UNSOUND CRITICISM OF T. D. LYSENKO'S WORK ON SPECIES (FORMATION) BY N. V. TURBIN AND N. D. IVANOV.

Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 r Lepeshinskaia9 00 L. [Unsound criticism of T. D. Lysenko?s work on species [formation] by N. V. Turbin and N. D. Ivanov.) Bot. Zhur. (38)s386-388 .y/June 1953. 451 R923 (In Russian) Redobrokaohestvennaia kritika N. V. Turbine i N. D. Ivanova raboty T. D. Lys(nko o vide A scientific, substantiates criticism is a factor which encourages progress in science. But a criiicism with a tendency and a goal of discrediting, rightly or wrongly, a scientist, one who deservedly became a leading scientist, spiteful criticism based at best on misunderstanding of the teaching which is being criticised and at worst-- on inventing thins which do not exist in the teaching being criticised, on distortion of facts, on the aim to justify false, harmful teachings, advocated by the critics - such criticism is not scientific, it is detrimental,, There should not be a place for such criticism in our country of socialism, in a country where progressive science has the support of our party and always used to have the personal support of comrade Stalin. Reading the criticism of IfI.V. Turbin and N.D,, Ivanov of T.D. Isgsenko?s article "New in the Science of Biological Species", I remembered, because of its similarity, the criticism by the 13 Leningradians in the " Meditsinskii rabotnik"Cme-dical worker of my book "Origin of cells from a living. substance and the role of the living substance in the organism". What a striking similarity, what a likeness between Turbin&s and Ivanov's criticism and that of the 13 Leningrad morphologistsa But one should be just; these Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Trans. 451 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 13 critics honestly realized their mistake and admitted it publicly and in the press, We hope that the criticism of Lysenko?s critics will help them to realize their mistakes as it was in the case of the 13 Leningradians, And what are their mistakes? Are Academician Lysenko and the partisans of the new teaching on species really right when they maintain, that Darwin's Theory of Evolution is basically metaphysical,, denying qualitative changes in the development of the living Nature?. Are they really right, when they maintain that only the new teaching of species gives the sole correct,, dialectically - mate- rialistic solution of the problem of formation of species? Lysenko approached the problem of formation of species as a materialist- dialectician and in complete accord with 10V. Stalin, who writes: ",o. Darwin- ism rejects not only Cuvier's cataclysms,, but also the dialectically under- stood development which includes the revolution, while from the point of view of the dialectical method,, evolution and revolution,, quantitative and qualitative changes - are the two necessary forms of the same movement," 1) The critics are doubtful: is Darwinism really negating qualitative changes in the development of the living Nature? And they themselves answer this question with the words: "Yes, it is quite impossible to agree with T.D. Lysenkoes statements that Ch. Darwin's theory of evolution is basically metaphysical," But Darwin's theory of evolution recognizes only quantitative accumulation without qualitative changes. This is a sign of metaphysics. 1) LV. Stalin, Complete Works, vol, 1, p, 309. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 Where is, then,, the al difference between Darwin6s theory of evolution and T.D. Iysenko's new outlook on the species? Darwin tells in details that the appearance of new species takes place by way of gradual and consecutive quantitative increments and thus it results that there are no borderlines between species,, while T.D. Lysenko maintains that the formation of new features under the influence of changes in the surroundings,, of a new species substance from which successively a new species originates - has a leaping character. T.D. Lysenko says on the matter: "Species are links of the living Nature, they are stages of a qualitative distinctiveness,, steps in the gradual historical development of the organic world"; and further: "The Cmary cause of the appearance of some species from others, as well as the cause of the appearance of intra-species variety of forms,, is the change. in conditions of life of plants and animals,, changes of the me- tabolism type. Origin and development of new species is connected with such changes of metabolism type in the process of development of organisms,. which concern their species specification," Not at all considering I.J0 Stalin's opinion on Darwinism the critics maintain,, that Darwinism with its theory. of evolution :of formation of . species, with the theory of natural selt',tioa,, is not in contradiction. with dialectic materialism, According to the opinion of the critics "the problem of deciding which 1) T.D,-Lysenko, Mew, in the science of the biological species. In the Ciection "Philosophycal problems of contemporary biology"., 1951, p, lOG Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  m.,,e... A C1 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 0 of.the two theories on formation of species m Darwinism or the new outlook on species - reflects more adequately the process of historical development of organic forms, should be solved only by way of comparing one and the other theory with known facts characteristic for the given process." But. the facts shows that Lysenko,, who stands on correct methological positions, and develops Nichurin's teaching in practice, demonstrated the formation of new species under the influence of changes in the surroundings. In his work is demonstrated the appearance of new species from an old one (rye from wheat) and the role of the living substance in this problem. Turbin asks the question: "How, if not by the effect of selection, can be explained the development of complex forms of adjustment in the behavior