can be tapped by deep drilling. In some areas, however, the aquifers are so deeply buried beneath non-water-bearing beds (Map Unit 3) as to be beyond the reach of ordinary deep drilling. Much of the deep ground water is under artesian pressure and in places deep wells flow at the surface. However, the deep ground water commonly is strongly saline and extremely hard. Generally at depths below 2,000 feet the ground water is so mineralized as to be undrinkable. In some areas, nearly all ground water in bedrock is highly mineralized (FIGURE IX-7). This is true for areas where rocks of Permian age lie near the sur- face. In the crystalline rocks (Map Unit 4), mainly granite, schist, and gneiss, ground water is present only in small amounts, in fissures and in the zone of weathered (rotten) rock. Only rarely can supplies for large towns be ob- tained from wells, and then only by drilling large numbers of wells. Data on yields of wells in some of the representative ground-water areas of European USSR are given in FIGURE IX-8, and the areas are outlined. The percentage figures are only approximate, being based on insufficient data re- quiring much interpretation. 94. CONSTRUCTION MATERIALS A. General European USSR has an abundance of raw materials suitable for construction purposes. Timber, widely used both as construction material and fuel, is found in belts crossing the central and northern part of the region, although little or none is available on the steppes in the south, or on the tundra in the far north. Sand and gravel are widely distributed as surficial deposits. Building stone, crushed rock, and cement materials are available in almost every part of the area. Before World War II, USSR (including both European and Asiatic) had been foremost in the world's timber re- sources. Up to 1940, USSR ranked among the first ten nations in world production of hydraulic cements. It is difficult to determine the percentage of these materials actually produced by European USSR as distinguished from Asiatic USSR. The accelerated building program of the five-year plans prior to World War II created a short- age in materials that was due not to lack of raw materials but to lack of equipment and facilities (such as transpor- tation) for obtaining the materials. This situation is probably aggravated today by the great losses of equipment during the war. Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-7 SALINE GROUND WATER JANIS 40 CONFIDENTIAL EUROPEAN USSR: AREAS OF SAL INE GROUND WATER 10 15 20 25 30 35 40 45 50 55 60 65 70 7 5 A KA RA 5 0 fA p Y o-Ati B A R E N T S S E A Oh, 65 u,1 SWEDEN I 1 t 65 S 4 i WHITE SEA Arkh OV FINLAN 60 ~ 60 U LAYf ONiGA y,,( ' , ^~ ^ a 'n? ~ LAYE ~)AL ~' GAOOGA r TI GULF OF WAND Lp ~??.? C / SEA T 3o Ler ~?'d ~' \r;./' ESTONIA O Riga L A T. V 55 T Kalinin. Ivan 55 IV/ MOSCOW GERMAN (Moskva)? / ( S Ryazan' / Tula . i P L A N D Orel' ?Penza l ? Tambov 50 / Kursk. Voronezh ~?f Q ? -/ Saratov / 50 ~ L'vov / 1 f ? ` 4 t C2ECN. ~ Vinnilsa. O ? Kharkov , Dnepropetrovsk mi 6 ALL GROUND WATER BRACKISH OR SALTY Rostov n Odessa 45 q `fir,. '?"""