APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R004400024018-6 I~OIt OI~f~1('IA1, lttil~: ONI,Y JPRS L/9779 10 ,,~une 1981 USSR Re ort p LIFE SCIENCES AGROTECHNOLC~GY AN~ FOOD RESOURCES - ~FOUO 1 /81) _ FBIS FOREIGN BROADCAST INFORMATION SERVICE FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 NOTE JPRS publications contain information primarily from foreign newspapers, periodicals and books, but also from news agency - transmissions and broadcasts. Materials from foreign-language sources are tzanslated; those from English-language sources are transcribed or reprinted, with ~he original phrasing and other characteristics retained. Headlines, editorial reports, and material enclosed in brackets (J are supplied by JPRS. Processing indicators such as [Text] or [Excerpt] in the first line of each item, or follo~:ing the last line of a brief, indicate how the original informa.tion was processc.d. Where no processing indicator is given, the infor- mation was summarized or extracted. Unfamiliar names rendered phonetically or transliterated are enclosed in parentheses. Words or names preceded by a ques- tion mark and enclosed in parentheses were not clear in the original but have been supplied as appropriate in context. Other unattributed parenthetical notes within the body of an item originate with the source. Times within items are as given by source. The contents of this publication in no way raoresent the poli- � cies, views or attitudes of the U.S. Govern;nent. COPYRIGEIT LAWS AND REGUI.ATIONS GOVERNING OWNERSHIP OF ' MATERIALS REPRODUCED HrRLIN REQUIRE THAT DISSEMT.iVATION OF THIS PUBLICATION BE RE~TRICTED FOR OFFICIAL USE O~TLY. APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-04850R000400020018-6 FOR OIFFICIAL USE UNLY JPRS L/9779 10 June 1981 , USSR REPORT ~ , _ LIFE $CIENCES - AGROTECHNdLOGY AND FOOD RESQURCES (FOUO 1/81) CONTENTS I:COI.OGICAL PROBLErfS Agrotechnical Features of Omskaya 9 Spring Wheat 1 _ POOI) PACI~AGING Iiygienic Problems Referable to rtanufacture of Pasteurized Canned Foods and rieans of Solving Them 5 - Production of Vegetables, Fruit and Products Derived From Them T'o Be Increased in 19$1 8 r00D PRODUCTION The Food Program--an Element of zhe Economic Policy of the CP:~U... 12 Chemical and Technological Description of Citrus Fruit and Olives of Afghanistan 17 - F001) S`COW~GE PROEI,~riS - Yolymers for Gas-Selective Devices Used in Storing Foodstuff~..... 21 - Pr.;~~rr crrlL~rzcs ' ~ereal Crop Selection Institute's Progress Summarized 25 . - a- [III - USSR - 21n S&T FOUO] APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R004400020018-6 FOR OFFICIAL USE UNY,Y ECOLOGICAL PROBLEMS UDC 633.11"321":631.526.32:631.'_> AGFOTECHNICAL FEATURES OF OMSKAYA 9 SPRING WHEAT Moscow SELEKTSIYA I SEMENOVODSTVO in Russian No 3, Ma.r 81 pp 27-28 [Article by Candidate of Agricultural Sciences V. M. Novikov] [Text) The O~?skaya 9 strain has a number of commercially valuable chara_r.teristics and properties: high grain yield and quality, drought resistance, and resistance - to stem rust and lodging. However if we are to realize its potentials to the fullest, we wosld need to create particular conditions for the growth and development of the plants, with a consideration for their biological features and the zone in which they are grown. The productivity of spring wheat in the south of West Siberia and in northern ; Kazakhstan depends in many ways on the sowing time and density. In order to determine the best planting time and the seed sowing norm for the new strain in this zone, special research was conducted in 1974-1979 at the "Novoural'- skoye" experimental production farm of the Siberian Scientific Research Institute of Agriculture. The experimental plot contained common chernozem soil with a moderate supply of ' mobile ~hosphorus; the concentration of useable potassium was high. _ The meteorological conditions varied in the