of animals, of their instincts?" and he answers: "Darwinn theory of evolution,, theory of natural selection gives a more than satisfactory answer to this question, and the "New teaching on species" leaves it without any explanation" (P. 307). Let us note that Lysenko has no work "New teaching on species". He develops Michurin?s biological teaching. That is why Lysenko says that the appearance of new species is the result of influence of the surroundings and not a conscious adjustments i.e. he reveals the process of appearance of new species - a problem which was not touched by Darwin. Lysenko demonstrates these concrete conditions in changes of species and explains how the surround- ings influence the development stage., as well as the development of species, and explains why particular conditions of the surroundings are needed for each stage of development. Turbin doubts whether Lysenko's point of view reflects Michurin's outlook on formation of species and quotes Michurin9s well known excerpt; Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ~s ns, 4~ t " q e e Interference makes it possible to force each form of auiml or plent. to change more rapidly and in the direction desirable for a," But than It is Lysenko and no one also, who develops a new outlook on the proeess of formation of "ales and reveals concrate forms In &%W9 of "ties in the direction desirable for man . (his theory of phases,, V na1ieatiao winter-resistance and his last works)o i?e* he develops Michurin?s ideas of these probl ? bin writes that i?Academician T.D. aenko hirrvitAf aarativeiy recently defended and developed Darwinismo the point of view of Darwin and T1 assea And thong not only did he not see a contradiction ? with..14ichuin?e teaching., but on the contrary, admitted that the latter is a d to nt of t s~ basic m rialistic alof Darwiu?s teaching." leako actually accepted and accepts now in accordance with pronowtaiRit. Monts of the classics of Mar Lsaiaai g the basis mwleus of Dares?.e t Ohingq his theory of develop nt?' but never agreed to the theses of his `",hinge Ate. it is seen frri the pronomomente of the critics., that they take Darwin entirely, without pointing out the erroneous statements of his teachings o~o Tukbin es~ isles ubts about T.D. Imes ?s basic experiments on appearance of new species wider the ' influence of changes in the surrounding~a proclaiming that the manifestation of these new species is a result of "pew o ylenisw repollinatio ut-pouiaaationi7 i.e. he doubts the basic methods of I xko$s.works But Iysenkoe who anticipated the possibility of such argu mentaa warned that into species ?id?s possess intermediate features and are witless, and that specimens of one species appears in the offspring Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Trans, 4 52 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 of another species, have no intermediate features and are completely productive. Turbines statement that Darwinism satisfies all the requirements of the dialectical - materialistic theory of development, that characteristic for it is not only a gradual development but leaps as well -. such a state- ment is not correct and is in contradiction with comrade I.V. Stalin's opinion on this problem. All the other statements on the treatment of the theory of formation of species which Turbin brings up in the suamnary,, are incompetent,,. which was old in the text of the article. As to Turbinas statement that "there are no bases for replacing Darwines theory of evolution by the theory of natural selection, new theory of formation of species. introduced by T.D. Traenko,," - against this statement speak all the results obtained by adapt- ing of T.DQ Lysenko's theory in the practice of agriculture,, when, by changing the surroundings, th6 basic features of the organism were changed (theory of development in stages, theory of formation of species, breeding of winter-resistant plant varieties). I ,consider it my duty to give an advice to critics: to approach the evaluation of each eaching from the point of view of practice and theory of the dialectical materialism, which was not done by Turbin. It is necessary to know well the teachings of Marx, Engels, Lenin, Stalin, In criticising and rejecting what is not suitable, it is necessary to dis- tinguish and use the positive, which the critics did not do in relation to Darwin's theory, In the 36th year of the Soviet government,, it is time to renounce the Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans,, 451 ,defense of any metaphysical ideas and the attempt to justify under the pretense of criticism,, one ? s own mistakes) pseuds -scientific tendencies. As to Ivanov's criticism it is so without foundations either msthodo- logica1i or scientifically, and it is so discrediting for itself, that there Is no need to argue against it. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 Q 1) `.-'eanas. 4.52 (in full) 3y2 H~isse'nrau4c?? ~o i:~Adel n Untersuchungen 9,fber dio Einwirkung von Sulfonamiden and Sulfonen rauf Gtraideroste [Studies on the effect of sulfonamides ~~ilphones a cereal rust. 1: Influence on oa city for Tructi-lication]. Phytopathologiechd Zeitsohrift a ((, )95 0 0 April 1951 464,5 P562 (In German) I. Introduction Gassner and Hassebrauk (3), in 1936, reported on attempts to increase rust resistance by spraying various organic substances over the Boil of nursery containers 'tat 7o Of the ccnpaunds discovered which rendered the plants more or less rune without causing any externally visible injury, picric acid was the most noteworthy. Sem pio (12) reported the same. year partly successful experiments to increase rust resistance of beans and wheat.grown in nutritive solutions by means of supplemental [fee n f of metallic salts ox' alkaloids. Continuing our earlier experiments, I later on was able to identify further rust decreasing nitro-groups or sulphur containing organic substances of which the o.. and p tolvolaulphonamide proved to be especially effective (5), even though only in greenhouse experiments. These results fundamentally coin6ide with the older findings of the XGJarbeni dustrie-&.G,, which indicate that amides of aromatic Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 sulphonic acids or of their substitutes and derivatal- - a be used success- fully in the control of mast diseases of cultivated .111 rats (DRP 61.7 899 of 1931). Hart sad Allison (4) as well as 8tra.ib 43) ~m re able to confizi the rust inhibiting effect of picric acids and toluolsulpionamide by repeating the tests.. cgs ? (8) observation that an attack of T"koe~rst is o ta. on. rye can be reduced with picric acid also deserves to Is ma oned here. It is true however, that the effective dosages used in lots a. riments proved to be very wing to the test plants. In the years that follow , a fe Y more experiments became known which aid at inc ?easinj? f' i resistance in higher plants by application of chemicals. As far as inorganic salts were used in these cases, a discussion of them is being omit=ed. However, in view of our own tests, special notice should be accordei a report submitted by Polyakew (9) on the increase of rust resistance in cheat achieved by means of different chemicals .1 According to Pblyakew, t-ie most effective substances were the. ones containing thio? . or amino oup:., as well as can derivative s . The results of Polyakew a s ` xperimentsj and in accord with our oar observations inasmuch as we, too, were able to prove that of all. the substances . tested, the tolu?l. sulphoa c amides contai Ling a N 02-group produced by far the. strongest zest reducing effect. Tenon, in continuing O also PoliakoJ 'Regardless of all efforts, I have been unable thus far to obtain LPolyakova s work in the. original.. Nor can it be ascertained whether the available provisional report has_...been followed up with a more de- tailed one in the ..antaae o Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Ar ma o 102 the tests, it appeared advisable to test primarily the adequacy of sub- stances of a similar constitution even if the to1uol su phonic amides h ads, for unknown reasons, failed in the field (6,?)a and even though they exhibit the disadvantage of a relatively unfavorable ch the utie index. In considerations of this sort it was important to pay attention, principally, to substances. , known simply as sulphonie amides, which is the last two decades had attained a revolutionizing importance as cheno' therapeutanta in human medicine, after Domagk (1) succeeded, for the first time in 1932, in exerting a chemotherapeutic influence upon expsria. mental streptococcus infection in mice and rabbits with az unds containing suiphonic amides. Besides the real sulphonic amides, a few more sulphomcompounds were Included in the tests. The substances were, obligingly, made available to me largely by the different firms of the pharmaceutical industry, which is here once more gratefully acknowledged. I further am especially indebted to Professor Dr. Awe, Director of the Institute for Applied Pheanacy of the Technical University., as well as to Docent Dr. Bersch and Pharmacist I be, whose ready assistance and advice .I have enjoyed at all times. II, L4thqd o he ftingiRA nts For tessts, in generals the same method was used which had justified itself already in our earlier experiments. To begin with, all experiments 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  ? Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ; with cereal shoots were conducted in a greenhouse under no b temperatures, chief during the sumo months of 2,950. Test plants were grown in gard= soil in flower pots (height: 7 on, top-diameter: 7?5 cn). and, about six days after sprouting shoots, they were inoculated ' .th fresh uredCsporea in the usual manner. Having . been covered with glass globes for 48 hours, they ,-'ore allowed to stand free irk damp peat bog in the greenhouse. (given The substances to be tested were (Zed to the test plants., at first, a few days before the inoculation, and later on the very day of the inocu.- lation? Since sulphonamides are preponderantly little water-soluble, they ware mixed with quarts sand In order to ensnare an even distribution of the very small amounts available over the ground. Soluble substances were applied in water solutions. In several., especially emphasized cases, solu- tions in NaBC03 were applied. For reasons (5) explained above, the dosages furnished always had to cover a surface of 100 sq. cm. Appropriate control Measures were instituted to enable detection of a possible effect of gaseous separations. Most of the experiments were conducted with BM2kLa M on Michigan Amber. For reasons of comparison, with a few concentrations, e was tested for barley of Fong `ion, j. caronata for Flaaming0s Golden oats old hate, and. P.. 4URWa for Patkas winter rye. The oxperi? mental varieties displayed high susceptibility (type IV) to the rust-biotypes utilized. Iwasmuch as other varieties were being used, this is particularly hasised. 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 In compiling the -table of the exg :r ental results., I am using the name symbols as those used in the earlier publications. -Heie they are explained once more briefly e 0000 rust completely suppreaaed 0000 rust most completely suppressed, some traces of a pustule 000+ rust strongly suppressed,, isolated pustules 000k clearly visible reduction of rust, isolated pustules to slight infection 00++ still a visible reduction of mot, slight infection 00++ ER moderate reduction of rust,, slight to regular infection 04?