?"?SS7e ........... 45 s SEA of R U M A N I A Azov ......................... E'3?'ie i e GROUND WATER VARIABLE IN QUALITY; ; e i 9 ?? SOME AQUIFERS SALINE .,~ alto CASPIAN SEA Statistical data prepared by the Military Geology Section, U. S. Geological Survey, BULGARIA B L A C K Department of Interior SEA ~ e ? L )1 BOUNDARIES _ USSR -?- International (1937) ? 1'Q T NWA JANIS study 40 U NWFE Th. b.,dxw. d- w ehh ,..p cb mt mmrnyy d ., 40 0 100 200 300 S 1h. U. . S. Go.?n r mr,.,aavd d.. 0om.ala dfarm Lie, .?d Lehwna rm do So.:e /Mio, Miles 0 100 200 300 K ` CASPIAN SEA ' CONFIDENTIAL 1 R A N IRAN 30 35 40 45 50 55 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 YIELDS FROM BEDROCK AQUIFERS IN SEVERAL REPRESENTATIVE GROUND-WATER AREAS Percentage of wells with capacities of the following orders 2. Eastern Black Sea Coast 3. Southern Dnepr- Donets Basin 4. Northern Dnepr- Donets Basin 5. Moscow Basin Granite, gneiss, schist, and allied rocks Tertiary sandstone and limestone aquifers Cretaceous limestone aquifers Devonian sandstone aquifers Mainly Carboniferous limestone aquifers 5,000 (very g.p.m. g p high) 500 g.p. ( 50 g. (medium high) 5 g (me .p.m dium} 0.5 g.p.m. (low) 0.05 (pra d g.p.m. ctically ry) 14 45 29 12 57 29 14 11 78 6 5 Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-8 WELL YIELDS JANIS 40 CONFIDENTIAL j BALTIC GULF OF FINLAND SEA % WNI TE SEA .Orel' J 'Penza . Tambov B A R E N T S S E A Statistical data prepared by the Military Geology Section, U. S. Geological Survey, Department of Interior BOUNDARIES USSR -?- International (1937) REPRESENTATIVE GROUND WATER AREA NOTE: SEE MAP APRON FOR EXPLANATION OF AREAS JANIS study NOTE. The boudenes sho.n - this man do noI ,gym * con=no d n ell .:.s m the bo~de.ie:.. +i: d by A. U. 5. G.- t T h. U. U.S. we_ F. not remgnizad i1, ~~wporatro~ d E:m.a, L 00 O 0) Cl ^ N ch dl ^O O t 1- W O a w H Confidential Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  0 0 oW v q ~i U O 9 y K a0 ~ b p w ti O C O N 0 .~ O O 03 q ti m q y ti 00 was p o O o a o x x x O O co 4 ? P4 N 'T.W Zr Zr a0 M 10. pp u7 N to N 0 M M M Original Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 RESOURCES AND TRADE O O o d~~ ? Cd r-1 ? 1"1 ? G '?' aQi H o ~ w . O % `nom O ~+ F O W H H H a ? a 0 0 ~' J n d' a 03 U~'.~}'.v C7 o a; r y o J rTti o J 0 .r O a~i O ~_ O o O O c? a O O O A C r" cd E ca, 'r F H o O H N O .."". Q ..~.~ ti O ..G. U v W U W U W C) ? U 9, cd U b U iy O b G p CO R'. 0.i ~"~ "o ?ei A+' i--> :7 A. d .+O-'. y .O> y Ac?~bN~ Aoo~ A"cwt Aar A~ as cQ, 18 o ?' 