period of plant vegetation. In 1974 there was a"Saratov"-type droL3ht (about 30 percent of the total 12? mm of precipi- tation during the vegetation period fell in July-August); in 1975 the drought per- sisted throughout the entire vegetation period (total precipitation in that same geriod was 94.4 mm); the weather in 1976-1978 was typified by a shortage of moisture in tlze first half of vegetation (conditions typical of the south of West Siberia). In 1979, more precipitation fell during the entire vegetation period than in other years-�-187.3 mm, but it was distributed extremely irregularly: There was rio rain ~ at all from 9 July to 18 August (41 days). Differences in the me'teorological conditions in the years of the experiments per- mitted a sufficiently full evaluation of the new strain in comparison with the formerly regionalized Saratovskaya 29. In 1974-1975 the yields were not very high, and differences between tne strains were insignificant. Between 1976 and 1979 - Omskaya 9 demonstra~ed a clear ad~antage: In 1976 its yield was 24.1 c/ha, it :au~ 27.9.c/ha in 1977, 28.3 c/ha ir~ 1978, and 33.3 c/ha in 1979; the yieZds exceeded 1 FOR QFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 FOR OFFiCIAL USE ON?.Y ~iic~~~~~ uf S~iratovskaya 29 in correspondi.ng years by 3.7, 3.7, 6.0, anc3 3.2 c/ha; tli~ grcatest difference--6.0 c/ha--.fell in 1978, when the first ilalf of the vegeta- _ t.ion E~e.r.iod was the driest. '1'l~e ;reater resistance of the new strain to drought in this period is associated to a certain extent with the rhythm of the plant's development: The period from :~}>routing to heading is 4 to 5 days longer for Omskaya 9 than for Saratovskaya 29, which is reflected iii the total time of vegetation as well. Umskaya 9 is a moderately late strain, and its vegetation time is the limiting factor in the choice of planting time in ~he south of West Siberia and in northern " Kazakhstan. An analysis of the dependence of the length of the plant vegetation ~~eriod ~n the planting pez~od (lasting 10 days) with a consideration for significant differences in weather conditions in the different years of the experiment demon- strat~d significant variations in the length of the period from planting to sprouting, and iii the interphasal period between sprouting and heading. In 1977, which was distinguished as a hot year, seeds planted 12 ~1ay sprouted after 9 day5, while in 1~~78, which was a cold year, sprouts appeared after 15 days; heading begar~ after 42 and 47 days respectively. 7'he auration of the period from heading to waxy ripeness did not vary from one year - to the next when early planting was involved, since maturation occurred at a rather high air temperature. The entire per.~iod of vegetation (from planting to maturation) vari~cl from 95 to 107 days in different years. Planting time had a great influence on the availabiJity of heat (the required c~uantity of effective temperatures) to the plants aiid the duration of interphasal periods: With later olanting, the period irom planting to sprouting and the period from spr_outing to heading were shorter in comparison with early planting. However the ~eriod from heading to grain maturation was longer with late planting. In 1978 it was 4 days longer in comparison with that of crops planted at the optimum time, and it was 8-9 days longer in comparison with the minimum length of this period. Vegetation proceeds for a longer period of time because maturation of wheat grain i~al~s at a temperature of 15�C. Observations showed that on the average for 3 years in which planting occurred on 21-22 N1ay, waxy ripeness of Omskaya 9 grain occurred at a sum of effective temperatures (following apgearance of sprouts) of 1,147�C. With early plantinq, plants used 84�C more of heat, while with late planting (in late May and early June), despite the longer vegetation per~od, plants used less (an average ~ of 109�C