SUGAR BEET PRODUCTION - GOVERNMENT ORGANIZATION/USE OF COMMERCIAL FERTILIZERS/CHRONIC PESTS

Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A005500010024-6 - COUNTRY USSR U.S. Officials Only CONFIDENTIAL SECURITY INFORMATION CENTRAL INTELLIGENCE AGENCY INFORMATION REPORT SUBJECT Sugar Beet Production - Government Organization/Use of Commercial Fertiliners/Chronic.Pests 50X1 -HUM THIS DOCUMENT CONTAINS INFORMATION AFFECTING THE NATIONAL DEFENSE OF THE UNITED STATES, WITHIN THE MEANING OF TITLE 10. SECTIONS 705 AND 794. OF THE U.S. CODE, AS AMENDED. ITS TRANSMISSION OR REVE- LATION OF ITS CONTENTS TO OR RECEIPT BY AN UNAUTHORIZED PERSON IS PR. IS TED BY A TV REPR.D CTION OF THI R PORT - PRO SITE. THIS IS UNEVALUATED INFORMATION REPORT 50X1 -HUM DATE DSTR.LS Sep 52 NO. OF PAGES NO. OE ENCLS. SUPP. TO REPORT NO. 50X1 -HUM 1. The Ukraine, in spite of its traditional reputation for rich earth, presents many production problems for the farmer, and thus for the Soviet Government. Foremost annng such problems is a shortage of certain minerals inherent to arable soil, which, albeit found in minute quantity in the earth, are re- quisite for proper cultivation of crops. Particularly affecting the growth of the sugar beet is the necessary presence of a small trace of borate and copper. The absence of a trace of borate stunts development of the beet's maturity and turns the root black. A shortage of a small quantity of copper makes protein assimilation and sugar synthesis difficult for the beet, and leaves it an easy prey to the ravages of indigenous diseases and pests. Unfortunately for the Soviet Government, the absence of these minute traces of certain elements has plagued the development of specialized agriculture on an intensive basis in the Ukraine for decades. 2 The Government's answer to the problem was the increasing use of chemical fertilization designed not only to produce bigger yields but to improve and increase the basic mineral content of the soil. In addition, pest control through the use of insecticides was widely practiced. The Department of Chemistry at the All-Union Sugar Institute in BeIaya Tserkov was charged with; research in both fields. This department, with a total of 50 men, was divided into four sections: (a) Soil: This section conducted soil tests and ran hundreds of samples to determine the soil composi*on of the Ukraine. 50X1 -HUM DISTRIBUTION sio STATE ARMY U.S. Officials Only CONFIDENTIAL SECURITY INFORMATION NAVY AIR FBI Declassified in Part - Sanitized Copy Approved for Release 2013/02/26 : CIA-RDP80-00926A005500010024-6 Declassified in Part- Sanitized Copy Approved forRelease2013/02/26 : CIA-RDP80-00926A0055000100M1 -HUM CONFIDENTIAL SECURITY INFORMATION/US OFFICIALS ONLY - 2 - (b) Microbiology:. This section analysed the soil content for pest eggs and chronic shortages of requisite minerals. ? (e) Fertilizer: This section recommended and tested through experimentation the efficiency of commercially produced fertilizers. (d) Quality analysis: This section, which I headed, was designed to check the effect of,fertilizers on the actual yield of the crop, as well as the possible effect upon the t-)11. content. I was also responsible for reporting any adverse influences created in the soil by the extensive use of powerful insecticides. My samples were collected at random from the more than 300 sugar beet factories of the Ukraine. In 1936, the Department of Chemistry completed the first Soviet soil map of the Ukraine, incorporating the findings of each section in minute statistical data. Commercial Fertilizers EmpluEd 3. Phosphate: This mineral is widely used on the Ukrainian sugar beet, as well as on the cotton crop of the area, because of its plentiful supply, and the ease with which it is assimilated by the sugar beet. Through assimilation of phosphate, the sugar beet soor builds up its protein content. The major source of phosphate in the USSR is a gigantic deposit at Chibinogorsk, no called Apatity, near Murmansk. This deposit has been worked since:1922, but in 1934 the mineral content of the rock dropped from 36% to 12% by volume, and a flotation plant was installed at the mine in 