++ 2 insignificant reduction of rust; scattered infection 0+++ o very slight reduction of rusty east total infection ++*"+ m no effect ono strong unifon infection the same as on control plants III0 b er rental Results A0 Results of spraying substances over soil of xerimental vessels The results obtained with different 'sulph?nasmidea and suiphonea in the experimental series in which the soil surface of the cultivation vessels was sprayed with the preparations according to the method just described, are compiled in table IV All e r ente with the highly susceptible varieties mentioned above were repeated several ties,; A few of the results not listed in the table are analyzed in the terto Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 Concerning the results, primarily the secondary effect of the preparations upon the growth and other aspects of appearance of the host-. plant, the following moat be stated in details 1. G9n d , ? t = p ob nzols .phonamide) The rust inhibiting effect is most noteworthy. A ratio of 25 mg. of substance per 100 sq. cm of. surface is enough to cause considerable loosening Zreduction of brown rust infection in wheat, However, the p toxic secondary effects are -likewise relatively strong- From about 5Omgo on, there can be observed in the growthc.zone of the subsequent leaves a more or less pronounced paling of the leaf green, increasing growth inhibition., and necrosis at the tips of the leavesa During the first. stages of develop- ment., shortly after sprouting shoots, the plants are very sensitive. Of the cereal varieties, oats suffers the most. 250 mg. produced in oat shoots chiorotic and necrotic damages to such an extent that the experiment could no longer be evaluated. Fre, on the contrary, proved to be very resistant, and a quantity of 250 mg. brought about only a secondary effect in the form of growth inhibitions b As colpared to toluolsaulphonsdes, the rust inhibiting effect of chemodyn is slight, since the first have, in part, suppressed rust attacks almost completely with as little as 5 mg. It is true that disproportionately stronger concentrations of Ohemodyn or prontalbin can be endured before substantial damages become appszent. Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  AdLgte b~r e7 g ueclassitiea ana Hpprovea ror Keiease 2U1 /U4/L:i : UTA-KUF'tiUKU"14LE~KU"IU"I0006UUU"I-y ~a~j-& B vvva %As*# vl4a6S WA N6(V A;LaUmA-AAM WWOOM L06 a yr a~j3 a7 iiC9ibb ?u-I V rm ~eu Text . , a r. usna t Inn tiOn CA d I- I LACGtMiW 3 Prantsilo ?s o rTolm=10 uawrim no) 5 (Rusin and ) (Eu 3n-Na ) (Continwd on 6bo ) Puccini 'Lx`i$ioin _ oo ; P. e?xann~ 2500 11 125 0 125 250 125 If 0000 f 0000 0000 1 -- 00M +,++ I . i .. I .1 +++4 11 4$++ I Ooo+ Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Tab 1o Testing of. Sulphonaidea and Sulphoneo As 'l ei R"t Inhibiting Effect an Cereal Shoots (Contdo) Attar Spr ag Over the Soil of the Expe?imentaa Vas-8e1 For exparit-nen datailaD See Text. Puce a Snfluenein Preparationt ef I?c~ee a o Qmo , 1 6 i I ! I If i. 3 i I I f i 5Q (100 1125 150 2 ft250 ; 2500 II 125 250 - ~ ~2 ~3eudr?ne~d.m ulphathi - azacle D8benal (Sulphadiaz thylpy rima1) (Nethyldebenai) (Na~4ethy1de - ) (bona, 15 Ari@tm.do a.~ (++++ ;o ?~ lb Protoe:1d0 ?o ? e Sulfaguan di (Heeulfon Buipha ni.? diem' . a a .?ba cid0 0 o 0 o LSSai.piia? d/ q~ ~9 { y 19 t t~J?.3da +hoooee -OUU-dan. o 1 ?"I~pA1 a -digtact ?siLd? veer Ann 2 j Saccha ao ?'o ;0004, -rte++ ++++ t ++++ ++++ ++++~ Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Yvan" 2e Alb - (a Acetylsulphcnn de) s The rust inhibiting efffot is about equal .to that of p-A>ia? azo1oulpho ide0 The damaging secondary' affects a generally slight; they appear chio4y in the f of inn ing chlo osis, primarily in the sons oo gee ley,, following an application of 250 mg., die- plays inffectionoff the 0 type with ablor psis in the sons off 'infoc= tiora, while Pvdth F ine entirely nc le~ Rye is again relam tive1y- robust; oats, on the contra y, is very susceptible and 125 aaag suffice to Inhibit its growthfl while 'tae da le caused by 250 mg. Is : p sa blo o Solutions of elbucld in NaHCO3 are west neutral. 7 heir rust diminishing effect is Inemased, In wheat, 56 mg- cause infection of the 0 type with very chlcxosie in the zone of infection. In point of growth,, the plants are furthered as cowpered to control plantar As vouch 5o 125 age is required to cause a slight g th inibi tiono 3. Prontoon (a 4-sulphonnide629h44i.'&minoaasccnsol ), in fisted concentrationab evinces no Met what r on susceptibility to rust, unless It be that now and t nfl it appears to have incrsseede Neither were there established as other ee ,dary effects. 4o M?ar~ (e hydrochloric acid ante of 4-A noPa ethyll nzo1= sulphonamide). Despite repeated tests, it wee not possible to clarify the effect of marffsail satisfactorily. ice the plants were completely immunised with dosages of 125 mg., yet after Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 2mn@. 451 pplicatioz of stronger dosages type IV was again observed. In a series el repetitions ,iiederholwigareihe7 this result, however, coil not be oonnfi d0 Slight chlorosee and necroses of Ise tips wOrs not surprising in view of the acidity of the substance. After (iiaeoll g warfa nil in Na2CC39 up to 12S mga no immunising effect was noted0 5. Euba Sulph a (a a-p-Aminobenzoloulphonamidob pyridine) proved to be generally ineffective in eves rect. The earn is true of eodiun mat of Eubasin? In a aeries of testa with barleys "eulphap id " produced a slight rust inhibiting effect; "Hubaein," hoever, did nnot0 Oats read to eubeein with a alight inhibition of growth and chloroeiaa but them is not slishteet ehan in its degree of t6 6? ( 4p ~ 4 ~sna?aa~ph?n .a ~bena?aaan~phondi4 rJOVI?nyla ide) 0 No effect whate ?, 70 U.irwn 0 (Q_ 4- ? begsolaulph dS7 bonsoloul. phon de) 0 No effect whatever, which Is surprising in vim of the good effect pr uced p exinoben of pho 8e NeomtJliron (? 4 4 /4" Aminobenzolaulphonatid o bennzoA- eulphon nc thylamjde)0 Without WW effect. 90 Badional (o k'Amino naolsulphothiocar aide) 0 From, 1()0 Mg, or mom. the plants suffer from increasing growth inhibition., again eats in particular0 If subjected to prolonged action, the suecepti- bility to rust seems to be rather incr easing. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 `:aw,apla. 452? No? !! )o An influence an t infection cannot be as blia+he with earteinnty - a ourpri&ing eircue?noe in view of the a o= ble effect of rbada1 and the strong i unising effect of a thyideben a1 (No. ih) 0 Tae were likewise no secondary effects to be notedo Only oats show once more increasingly an inhibition f growth-0 120 Ste. to n (s P?AmimbeYnsoloua3lp4enanidothiaaazol) o Effect o 0 1O? Marbadal (? Maifanil salt of badional) a without a doubt, has an immunizing effect on wheat if applied in larger doses. Growth inhibition :?.A relatively strong. Plants which have received 500 mg. are half the height of eontrl plants at the time experi- ments are temiPratedo A striking 4hen nonhe the frequently reefing very dark-en coloring of the original leaves, probably to be attributed to the components of oa o 11? mm! Combination of rbadal and debenel 4i ,F@ae mast le not observed. Only stronger doves cause a slight growth Inhibition ? in the case of cats from 250 M9* on? l~ a D ne1 (9 2-p-Amimbeneolaulpho ido pyrimidine) o Debe l bolonga to these sulphdnaaides which embody the c binetion of a etro71g : auniainng effect and h elan easo Wheat and barley up to thn largest dosages of 2500 and 12501 respectively, exhibited the i O Type of infection dung amorous g tao The growth cone of subaQ fluent leaves is slightly ehl?rOtie a Oats again exhibit a more or less etrang a oroeie of all leaves and inhibition of grai o Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 _ o 452 0 24. Methylpyr ila anet ldeben , and sodium-mothy3.debenal. The data concerning debena. applies essentially also to the methylated form of debenal and its mum salt. Oat d gee are even stronger. The ? negative results cited here concerning rust suppression do not indicate quite accurately the actual observations Insofar as in one experiment total rust suppression was eetabliehed onceg after appli- cation of 250 r go 9 accompanied, to be sure, by a very strong inhibition of growth and rather steng chloro ie 15. Arie t i de (? f -Sulphanilaaidoc'2, ,-di ate y'lpyri dine ) As regards an effect on the susceptibility to rust as wall &a on the habits of experia 7ita l plant ao them is no essaittia l difference from debanalo Solutions in Na ICO3 do not differ from the origiml subatancc where effart is concerned. 16. Protocid (e Plethylpyi? , + p-a ainobenzolaulpho - ethyithiodiazol) o This combination of the highly effective mathy1? pyrite. with ethy ester of the ineffeeti eleudro$n produces no effect whatever on the atate of rust or- on the appearance of to ntel plants o Not. even oats is influenced. ri- 1 'o S aag~aid sa s (~ p-Aa nobenzolsulphonyl guanidine) 0 !,fithout any effect. 18. -G1obticid ( Sulphaaethyl-thiodiazol). The moderately immunizing effect observed in wheat is accompanied by increasing chloroeis in the growth sons and by Increasing growth inhibition. Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans. 452 0 In barley and oats only the ace rWing da gee are noted. Dosages of 125 mgo dissolved in NaHCO3 do not alter the state of rust, but do promote growth. 190 Lam (a .A obenzoleu1phorno net y1 .d.-N4Ld=glueoside sualfonic acid sodium). Ladogal had a very positive i e uniaing effect and it safeguards treated plants against attacks without causing real chlorosis in the infection eons (t3 1-0 Z17). The required effective . unte are, to be sure, relatively high; total sunpprsd ,ion of rust can be a 6ted only from approximately 500 Mg, in rye total reunity was achieved only with dosages of 1250 0, this concentration, hoe av r, caused no noticeable dm ages of aaa ? kind0 This perfect i nocuousness LompatibilitJ a es up for 0 disadvantage of the relatively large amounts required, Wheat and barley show the first weak symptom of retarded growth after the use of 1250 mg0, but the crops are stiU strong and healthily green0- Oats are more susceptible here, too, and react to 250 mg0 with slight .ea tip necrosis and minor growth inhibition. 200 Baludon (s 42,4n0 diphonylaualphon-duce .le xi aiau l- phifie Sodiu) had a good rust preventive effect on P? triticins if stronger dosages were used, but its tested dosages were ineffcc- tive on other types of rust. cruse it required 1000 mg0 or more to achieves a very alight reduction in. t ae fructification of ftarf rust. Innocuousness is relatively good. In most cases it takes 1000 mg. to cause slight growth inhibitions and chiorosis of the Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 br a . 462 3ubeaquent, leaves. A mmn portion of rust reduction brought a with bcludon may possibly be attributed to the effect of iaolated gaseous riattero. 21, Tibatin (? Diga aetoside of Lgh,?dia odipherayleulphon), in the concentrations appliede influenced neither rust nor the appearance of the a rlmental pl anteb 22. Saccharin. It was to beexpected that sac g as a higher degree of oxydation of o 'Toluoleal a .de would produce nit reducing effect. The table eh that rwt suppression is indeed quite strong,, at least as far as P. triticine is concerned. However, a dosage of but 50 mg. of saccharin causes sima ltaneouely tip chlorcoeie and growth inhibition; d? ages resulting front 125 mg. are very severe and become irreparable if dosages are further increased. Infection by P. aim e~ was not reduced, -despite the damage caused to the host-plant. Reeulte of a series of a rimante with several other eulphonee re not entered on the table. They either did not affect amts or this rust reducing effect vas accompanied by aztmnaly severe d igees e?ge, in the case of the Fewa waehi tg powder. It seemed in part, e. g. n with Bail pho l and r tbrleulphonal, that gaeeoue isolations exerted a decisive influence on the rust reducing effect as well as on the aecondary toxic phenomena,, depending on the degree of temperature. 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 C 13 Trans, 452 If.we..examine the results, it must be, emphasized once more that the, findings. discussed apply only to the. experimental types cited... It:will, be.:proved..later on that in,wo;king, with other: types? we. must always-be prepared for more, or less deviating results.'