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Oa si, t yNll M Y\I'ICA UR: V ti A LINO vs o ~ e '`In h ~ OLA V av " yV. "Iti..: \- 46? B N akhr a. r ? , xr,d IK() V) . ,xl '- 46? ir. n x Mkh-vl~~k I.IAn,t+ O SsK. K h ~ C) . ..r ILITL I>(): MA I '()' I A-> V~ y ? M rrr ,aG Mei kr}a' - ~sy ~ r of N i~M~~ O ! u = ne.k LJ IIAN' a (Ch'Ira N ua) ~ oo AZOVSKDIE MORF - ',, C REST - y anM1Oa khE OF -a" q? ? o tSIMFERU )I '\ ? e ~,,, ? 1Prb, R c? Il,khcnl.rr+ ro II(Y,? ? .r ra .gym ' ShVnvT01'OL ? ?Irx" N 951 Halaklarv tvti Wpka ~ y1t ~ ~ ~ d B 42? L A A.rxa. C K lP 42? S E ~/ / O! sp r Mapxaaa R.4TUM` IA eO (RATIIM) ~1 KU LJ /t 6 ~ev :n EOUNDARIES l. ? Majov City -?~? Inl.rrl?tionol,1937 ?~ m ? Semndory City U. S. S. R., 1946 ? Town JANIS,~ ~(ya\~ g? ~?1 ~~ ? CONFIDENTIAL f '/~ F .~?~ \ L_.` loo _ Sao kllkee 3POeikoBBmBP 3 o-- N '? l R A N ,x.o.xx.a a ~? 54  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 DESCRIPTION OF BEDROCK Map Unit 1. WATER-BEARING POORLY CONSOLIDATED SEDIMENTS. Deposits of poorly consolidated sediments distinguished from the thin surficial sedi- ments (shown in map of ground water from surficial sediments) by their great thick- ness, 100 to several thousand feet. Fair to excellent water-bearing sands and gravels generally are present; these are lens-shaped and discontinuous, interbedded with much non-water-bearing clay and silt, and are very variable in distribution and depth. Water commonly is hard, otherwise of good chemical quality in most areas. Along seacoasts, however, and in parts of Crimea and lower Don-Volga regions, much or all ground water is intensely saline. Few wells in the very saline and far northern areas; elsewhere wells are numerous, shallow, and have small to large yield. Springs are rare except in hilly areas. Map Unit 2. WATER-BEARING SEDIMENTARY ROCKS. Interbedded hard shale, limestone, and sandstone. Generally fair to good aquifers are within 1,000 feet of surface, commonly between 100 and several hundred feet. Most aquifers are limestone, yield is small to large, ranging greatly within short distances; some sandstones give small to moderate yields. Deeper aquifers are commonly artesian, and in many areas wells of sufficient depth will flow at the surface. Strata are rela- tively persistent and in most places nearly horizontal. Water generally is hard, and in some districts some aquifers are saline. Numerous wells south of latitude 60? north have yields of a few to several hundred gallons per minute at depths ranging from 100 to more than 2,000 feet. Springs are common in many districts, but few yield more than 50 gallons per minute. Map Unit 3. NON-WATER-BEARING SEDIMENTARY ROCKS. Hard, generally impermeable sediments composed mainly of shale and dense sandstone and limestone to a depth of 1,000 feet or more, commonly underlain by water-bearing sediments at great depth. Wells are very