less). Maturation occurred at an insufficient quantity of effective tempera- tures, which retarded maturation and worsened grain quality. In years with early frost, Omskaya 9 grain planted late may not mature at all. Coi~sequently, influencing the intensity of crop growth processes and the swiftness of ~he organ Pormation stages, the aggregate of ineteorological factors in the end ~redetermines tlie grain yield. It was experimentally established that with early plaritiiig (11-12 May), plant bushiness is insufficient, and the heads are small, with rela~ively tine qrain; with the optimum planting time (21-22 May), bushiness is better, ancl every head produces more grain; with late planting (30 May to 2 June) tlie grain content of the heads rises, but productive bushiness and grain size de- cline (Table 1). 2 FOR OFFIF:IAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02149: CIA-RDP82-00850R000400020018-6 FOR OFF]CIAL USE ONLY Table 1. Omskaya 9 Yield Structure Depending ~n Plantir~g Time and Seed Sowing Norm (1976-1978) _ Seed Sowing Norm Plantin~g Timc (million per hectare) 2 3 4 Productive Bushiness 11-12 May 1.77 1.66 1.49 21-22 May 2.11 1.79 1.65 30 Nlay-2 Jline 1.57 1.51 1.51 Number of Grains Per Head (Units) 11-12 May 22.4 18.6 19.7 21-22 May 25.5 22.6 18.7 30 May-2 June 28.0 23.2 21.8 Weigr~t of 1,000 Grains (gm) 11-12 May 43.4 40.2 38.9 21-22 May 45.5 44,8 43.9 30 May-2 June 43.4 42.0 39.6 Table 2. Grain Yield of Omskaya 9 Wheat (c/ha) Planted on Fallow (Averages for 1976-1978) ~ Seed Planting Norms Av~rage for Average f4r (Millions per ha) Planting Times Preceding Fertilizations ~ Flanting Time 2 3 4 (HCPp,95-1.91) (HCPp,95=1,56) i Without Fertilizer ! 11-12 May 16.4 16.1 16.7 16.4 21-22 May 20.7 24.0 25.7 23.5 22.1 ; 30 May-2 June 25.6 25.7 27.6 26.3 With Phosphorus Applicat~.on, 60 kg/ha - 11-12 May 19.3 20.5 20.9 2~�2 21-22 May 26.1 28.9 28.7 27.9 26.4 30 May-2 June 29.2 30.6 33.8 31.2 The grain yield depended more on planting time than on other factors (Table 2). With early planting it was low, and with optimum planting time it was higher. The experiments permit the conclusion that it would be unsuitable to plant Omskaya 9 later than 22 May, since the grain would consequently exhibit poorer qualities. 3 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2407/42/09: CIA-RDP82-40850R000400420018-6 ~nR OFFICIAI. USE ONF.Y ~i'1~~� ~i.~t~~ i~~ T,~L;le also indi_cate that application of phosphorus fertilizer to ~ L-all~~s~; i~,~s a positiv~ influence as well: The yield increment averaged 4.3 c/ha. htorc~>vcr i.t wus more siqnificant with late planfiing ane~ with a higher seed sowir.g uc~rm--~~.2 ~/tia. PhosE>lio~us upplication produced a lesser impact with early ~lanting .iilcl,:, lower sowing norm (the yield increment was 2.9 c/ha). Tiirc~r, millian seeds pei tiectare sh~~uld be adopted as the optimum seed sowing norm Eor the new strain, when it is planted on 21-22 May. This norm should be increased - or,ly in years when the hydrothermal conditions promote longer vegetation, and when E>lantir.y is late, in which case bushiness may decrease due to overheating of the :;o i.L in this period. A comF~arisoil of responses to preceding crops and fertilization demor.strated the new strain's significant superiority ove~ Saratovskaya 29 c.ihen planted 2].-22 May at a dose of 3 million seeds per hectare. When planted on fallow, it also revealed a yr~ater resistance to lodging. Also important is tne fact that Omskaya 9 yields ,~rc pers.istently greater than those of 5aratovskaya 29, when planted as the thirG ~�ro~~ after fallow. While the advantage with fertilized fallow is 4.2 c/ha, it is - 3.5 c/ha for unfertilized stubble fields. `19ius the new strain of soft sprinq wheat, Omskaya 9, is significantly superior in yield to Saratovskaya 29 in years with hydrothe nnal conditions typical of t.he zone for whicn it is regionalized. The optimum planting time is the