?Withi.thisreserfttion,.it can be established that,. besides -a large-number of. quite ineffective substances, there are a few which exhibit . a: strong rust reducing or rust inhibiting effect ....?hey are primarily chemodyn and prontalbin, albucid, marbadal, ?debenal`and its derivatives, ladogal as Well as baludon and saccharin. While chemodyn and prontalbin, albucid, marbadal and saccharin, especially when used in large amounts, cause increasing damages to the experimental plants, debenal, methplpyri al, aristanmid, ladogal and be ludoon are entirely',liaarma If we exclude"'16a swh"i6 pioid just as siaacaptible 'as' 'in earl'ier' ez a"imerita9 'the' ph otoxic 'secondary effects produced by sulphonamides arid baludcn are generally slight, as compared with de. gee 6iused"asrl3.er 'by other organic'etibat ices. 'i'ip necrm'ase , eo g;` ihich appears readily folloling' an application of toluolsiii hcanamla~e, 'is.`cbserysd seldom and mostly to a much lesser'`degreeo V'arowth inhiitions, too, Occur normally i'ithin the -limits a `esiirance, `though it is true that a rience as to what .the aituationi 'tight 6a under prolonged experia n is still C Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 bansa , 4 lacking. The frequently observed pale coloring of the growth zone in secondary leaves is etritc o The observation that the influnae of effective sulphonemidee does not result merely In a minor or major deco of the spud of pustules, but that ofeen, if not always and not wry mmiadLyp them is to be noted a chlorotic pals coloring in the infection zone, de tee somewhat from our earlier findings. Thus, the infection type 0 is frequently found on treated leaaveea Rye inoculated with P. dip s rear exhibited in several series of a nta, under the influence of certain coneentrati ona of sodium-methyldebenal and aristomi de, which did not suppress rust, on more or less extended aroma in the infection zone of isolated leaves, -very amen, scattered, pale golden yellow uradorsori.a In addition to the normal dark brown pustules, which looked very much like P. glumma. These uredoipori had lost all their aggressiveness and have thus far refrained from further reproduc- tion. Whether here a change is taking place in the race of rusts 0 induced, probably, by sulphonamides, is subject to further tests. In vier. of the rust Inhibiting effect of .phonaa des with respect to'the different types of rust, 'tk sere evidently emits ia certain specificity, as indicated on table to tie had observed such a diverse effect already in our earlier tostw and then for d the opinion that these differences are conditioned by the various reaction of the rust varletiest and not by those of the Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans. 462 0 hoots. Such conclusion cannot be drawn from the tests finished thus far, because they were not conducted with different types of 0 rusts on the sale variety of hoot. Since, in addition, the host varieties used, especially oats, exhibited quite different degrees of susceptibility to sulphonamides, the question in the given case must be left openo To gain the first insight as to whether differences in the, effect of sulphonamides or suiphones are due to the blot s of rate used up to noww or to the use of a host variety of the s type, corresponding investigations were conducted, which, however, require further study. Testing of effective concentrations of preparations No, 1, 2, 13, 141, 15 and 19 for Michigan Amber 5-heat variety, inoculated with another strain of P. tri, which also causes infection of type IV in control plantsv led to a total suppression of frorctifi cation in all cases concerned, which was in accord with obaetiona made during the main crinte. There were, however, deviations following the application of baludon. For the a Ling deg of rust, 2550 mg. proved totally ineffective. Therefore, the question of the effect of approved substances on different bloty s of rusts requires further study. ace The results of a variota. erint with P. triticina compiled on table 2. A different tem was used for the c pil,a? Lion of these results, since the varieties tested included not Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 a. 452 only those of high sueas eptfbi1ityg but also varieties with resistant types of Infection. Thin tis 9 besides the type of infection and lsss for orroeis, necrosis and degree of fnWtificationnp the table shows also the length of secondary leaves as an Impost external s pto u of the effect of sulphonamides or =Lph se. S1lphonu.case utilized were ladoge 1. (625 1O sq. am.) and sodium- (l25 mg./100 see ci ) dieolved in water, and albucid e (50 m g./100 eqo : c ) divadlyad in N G030 The water soluble was asUcted fro s phones at the rate of 250 mg./11,00 eq. ca. Of each e r atal vaAaty at least 20 plants were tested in each series. The results of those varietal ex s entss are noteworthy in MCUW respects. If we c ider, first. of all the affect of the preparations on rust infection on the first five varieties which exhibit high susceptibility to the bpiat us ada thee, on tho whole1 the experiences gained earlier with Michigan Amber as the main ax~nrlwntal variety are con i d0 Ueu, ally a total eu prea? @ion of the spread of pustules is brought about. 