few; practically all are deep drilled wells. Springs are rare and very small. Map Unit 4. NON-WATER-BEARING CRYSTALLINE ROCKS. Granite or schist, generally impermeable except along occasional fissures, which locally may yield small supplies. In northwest, numerous patches of sandy or gravelly surficial deposits, too small to be shown on map, will yield small supplies. In south, small yields can be obtained locally from top weathered zone, which generally is confined to uppermost 50 to 100 feet. In certain districts in the south, crystalline rocks crop out only in valleys, and in the intervening uplands they are covered by soft sandstone and gravel with several water-bearing zones; the lowest zone is continuous with the weath- ered zone in the granite. Wells are very few, except locally in overlying water-bearing sediments. Springs are rare in north, fairly common in many parts of south, but mostly small. Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A0002000106U.TRE IX-55 WATER RESOURCES : GROUND WATER FROM BEDROCK JANIS 40 22' 26 30` 34' 39 42 46 50 54" 58' 62? 66 70" 74` U -- '.t Hcui-vs . r~ itdORE (KARA EUROPEAN USSR 70 1 B A ENT S EI WATER RESOURCES: 0 GROUND WATER ' `kr ee w? ? '`? Lrrka l FROM BEDROCK Water bearing poorly consolidated 1 sediments r?Cke?".vw w 66" r r Mv` ia,s OG *? s ~. . ~2. Water bearing sedimentary rocks MR v? Non-water bearing sedimentary rocks ezr? \ .g SE \ Ni a > ? ?? \ . , R . r \ "r " ?*4. Non-water-bearing crystalline rocks l.4~Y~ M REo k ? '::: . H h ` ? . Note: P 0. :. `` x ?.:?? ;?? \\ - See map apron for description of map units. a~ ~~ ap ? ? ? ? ? Southern limit of permafrost 62" 62* , 18 22' 26' (t1ELSI C:FOR5) ??.. ?. 4 h~? ` Y ;.1 K.me P dT k 1 y :.: I?.I.li.ki ? GULFOF fINUNO ;f. ,INORAI ~ \ :::T.?.::'-?::;:, tiR r Ar ~ 5 l~ l 5 ~ u 0' ' kl L Iv r Ilk '- ~ ! a !ps{ 6k - A '~ K?fi tc NL}E I AINSK ` Irs ?q. ( Ii Y 1A :,. 11 I I k R Ijj ih`} 1 ' ~ } Krc nak \,1 k? ? - mC ((RKI) Ll )l S ~ ? wz Mae ' Yrma ,h?link x.-" f Id ~1 h s E K ha 7 K I ) ~ % y n ? [ . I k , :I , , Ik , , ( 54? `.,J ,,\{ ' `I 5 L S S ~N( "d,s S VA..t ~. 5C I VL ZU 11``R a I k, ?.If " h.: tuv.l .k T flak 111? _ M M ? , v~ nF .h ~, C ' r ? U A . . ? n ((( ? a 54? R ,,.k ~ M . vo ? 1 ?Kr, ne~.+ 1 k, Ai K C S r SA 4+L? `e NI ry I.} ". rfn C) ? ) kkln aNl l ..t N ' m r I l ? ? I,h o Ia ? R A ? T , ti. A 't.. n , '1 G i v B'?!?, -: ! _,ry1:1 v B v t -?-?~ k ' W S ? K)f4riL 5R N \ k t A { I 0' 2 AtF.\5 L Cl } _: 11 h t+k~ 1 L t R 6 l' S C( :. L 1 A 1:(}V ? : rk >~ h (1V SK lu~.m M1 S,.. v.,':e :- 1 , n R,?he v mk. A x J t,iak K 1 f k h .ham ) ~ AI'vK ' ) 50, R M I h F Etx kl S L - ,Zr L 1\V( 11 F 1 k, n .,h ( . K .r Y ~ ~) It :, 1., , eakil 1 h K k - l RyC ^,~ ,11 ~. 11 .,u . N TA. .r 1. h aluR~1 U? s1 i, .1 n .+I,v.. 1, -. GI '~ - I e L ~1 d.S., K F 4 ONC. - k Q ., K v,, ,,. 0 ~1., k k 1)1 I I( }I I l/ I Y .h .