beginning of the last third of May, and the seed sowing norm is 3 million seeds per 1-iectare. In- ~reasing the latter to 4 million seeds per hectare would be suitable only when ~?laritirig is delayed to the end of May and when phosphorus fertilizer is applied r_o fallow. When planting occurs in late May through early June, the temperature conditions experienced by the maturing grain worsen, which increases the time of - E~lant vegetation. The new strain permits the fullest utilization of sophisticated agrotechnical procedures, which permits its classification as an intensive strain. COPYRIGHT: Izdatel'stvo "iColos", "Selektsiya i semenovodstvo", 1981 = 11004 CSO: 1840/515 ~ 4 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00854R004400020018-6 , FOR OFFICIAL LJSE ONLY FOOD PACKAGING UDC: 664.933.036.52 HYGIENZC PROBLEMS REFERABLE TO MANUFACTURE OF PASTEURIZED CANNED FOODS AND MEANS OF SOT VING TEiEM Krasnodar IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENIY: PISHCHEVAYA TEKHNOLOGIYA in Russian No 1(140),Jan-Feb 81 pp 2i-22 [Article by Yu. G. Kostenko, S. Ya. Lyubashenko, P. P, Stepanenko and T. S. Shagova, Department af Veterinary Sanitary Expert Certification and Microbiology, Moscow Technological Institute of the Meat and Dairy Industry, submitted 6 Nov 80] [~ext] Ttie scientists of the Moscaw Technological Institute of the Meat and Dairy Ind~.?stry have conducted in-depth studies on hygiene of production. They investi- gated a set of issues involved in sanitary engineering aspects of design and construction of new enterprises, specifications for raw material and ingredients, _ cans, etc. All these studies are aimed at improving hygienic conditions and reducing the possibility of penetration of microflora in products when they are j prepared. ; The design of a plant for pasteurized canning differs from plants that produce ~ canned goods that are sterilized in the ordinary way. There, the optimum approach is to construct a separate plant building with a separate service ["bytovoy"?] unit. In a specialized facility for pasteurized canned foods, the passageway for delivery of ineat from the refrigerator or receiving and unloading platform, ~ raw material accumulator, section for stripping and trimming meat, aging, pre- , paring brine (marinades], packaging raw material, storing and process~ng ingredi- ents, cantainers and stock, heat-treatment of cans, rapid cooling after pasteuri- _ zation, packing and staring the end product are separated from one another. This minimizes penetration of microorganisms into production rooms and reduces the " expense of maintaining a specific microclimate in the different departments and sections of the cannery. There are increased hygienic requirements with regard to arrangem~r_t of rooms, shops and sections. For example, the walls are tiled ~ over their entire height and the ceilings are painted with light-colored oil paint. _ Forced ventilation units must be equipped with special filters for purifying the air, using type D-33 k1 f i1tPr.s which reduce by un to 170 times the amo,~nr nf microorganisms in the air delivered into a room. However, such treatment of forced air cannot assure the proper sanitary parameters in plant rooms during - work of the personnel, since microflora penetrates through doorways, with the clothing of workers, raw material, etc. Treatment with ultraviolet ray~ (BW tyY~ ?amp), at the rate of 1 W/m3 for 1 h,reduces microorganisms in air by 65%. 5 _ FOR OFFIC[AL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-04850R040440020018-6 FOR OFFIC[AL USE ONLY t3:.