0 ionally chlorbaie occurs In the Infection zone (type 0 (7) to a limited extent. The difference between a very scattered pustule spread or develop nt of isolated- pustules (type IV m and IV ) and com- plete immnity (i or O)9 observed after the application of 250 Egofl are not sign- fica tg but In view of the consistent results,, they inevitable seer, to be certai n for all a ri ntal plants o According to this, Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ymna. 17 the extent of t s pprescton in these a useeptible vrietba aught to depend, a 13 ite?' co tnta On the host vita used at the t o In the last thzw ietias listed an the tfablq,, have faizr11. strong reoiit n an ut aed e t 1 tnt . ' Here,, th tented o stings pa e d a auxpri ingly di me . affect. While 1.a ga1 hw o t o rlappsessem any f?oation of t .eap a odi a' 1 is In one wwa Pines 'p~ncan inoffeetivel, and a lbueid quivwAly inCM236 lit the Oaa3ceptiiility of t r mused by,ndan in one a likelihood. frua 'ieation in reducadt but,, a-me to ? t abseniig of noc do and atr gor iw tic ckmn oo,a the typo of Infactim must to of t &a III. In y of the nn etion ? a u e pmr d to exist bat we too pto and t&o of raaaistonoo the than a3 in clAo join ? ad crosio the t a riaaistwt varieties am of pe> ti ar in auto g ns they are m o loss oddoad or thoy dinp r Only la do a l effoota ii fo Ala oolo1y tho p ontion of frog ti== fioati n , wit out i nfro~ noinng the chloraa ig and eapoo ly, t no neemaia in this Taariety. A goo thOl oappoity of @ndrlt' .n.ee: in ralation to tooted praparationa "ra no d Ubt ?: t important riot . diffe ne dm m o p-Mct vm le ri u pro d to be es aia1y o ? ceptible is Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 TabIgM gfcct of aovi1 Sulphonamides and o sselphonc an Puccirli& tr3$icittc in different het vari?tics (Fors c ntai det`? ?? 17ext I~~q 33~~ a i Abncial 1udan IV A I l ? i-o(;)J ?)8; ice( 1bV UhRoat I Tr. snag ?>t s lffi a 3 am Ch1o o jae o Nagai 099 1 A(;)l 008 1 1 1 O.99 ODD ?(;) No Ponta 11 spreads Isolated pn tu1ca, ? and m co apanding inta diitc staged woction Type and G th Le aange *achat (Contioi -- 1) F?oa~ ~tiosn 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 yU-CUU6~ 452 ?18 In isolated variat:Umsp t preparations best endured in the ai d offecti, do ges an 1do and baluda which coincides with the experiences gained earlier with Michigan fro B. Resx1ts Obtained E&LA g Sus sign of Inoculated Plante In, o uti SiUmew to be Toss - 0 Ewer a rlmnt striving to find a plausible encplnt n for the sit reducing effect of rural vu phmwddes t be inituateds first of a11g an to precondition that no ?seential clanp takes place men the eausal agent enters the % of Infection. 7hora-la nothing tic cteda if we furnish the plants organic substances via the soil In which they pmbably are a bject to diverse w con tralable de ppsition A TL7 or ? election pr?eeseeeo I, therefore, in testing e'er =tar eo1 ble su ph des and baludon as to their t raducin effect, the process which he already used succesaA .ly when we had to prom that Viral, salts and other elm me were absorbed via the leaf surface (2s 3). In aaco nae with the nthod described else ere, the inoculated cereals, , how after . to sprouting of Wow ia, were s ded for five asecutirie nights with the surface parts in solutions of the enbetances to be testodo Henceforth they stood unprotected in damp peat in the greenhouse without further treat nto Michigan bera serving an experimntal variety, was inoculated with a biota of P. trite which under 'norms condition causes the highest degree (type IV) of Infection. The results of this e ri nt are compiled an table 3 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 yrsa@ fl 452 ci90 Table 2 noc tcd i?~~c a~?aa~ ~ ~~~ ~f c On- ffi g? tioxA t s 19 ?o p an : UgM i~i~~ 195?0 ~ tion Of sc ut: An wt i9? 195?? Comwntmtlm of ri Mint a 5%M. (For fwlhar n d e t i l s g See Taxto) 0 the ts@ d mdpbwwzM@@z, having leaf surffficon also effected t o t a l sipprowLan of the spud of pustules. Wev therefores may &= att they _ tWo d aaii a n d h f e d to the ged also by. the roots via - the i?avea? It :La wtaworuw t stiii capabis of atms tbw am , t iehibitim own if they appiid awe 30 howe following the ime on. Baffin failed, In test sing tMe method. This rAy be so for vwlous m d At time. It is posolble that the efo ntioood partIsIly prozent effect of paeow lo?iatima Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 xrMUM. 452 ' 20 is pa apu nderant, In whlg& can it no lamer in, capable of amrtlng an i a e;? after the inoculation has been ac plished. At another t1 w,, it hge to be emsidered whether the application of baludon via the Boil dose not c awe a splitting off of ito effecm tip ca ponenteD Bch dose not occur in aqueous e?lut ? Laad?ge1 paced no second effects in thie e rlwnt: the e rlwntal plants exhibited a rather better dava1opwnt than the control o e The auspumian In sodium mthyldebaml produced as even chi o ?tic p le (E ooi?r0 suspension In p binm a 1 am. large necroeja on leaf tips. .udonj, aLvil@r to ladaga1e rather furthered the deuel?p nt e1i&tly. C. Ree ee oh Ccnearni the Importance of Bead Troatwnt With Traub (ib), follow the treatment of the wed of F'hassola with sulphonamide a?lationam observed in the plant resulting fram them strong wrphological changes which am attribm uted to pc1yploidy. Even t ouugha as it will have to be debuted later on,, the rust inhibiting effect of euap a idee couuld9 P y, hardly be affected by the dividi an iee of the cytoblasts, the aecertainont of such deep-eat demotions denndg that the gvaetion bee d as to Whether P ing of the seed in eUlphona dO eoluti a **ad not possibly effect a c e in the rest eietance of the shoots. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 is For the clarification of this gmstions Michigan Amber whaat was r ?d"in solutions of ladogala vmqde q p .bin and h and i 9 o ? cloak a ntil 18 ?a cock in tsmperat g) and were i diately after placed for g d aUDn in Petri dishes on filter pepar Moistened with tap water. The eogn trations of the solutions consisted of: 5 s 2a5%o 1?25 and 0,,6%o. I n 48 hours an grain. had g?r steed 100%, Wvolapwnt of its and shots was edht kited by the stra r ladagal onontration, but not by t e kr so f. a produced alto- gather a little severer Inhibition of d l p ant- Presoaking in sodiw t 1debenal and pr talbin deterred shoots and nests In the fir t stages of develop at The greatest to ge WW Incurred by tote- mots edam evente al]' died off when their base d to a glassy ham, cued Pat her wer k :Concentration. At the ixpiratim of at r 48 h a all plate ated with laddgal, and pests prat itsd with the tm weakest c noe t ?f .haludon were stuck 5pikiertJ Ira the ground ardg after the expira- tion of another 48 hours, they