\ F K A RTF:, h P7 k SI , k VFh A(1itO lC] t2? \ i > - U I;S'L K ' Vi n ~ a , . (( O Kl \ S u~K iLl i'YF, Al INCI ~h ,. kF xl? - ~ (? IRS . I , ?sri - ?n,kq,,, - i.?~.., " ? ' ,y hO1 A Y c rv, n ,kFt , 46 rv ~? pw 9e __ ~ _` Il ,? ? ?TV a?Iv,l' a. IKO V)~ M kl 1 ~:' IkkM1.Tk F' Ell S51(. TO () h k1 1Irc>rc)i.' a eL, t - - (R- V. i ) o - 46 nE P 'I k Fl.k.'?IIAN' eov ?r"urxr k I , + fc'h,l v NouaJ _ rkl v AZOVSKOYE MORF. M. I) C REST v ro, Fo. KF OF A]OVl - 9V ? 6 / x y ~IMFE RO )[.Y 'tJf a `y,,'i~ be Rive, 1 4h h P ? r +y, Sk: \' TOI't}I " r" ??S~ N It' SSI If ~ R I kl Ivl`ki, 5 aF, 4y4 ~ '9 9 0? 42'. n~r?a. B L A C 42' E OIr uw.?A RATVMI Z uvaeW z ~ RATtIM) -., r? ?~ ~ \) } 1~ 1 \ \ KU g 30 34' 8 ~ ` VA l, lh BOUNDARIES ? Maio' city ~? In1er1 ti-1,1937 ?n? m 5,,-dart' City U. S. S. 0-1946 ~_?~f 4 Town JAMS ~( Q ' *_ ~ JJ (( ,) 38. ?" ( CONFIDENTIAL Sao rwRra ~, / ? 7 \ ~ - I R N A oo aw~r.exa i o o '0* j CO  Approved For Release 2003/05/14: CIA-RDP79-01144A00020('4OIX-57 CONSTRUCTION MATERIALS: SAND, GRAVEL, AND BOULDERS JANIS 40  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 ' SCALE 50 100 300 MILES RELIABILITY OF QUARRY DATA 10 Fair to good ? Poor Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010RE IX-58 CONSTRUCTION MATERIALS : BEDROCK QUARRIES JANIS 40 CONFIDENTIAL 22? 26' 30? 34? 38" 42 " 46" 50` 54? 58? 62? 66? 70? 74? - ovs..an +.:r.n., ? ~, Qy MORE (KARA o 70? EUROPEAN USSR P B A EN vJ.Gnna CONSTRUCTION MATERIALS: - v Y y~e 0 _ T S S A aaot v r n s,ra ?..? ~ MY, MedY^,Y'Y a ra~i .~~ u BEDROCK QUARRIES Y' 'eaa,L A ~4 + PRINCIPAL QUARRIES ? "1 0` ': .t ,"~~ _ r. an?rv ~v Nc a SN" ? I\ y, S.v > NFL \ Granite and other hard, crys- talline rocks; some traprock 1 `~ ' ?k ` r v ( ( il p ? ? ' v ueN - f 11 ?a over r a Limestone, dolomite, and marble 66 \` YSa'o ?... Quartzite and sandstone BEro(~Y~ M RE ~ ~ U4k Na.a ok Q Y ~? ' Spots indicate areas in which quarries were located (~ a VVV ?- ? ~~? )n.pp ? a? Ye9a l kh .. in 1935. Materials of good quality are most likely to G' \a ? ~ 1 - q' Ka L,,, be readily accessible in these areas 11 I,r,M1 62. 9 m ll hAR doe "' 1NV- ~I~~ma -- 18? 22? 26 i4iaal _.,F VI tl ? ~ nm VtB ~I? 1 P HELSI -ORS) T , k; ?O GULF OF IN "t Snero kt L D ? ?? ' J~~ tea. insk v I,4nt r Kem .4 E V ?` P IJivk' 58?'q Or e, au .1. ulk " Nana. P`jAJ.??e ~' Re t ? ? ?'~ B F.Z 1 I Tav ? gP f Tu ' u ^ al'a4 Jv h 5B? u ~y ) eE4 rf ? DGDA i)? V ' a Tura ..M1.? ? Ch.nn . Sa JG rhi Chux,vn t khnr v 4 ? n ~ I ~? Ta .C \'enreP,i. o a1N ? 4f M ~` 1'S A? NI TAIL IR( \'~_ ? ? (~,Im,NraJ ~ ?rN Vereah .p ? ASN K b I '~ O ~ ? S'NUl \ a Dan , 1. 1~x/^ SVERDL L:a1' 1 w 1'e nun k. ? ME SK He? b'et' R IY ' acv {R ) KO OMA Y ? 1 e ? ? k 9v C K V L i INaval ??L N.re ht. T ?31 k . O' d ka k rsho Nl,en, Gavnhe- am Sha Iv e er. hka : AL K,m ? e a ,I, IVA OV n n4h ~ Vurk, ? IZ S ? 