~ctc�ri.c� idal lamps are turned out when workers are ahsent, before the start of the ti~c~rk period and during the lunch break. S~ecial hygienic conditions are required for preparing raw material for pasteur- izeci canned ham, while handling pork and during subsequent technological onera- tio~is in the canning sh~p. The main ob~e~tive here is to prevent contamination uf raw material by microflora and lower the microorganism content on the surface of ttie meat. Pigs are siaughtered in separate batches or on a separate shift. Aft~r exsanguinating the animals, it is mandatory to clean the skin of the car- casses in a mechanized unit with warm water (25-35�C), using brush or beater devices. This reduces bacterial contamination of the surface of carcasses by more than 70 times. To prepare pasteurized canned goods, it is best to use as - raw material pork with the skin left on, since the integument prevents penetra- tion of microflora into the de~p layers of ineat. When processing the carcasses in the sl.aughtering-dressing [cutting] shop, it is imperative to use advanced technology, for example, continuous action units for scalding the carcasses in vertical position and, before refrigeration, to treat the cut meat with hot air at 120�C for 2-2.5 min, or place the surface of the sides over the flame of a - gas burner. There are higher requirements for organizing work places, with m~indatory piping of hot and cold water to them. ~ Such hygienic requirements for shops where animals are processed result in production of pork with high sanitary parameters: no more than 10,000 micro- or~;anisms per cm2 meat surface. _ At modern canneries, prior to stripping in the raw materia]. department, the sides [cutsJ of.~r~eat are submitted to sanitary treatment in specialized units-- "meat surface sterilizPrs, Testing of operating modes for this device (treat- ment with a steam and air mixture for 50 s at 80�C, live steam, hot air for 1.5-2 min at 120�C) revealed that the best effect is achieved with hot air. This reduces by 1.5-2 times the amounts of microorganisms on the surface of the - meat sides. Ingredients (brine, gelatin) may have a strong effect on sanitary parameters of tt~e end praduct. - Brine that is injected must be sterile. Boiling or treatment in reactors for 25~-"S min at 1.20�2�C are simple and available methods of steriiization. However, these methods are extremely labor-consuming, and one can use with success ultra- filtration or Zeiss filters, which results in a savings of up to '_'6 rubles for ' sterilization per ton brine. Tt~ree-fold heat treatment with dry air for 6-7 h at 80�C yields a good efect with regard to lowering the initial microorganism content of gelatin, and this kills many species of microbes. 1'he optimum mode of sanitary treatment of tins is to de1:-~er hot water (80�C) for 11 s, then iive ste~~ f^r at least 4 s direct~q to the ins~~~ oi the c~ns, with placement thereof upside down.. ~ Use ofliot air at 160�C for 30 min elicits a good effect for treatment of lids after drv;.ng paste. In order to demonstrate tfie possible adverse effect of 6 - - - - - - - APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPR~VED F~R RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 i~UR O1~1~1('1:11. l~til~: ONI.1' sr_erilizr~tion of lids on the quality of paste, 25 tests of airti~ht sea]_in~ were conducted with the use of ether by the conventional method. As shown by the results, alI cf the tins had an airtight seal after being crimped [rolled?]. Thus, a systems approach must be used in the production of pasteurized canned f~~ods ir? order to create the appropriate hygienic conditions at all stages of production. Use of the a~proaches discussed made it possible to develop a new technolc,gy in our country with a high economic effect. COPYRIGHT: Izvestiya vysshikh uchebnykh zavedeniy Pishchevaya tekhnologiya 10, ti57 CSO: 1840/523 i i ~ I ~ i ~ 7 FOR OFFI('IA1. USF: nN1.Y APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00854R000400420018-6 FOR OFFIt'IAL USE ONLY - UDC: 664.8(47+57)"1980-!