1936. Transportation of the ins neral to the Ukraine was by ship from Fbirmansk to Odessa, Where the product, pewdered and someWhat concentrated due to the flotation process, was transported to a,nearby superphoSpate plant on Odessa's outskirts, or to the superphosphate works at Vinnitaa. At both plants, the old process of further refinement was divided into three parts: the rock crushing mill; the sulfuric acid treatment section; and the grindng mill, which reduced the treated phosphate gravel to powder. After the installatioa of the flotation plant at Apatity in 1936, the crushing and. grinding mills at the Ukrainian plants were closed, and only the sulfuric acid treatment plants remained open to treat the powder. The final treatment Of the flotation-processed phosphate yielded a superphosphate of unprecedented purity, running between 40% and 44%. The proanss was as follows: Ca3(P002 41as 112504 yields CaH(PO4), Plus CaSO4 which is dissolvable by water The troduction of this superphosphate was made far simpler by the installation of the flotation plant near Murmansk, and production quotas were raised as a re- sult. -However, in spite of these advantages, phosphate remained in short supply .in the Ukraine because the increased 'use? of the mineral taxea_ the poor transportation faCilities. 4 4. Potassium: The major supply for the Ukraine comes from a single mammoth deposit supposedly 700 feet deep and several miles square at Solikamsk on the Kama River. The potassium in. this depcsit is mixed with sodium, and several experiments were conducted in 1936 to determine whether the admixture was usuable on croPs without refining. Although the presence of NaC1 in the mixture was not as strong as first suspected, it was soon determine'd that the Product would have to be refined, to inerease its 'water solubility and ease of ? assimilation by the beet seedling. Consequently, a refinery vas erected at the deposit site, and in 1933 refining of the original prodact (01-NaC1) with la 12% content of pure potassium chloride was begun. After refining, the yield was 40% pure potassium chloride with a high degree of water solubility. When applied to test plots of Ukrainian sugar beets, this excellent fertilizer always increased the yield between 18% and 20%. 5. Ammonium Sulfate: Ammonium sulfate is available in limited quantity, but until 1936 was derived only from the coal coking process as a by-product. The white crystalline powder from the coking process, still the major source, is 20% CONFIDENTIAL SECURITY INFORMATION/US OFFICIALS ONLY Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A0055onn1 nn9LLA c-nci Jim Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A005500010024-6 .CODIFIDEETIAL SECURITY INF0RMATION/1S: 011/402TAL.1 OrriLLY 3 - nitrogen. In 1937, eztensive efforts to combin al,:lonum sulfate with nitro,:en hydroxide to economically form anronium nitrate wore nucsossful. Tho charadteristically heavy nitrogen content made this especially popular and the demand was always great. :I soon determined, that ammonituft nitrate was especially beneficial for the rapid restoration of the azobacterin content. It is also successful in revitalizilt the minute quantities of. borate and copper so necessary for effective maturity of the seedlings. . . 6. Nitrogen Fixation: Nitrogen fixation in the Soviet Union, other than from industrial coking processes, is virtually nonemistent. The great Dnepropetrovsk Dam was utilized totally for the production of electricity, and the consua.dtion of kilowatts was limited to steel factories and other "essential" or war 50X1-HUN production. The dam supplied electricity for' 'hr. steel, 011, and mine install, atione in the following cities: Krivoi Rog, 1-11,6prodzerzhinrk_lilikonol, Zaporozhe, Melitopol, Mariupol, Dmitrevsk Staliuski, Stalino, power lines from this dam were eventually extended to Rostov and Voroshilovgraa in the, East, Kharkov to the North, and the Crimea to the South. However, even after these extensions, and the increase in kilowatt output of the dam, it never supplied 'the power for a'nitrogen fixation plant, This is characteristic of Soviet inclinations to put war production first, regardlesb of the conse- quences. AsenexamPle, many villages close to the dam had no electricity. In 1936, the coking process vas'found to yield 20% ammeniumaulfate accotpApied 'by a '30% release of nitrogen 'by volume, most of ighich was wasted. The Soviet scientist-(fnu)-Bereznika 'was the first to'suacessfully and econom- icallyscombine nitrogen ,and hydrOgen into ammonium hydroxide, and then blond it with Illfuric aoid to yield.