4 rv fa e n Kaal, rul L? Na a ? ti a Ya ul ~C 'd L! INSK s ? I4'- i. k ak I kr e`"' SH nevnM1 ) ' N?.~)~40 ..~ .~ el tl ,n IAI ~a n, ~~ ~ ?I lak I lu , ?s \ Ik 'k A 5 % n'a '~G pn K I- ? ,ra v' t 14 ' ` ? ? bash ?? ',vuJea em la4hn ,im ? n KKKoea ".R/i1NS? `(U( KI [: e () ? `, xk ) : ?Zcl ?1 '~' ' li k ~r a r ?Yama ahclink ? a ~ ~ ^ W IN t IA N ' elirh (~ } 'O ZU V ' _ ^ ? ~ y luvn N' ? ?4 ? 54? K lWl YO tT A., I t ??~?~~n.a L S t I _ J1 ~" 1' \.v .vav:~? u . L v c.h ?GIr,,.4a : ~,r[ h.?in x_ .~ 1+,1 .. OF a -4 ? 0 % . ilul ,riw , 0 PE Ka. ~_ rL, ?? ,} YAZ M O 'i' K n . M1i: ? a.,S.W . ?L K / ? , Iv} ... lekan v, 1 ' UL' N S lake^ ~. Sr ira ak^ RA `_N-, I,F,m r v B?can urn Lv Ji .. .2A ~" lev S -Z k ? L ___ ? ? Ba ? n I ? uv H I IW W )RRU B u B F v RY 5 Mu .. Iru" a , 1{ ,'1~ ' ~ I e . J BB ? E~Z Y ,:I,. e?4 CHA }'EVS ? 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K rM1i V.IURV 1 m \{ t I a ~., it r~larr.k K >I rka ~ - Lv .n VI 1') cla ? FO A refa? an.4? n _~ Fr 1... ..:?w a N E F C'RL . f ~` ' ~ { ~ I chin n ~v h 1.4 ? a - enka ' V()GR SL YAh' it Y ?I1 . mk Inka? 4.xnJ v` N. m .4 K A u(e K a ~ . ~,,c [~, V hF k `~'1! .n ~ 0 -`\ - ( qa YRZ r k ?Km k ~1 ek R )I' 1 I 'I I ? M ST O rc. , KI 3Si A ~e ufrl YE ~~ ~S ALINO 46" H n N KOLA V Pe Y , , khrin e p slSursln~4orn /- ~- " R, R I.h1~va SSK I ~ C L I c L,ro v,L. T? 1 ... () K h..r r ELI T()IY)L' M OV ? N, A r faBy Ar. V, \ ~ f II ,. alien'` 'ti s ( '1 ~ { mler>...... Y Q r?~.r oara a) h~,k s fi . r sno+arruv w 4 ~y yr~v.\ HAN' u ;? as=v aaat rr rla ??4a AZOVSKOYEM .' ZlC RE T n I AM"4>I Y K f OF AZ ORF evParon ? - .+:~.. '? ? P ~ SIMFERO )I ' J ~ ?. I kh.hixar r ? qhe R~.er ? n ?ao p' SEVASTOPOL ? haa? a"T N V I. e ? m c-\ - 9 ~ o? 42' B L A C K S i, (~j{ 42" E H o /.Mnevaa, - RATUMI (RAWIMI a.eo ~j 2Nt: 30 B D ll BOUNDARIES ,{ ? Moor Cily ? 1.1 11onu41937 ? Secondary City - U. S. S. R? 1946 Town JANIS m 4 , CONFDENTAL 39 MO 900 MI1E0 G__='. .__100 ` \ ~? _ so A~ B 300NI40METEM -- N ` I R A N a2? f%50, 54'  Approved For Release 2003/05/14: CIA-RDP79-01144A000200010009-0 FIGURE IX-64 MACHINE BUILDING INDUSTRY JANIS 40 22 26 30 34' 38, 42 46` 50' 54' 58' 62' 66- 70? 74? Gt1ghgy. MORE (KARA 7D` FRI ibe.eLlY MYr Rurr4 y k., MACHINE BUILDING A s K 1 i4R ~ ? M' x INDUSTRY t ,4 ` o. e?ao. (v5 RAILROAD EQUIPMENT M1`1,,~?y - k r DGSu ~& y ; . ? ~ h AGRICULTURE EQUIPMENT ,; , , )--C 66` ZSIT27 MACHINE TOOLS a M ALL OTHERS ?`" SEA ECONOMIC REGIONS" ,&qr? M RE M, D. ? 4 I NORTH-NORTHWEST IV SOUTHEAST ? q 1 q~ f [ I F 3 II WEST VI VOLGA E 'K 7Jf t L ~~ ~c*?r III SOUTH VII CENTRAL ~ ? ,ea? 62 ? 4 INDUSTRIAL d a S VIII URALS m q 'SOVIET OFFICIAL DESIGNATIONS REGION V ? ? 4z " .rl IS IN THE CAUCASUS AREA 0 JANIS 41 62? ? `? ? , LINE OF DEEPEST GERMAN PENETRATION (1941-1942) 18` 22? 26 lilt TR. /~,E o h ?r V`? 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