-1981" PROllUCTION OF VEGETABLES, FRUIT AND PRODUCTS DERIVED FROM THEM ~i0 BE INCREASED IN 1981 Moscow KONSERVNAY~. ? OVOS':~:rIESUSHIL'NAYA PROMYSHLENNOST' in Russian No 3, Mar 81 pp 2-3 [Article] [Text] Having deployed on a broad scale the socialist competition in honor of the 26th Party Congress, the :vorkers of enterprises in the canning, vegetable-dehydrating and f.ood concentra.ting ind~5try of the USSR Ministry of the Food Industry, ful- fi].led the production plan by 102.7% in 1980. The plan for output was overful- f.illed by 49.8 million rubles. Enterprises of the canning industry fulf illed the _ output [salcs] plan in all of the republics, with the exception of Azplodoovoshchprom (Azerbaijan Fruit and Vegetable Industry]. A toral of 7708 million standard cans of fruit and vegetables have been produced. As compared to 1975, labor productivity increased by 5.b% under the lOth Five-Year Plan. Annual mean output of canned goods (as compared to the 9th Five-Year Plan) increased by 967 million standard cans, or 14%. I'roduction of canned beets, :abbage, green tomatoes and pumpkin, as we11 as canned ve~etables with fish, was organized in order to augment the volume of output. Last year, 307 million standard cans of "Green peas" (versus 1'18 million in 1979), 250 million standard cans of "Grape juice" (235 million in 1979), 263,000 tons of f.ood concentrates, 22,000 tons of dry infant food and 14,300 tons of potato pro- ducts were produced. Tlle workers of enterprises under the ministries of the food industry of Belorussian SSR (101%), Georgian SSR (100%), Latvian SSR (102%), Kirghiz SSR (103%), Estonian - SSR (100.5%), Azplodoovoshchprom (100.4%), Glavplodvinprom [Main Administration for tlie I'ruit and Wine Industry] of Ukrainian SSR (110%) and Goskomvinprom [State Com- mittee for the Wine Industry] of the RSFSR (102`0) have fulfilled the canned food production plan. In t980, canned g~ods output increased by 488 million standard tins, of which _ 295 million are referable to new construction and remodeling and 193 million resulting from introduction of admznistrative and engineering measures. 8 - - APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPR~VED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R004400024018-6 - FOR OFFiCIAL USE ONLY The second sections have been started up in the canneries of Kamenka, Khmel'nitsk~: ~ Ob].nst (production capacity 20 million standard tins) and in Orgeyev,(Moldavian SSR (15.5 million standard tins). The production capacity of the Kutais Cannery has been increased by 19 milli~n standard cans, that of the Gardabani Cannery (Georgian SSR) by 20 million, Kamenskiy Cannery (Moldavi.an SSR) by 66.1 million standard tins, etc. A total of 28 self-contained technological lines have been installed at the car,:'~ enterprises for processing "Green peas," tomato paste, fruit juices, canned cucun~~ ~ and lines for producing metal containers. AS-550 tomato paste production lines have been started up at the Kharabalinskiy, Adyge "Order of. Red Banner of Labor," Samarkand "Hammer and Sickle," Namangan ~:nd Gazalkent canneries; lines for processing canned cucumbers, with output c apacity of 3 tons/h, have been started up at the Shakhrisyabz, Andi.zhan, Samarkand "Hammer and Sickl~," Nal'chik and other plants. _ In accordance wi.th the tasks put to workers ur,der the lOth Five-Year Plan, there was vi.rtual renewal of the assortment of canned foods for children. As compared to 1975, nroduction thereof increased by 2.3 times and reached 428 million standard tins in 1980. The variety has been broadened, the quality and packaging of pre- pared foods, as well as sanitary engineer~ng, have been improved. Tne CC CPSU, USSR Council of Ministers, AUCCTU and CC [central committee] of the Komsomol named the workers of the Pendzhikent Association (Tajik SSR) as victors - of the All-Union socialist competition to improve the effectiveness of production and quality of work, as we11 as successful fulfillment of the state plan for economic an.d social development i~i 1980, and they were awarded the challenge Red Banner of the CC CPSU, USSR Council of Ministers, AUCCTU and Komsomol CC. _ As a result of the All-Union socialist competition in the fourth quarter of 1980, the challenge Red Banner of the USSR Ministry of the Food Industry and CC of the trade-union of food industry workers was awarded to the best enterprises: Dnepropetrovsk Food Concentraf;e Combine, Belokany Cannery, Geokchay Agrarian- Industrial Association, Bende.