- ammonium nitric. acid, from which potassium nitrate and. sodiummltrate were recoverable for commercial fertilization. Pest Damage Heterodera'Schachti, Schm (US-Nematode): Sugar beet production.was so greatly Affected by the nematode in-1936, 1937 and 1938 that .every akperiment station set up its own nematode laboratory following instructions from the Ministry of Food. in Moscow to take drastic .action. The laboratory scientists reported through their chiefs to the'DireCtor oT the'All4Jpion Sugar Institute, who, relayed findings and corrective action reports to the 'Ministry in the Capital. When several chemical'S failed, a contact potider,'actihson the stomach of the pest, known as chloripiciui was emrployed with great success. Later, in ex- tensIvely infected fields,- a fort,of Chlorine gas was-discharged under intense preSsure into freshly plowed ground- This practice was.. successful too, but very costly. 8. Dolgonosik (US-Snout beetle) (Latin - Bothynoderes Punctiventris): This pest, prevalent' in the Dnepr Basin, is grey in color, three-quarters of an, inch long with a very sharp and efficient Proboscis. The creature destroyed a large part,of,the sugar beet crop for three years'conSecutively after. collectivization. For two years_the battle against it was out Of control, in spite of almost daily threats and-exhortationS-from the Director of the, Institute, who was under continual fire froM,Mbscow. The in-Sect, with-its, rapier-sharp nose, can, easily puncture a mature beet,. but is partial. toward attacking the young 'sprout a few weeks after the earth warms in the spring and after the seedling has sprouted. With amazing rabidity, the pest severs the root from the shoot, colpletely destroying the,plaat. The dbmage -done by one insect is large, and when. a horde attacks, the havoc wreaked is appalling. The best and most economical insecticide available to fight the beetle was Barium Chloride (Ba012), sprayed withemcellept results from a horse-drawn rig over a wide area at moderate cost to the government. It is a contact powder and. .a stomach agent'. 00,NPID3NTTAL SECURITY-INFORMATIWUS OFFICIALS ONLY, Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A005500010024-6 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A005500010024-6 CONFIDENTIAL SECURITY INFORMATION/US OFFICTALSONL1:' - - 9. Lugovoj Motyljok (US-Butterfly larva) Sugar beet webworm (Latin - Loxostege Sticticalis): The larva, in the form of a webworm? attack the sugar beet crop sporadically, depending upon the previous year's crop of fertile butter- flies, and their success at depositing eggs in the sugar beet -fields under good weather circumstances Which will assure a successful metanorphosis of t'-ie larva. Consequently, destruction is erratic, and often the larva do not attack the sugar beet so much as the wintet wheat crop, which is maturing under the snow blanket coincidental with the larva maturity cycle. In 1936 .and 1937, for example, the wheat crop, which was 90% "winter wheat," was greatly damaged by this pest. Entire -wheat plots of vast acreage were turned black and made totally useless. The sugar beet crop was not ,so drastically harned by the pest in those years. The best action against the pest is to break the ground thoroughly in the Fa13 before planting-, thus destroying the deposited eggs. Some insecticides are also effective. 10. Zemljamaja Blahs. (US-Earth flea) .(Latin Chrysonelidae Sub -family Halticini): This pest, though prevalent in the Ukraine, is not so harmful to the sugar beet as the above-mentioned ones. CONFIDIINTIAL SECURITY INF'0111ATION/IIS OFFICIALS ONLY _ A% Declassified in Part - Sanitized Copy Approved for Release 2013/02/26: CIA-RDP80-00926A00550001 no74._R