�ry Cannery imeni M. I. Kalinin and the Gazalkent Cannery. The third prize was awarded to the workers of the Biryul'skiy Experimental Plant. At the same time, because of the inclement weatner in some parts of our cauntry and inadequate organization of procurement, there was a shortfall of 1,166,000 tons of fruit and vegetabJ_es planned to be delivered for processing and a 1,442 million shortfall of stardard canned goods. The situation was particu:iarly bad with procurement and fulfi.llment of the produc- tion plan at enterprises u~nder the ministries of the food industry of RSFSR., Ukrainian SSR, Tajik SSR, Moldplodaovoshchprom [Moldavian Fruit and Vegetable Industry] and Uzplodoovoshchvinprom jtizbek Fruit, Vegetable and Wine Industry]. Guided by the decree adopted by the July (1978) plenum of the CC CPSJ con~~erning organization of cost-accounting associations for the production and processing of potatoes and vegetables, and the instructions of L. T. Brezhnev at the October 9 FOR OFFICiAi. USE OIVLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007102/09: CIA-RDP82-04850R040440020018-6 F~OR OFFICIAL USE ONLY ( 1~)~SO) enum ot ~he CC CPSU cc~ncerning the food program ,.nd upgrading the system uE E~rc~duction management an3 processing of agricultural products, the CC CPSU and USSR Council of Ministers deemed it r_ecessary to form a Union-Republic LTSSP. :~ti ~x istry of ttie Frui~ and Vegetabie IndusLry. 7'he main tasks for the Ministry of the Fruit and Vegetable Industry were defined ~1S fO11OWS: `lo meet the needs of tne public with regard to fruit and vegetables, grapes - and potatoes ir. fresh an3 processed form. 'I'o iaipl.ement production of vegetables (particularly th~se that .axe ~ot in wide use an~i green ones), Fruit, berries, table grape varieties, sprinfi potatoes, cucurbits and other agrtcultural products in specialized s~~vkhc,zes and other agricultural enterprises under its jurisdiction. ' To implement standardized technical policies in the country with regard to production, procurement, processing, storage and sale of fruit vegetables, table grapes and potato2s. To implement raising h:igh-grade planting material and seeds of varieties of vegetabl.es, cucurbits, fruit, berries, subtropical, floral and ornamental plants ~nd grapes, high-grade potato seeds assigned to specific regions, in order to meet the demands of kolkhozes, sovkhozes, other agricultural enterprises and the public, as we11 as for export. To organize and implement state purchases of vegetables, cucurb~,ts, f ruit, berries, grapes and potatoes at kolkhozes, sovkhozes and other Sta~e agri- cultural enterprises by cuntract agreements. To develop and approve plans for distribution of vegetables, cucurbits, f.ruit, berr3es, grapes and potatoes delivered to the g~nera], Union fund - and received through import; to deliver fruit and vegetables, grapes and potatoes to the general Union fund, as we11 as to implement supervision oC fulfillment of plans for forming and using the general Union fund, - attachment of supplies and consumers, and ongo3ng [operational] shunting of resources of these products. To process vegetables,cucurbits, fruit, berries, grapes and potatoes at subordinate canning and other processing enterprises. 'To store procured and processed fruit and vegetables, grapes and potatoes, and organize containerized transportation and packaging of these products. To implement wholesale and retail trade through a specialized trade network for fruit and vegetable products, grapes and potatoes, and delivery of these products to enterprises of State and cooperative trade and public catering, administrations of working supply [worker provisions?] of ministries and - agencies, children's~ therapeutic i~nstitutions, and other consumers, as we11 _ as organization of interrepublic and interoblast transportation of fruit and vegetables~ grapes and potatoes. ~ In 1981, the enterprises must produce 9300 million standard tins of fru~.t and vegetables (1592 million, or 20.6%, more than ir~ 1980), 293,000 tons of food 10 r~~+.� ~ � ~rar. /1Ni V APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007/02109: CIA-RDP82-00850R400400020018-6 FOR OFFICIAL tiSE ONLY concentrates, 96,900 tons of food products made from cQrn and other types ~f ~r~1i~i~ - 20,000 tons of potato products, 23,600 tons of dry foo~is for children, '10,8~0 ton~: - of quick-frozen products, 17,900 tons of dehydrated [or dry] vegetables and potatoes. The output of "Tomato juice" will increase by 170 million standard tins, stewed _ fruit production wi11 increase b~ 150 mi111on, "Green peas" by 43 million and - fruit juices by 200 million standard cans. _ To provide for the planned volume of output of commercial products, it is impera- tive to procure 4,100,00U tons of vegetables, 3,000,000 tons of whi~h ~,hould b~. tomatoes, 1,586,000 tons of fruit, 16C,000 tons of grapes and 360,000 tons of potatoes. _ It is planned to start up new facilities with production c:apacity of 330 million standard tins of products, of which 163 million standard tins will be obtained as a result of introduction of management and engineering measures. As a result of expansion and remodeling, there will be an increase in output - capacity of the canneries in Ostrogozhsk (by 17 million standard cans), - Astrakhan' (by 23 million), Fergana (by 11 million), Glodyany (by 15 million) and Tartu (by 7 million standard tins). ~ In the new season for processing raw material, all the new construction projects, 'i which have been operating for a long time at 35-50% capacity, will have to be run at full capacity. I There are plans to install more than 40 automatic and mechanized self-containing lines at enterprises of this industry. As they prepared for the 26th CPSU Congress, the workers of enterprises and sov- khozes found new reserves for augmenting harvests and output, improving the ~ quality of products, and took on the obligation of increasing production and ! procurement of vegetables, fruit and grapes in the first year of the 11th Five- Year Plan. _I It is imperative to deploy, on an even broader scale, active work aimed at in- creasing in a11 ways the effectiveness of national production and quality of work, accelerating growth of labor productivity, economical consumption and optimum use of fuel, metal, raw material and materials, maximum utilization of all available resources so that there is stable operat:ion of enter.prises in the first year of the new five-year plan, on the basis of strict adherence to State and labor _ discipline, and increasing the responsibility of personnel for the job entrusted to them, as well as to fulfill and overfulfill the ~tas.ks=as s~e~,led out in the pl.an. ~ COPYRIGHT: Izdatel'stvo "Legkaya i pishchevaya promyshlennost~", "Konservnaya i ovoshchesushil'naya promyshlennost"', 1981 1C,657 CSO: 1840/522 11 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400020018-6 APPROVED FOR RELEASE: 2007102/09: CIA-RDP82-04850R040440020018-6 - r~~�rrc~o~~~. ~_~s~: FUO~ PFtUDL'CTION ~I~~1~~~ i'~'t11~! i'1'(_l(;U!-1:`~--~~N LLI:rTNT OF 'f~i1E ~~~'CONOTi~ C POLTCY OF THE CPSU 1.~~ thE~ un i t rapac� i ty of equipm~nt . Int ruclu~�~~ i�~~nl (nui,uti tiy::C.~~mti nncl Intc~nti(vc~ mc~cl~5 ~~f ~,ri,clu~�t i~,n, wlifrli w~,ulcl r~,r;u l l f n rccluc� (n}; t lir t.lmc tli~~r~c~l~ rincl I~,:~5 ~C rriw mn t~~r i:~ l. - ln~ r~~ritie c�omplexjty ~~f prnces5i.n~ and optimum uSE~