were Inoculated for P. trit m The Infection An each ewe eie ar to that ? fow d in control plat presoaked i water only. Thew preliminary treat net of seed with a sulphonamide ors phon solution exerts no influence sever on the degree of resat in the a beeq t shoots. However 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001 _9 4M)R Q22m the de clop nt of the p is from the a i1 t el series with 1,,25%o and O 6%o of dal o hibited a def .t a Snea as cam- pared with eomt plants. The .e&noot o from other r x to sertea could zot be stuck In the gramd b?asa a as stated mbomr their dvaioymnt asawd e=pleto2 r the plaits pretreated with 205%o Wandom hap fte' 14 der developed In Isolated are" brownish green perry leaaaves$ a few t tens long but Very thicke while pvw% of the roots wae mat a IbIted0 The Vpeamncav especially that of t h e r o o t e r did not rovml polypboi his ism ouch as %lb had obe d In IV. ftuftation Of the Ram In the g Invaetigat nem In paaaartts a falAy sung zit InhibitIng e f f o o t o f amral a9 ,ph. dd9ae Meat y eat l d =WAP'tha ealeat od a tel eondit o But a whole "rise o f gueati c o u l d not yet be clarified or not a i- fled aae etj ly. I n e m r 1 S a , e r e r nts, sagD the t of cola In which the w a nt , date were planted was of conoid? e le n portmas for the degree of tort ibit o It in entirely possible that this factor aa? exec a decisive inflwnee on the proeeseee of the a t cee concernedo This at uept$on in juotif ed by the ma It of a fairly , a ,noiwe experimental earias Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 as, 0 23 av unable at the tila a the a pt was being finished; in these experiments the plants weie eri nea ly planted in a gam-plot permeated with humus e=pwants Instead of in the gam toil oared herstooforem Plante ta'aaated with as r etaanid and laa a l In dosages designated by experience as opt$n1ly effective e)ibitad a ant roduastion so sins ignifioe t or uneven -t act the experimuto which w e e to so ec .proof of rubs taneea with an aantiaulphon de effect, could not be a vated. Other open gueet a an the ImparUnco of tt raat , of the age of e r nte3 plants, and of the fInflumce of natural conditime of eravira nta The inadequately oleri.filed dopedance of t i ibiitiiaa c on the bid. types and host variett ran uead aat that time must also be tested extenaivelyo And fi; y, iit is most important to n stIffats how long and to t deg thO affect of Oulphonaaaaide an-rMt and' on plant, davalo nt lntaa Th references made 'to these li itetiona do not Omp the Important finding t rat a nurser at as .pha .des randar, careaall shots more or less i r as a to rust. Pa tna opti min n, misled, by the great therapeutic euoaeea achieved with aaulpho raids in hen aaadiciltnae mIght aiTact from them crew to future gal ne for the . pa do of a aag alt ?a We had, harm aver,, pointed out emphatically In our earlier reeearch that from obaeratiions ouch as tbase, gained frame shoote under greenhcuae conditioner no Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans a 452 conclusions whatever mfr be drawn as to a possible practical utilization of the i sizing substances. Just how justified i reticent attitude was, van peed by the field experiments candubtod by ie at the tip, a aic1 ended in a complete failure of the toiudl- s tested at the greenhau@@ (6m r7)o Yet, tr n another point of v1swq the results of the experim me are of incased. interest? In ou ? fiet inTestigatione (Gaeener and Raseeb uk 3) we were at a did van e, because could test organic @aabetencee as to their rust inhibiting effect way ply empiric .lyo The isolated successes which we had to record eluded 2 any causative consideration. In the An stigatiorne (5) which I 0 conducted later onp it at least was poeeibles on the basis of ilable experiences, to select the euheteneee to be tested. But even f the effective erabetences. fowid beret nothing could be said concerning the me nniera of the ra?et inhibiting effect. only me conclusion is mid for all the earlier as well as the present investigations, to wits that the pr t i, of the fructification cannot be a aired px itivoly by t ge card to the host plant. There is no relation between the extent of the ftwgaa and the suppression of ram to traib (13) tries to explain the rapt inhibiting effect of picric acid simply by its acid nature. Such an explanation is so obviously misleading that there is no we in taking a more closely defined position in regard to it. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 .._-~ X494 If we, now again, were to bring up the question of how the described rust suppression, achieved by mane of a number of sulphc rt des, is to be explained, we new, in contrast to the unsatisfactory situation in our earlier research,, could lean on a wealth of material containing import knowledge as to the far-reaching @oneietant interference of a lphonamidee in the sub- atince utilisation ,lstoffhhauehalt7 of organs ? In canneoti n with the d right revolutionary role which sulph dee e farsod in hams mdicine, the chemi effect has been Investigated by numerous authors. The regulars- ties revealed were surprising and they have had a fruitful effect In the sphere of growth oubatanca research, Equipped with the knowledge or experience gained heretofore in eulphonn aside research,, it is not only poeeible to otudy ere closely the question pertaining to the mechanism of the rot inhibiting effect of several sulphonamides observed by ua buts beyond iee there is hope that perha by this ani come insight will be gated into the process of wtaboli in obligate parasites which heratofcre has been l y hidden from uaQ Todays there can no longer be any doubt thet, at llaat to a c iderable entente the inhibiting effect which oulphonamidee have on zarW mic rganiea is due to the displacement of the 0 atructur .y similar, vital p-a-- tobenaoic acids from which are derived other important .-pieta Ze'emvunds s ammg gees, the Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9.46?0 462 0 -26- important folic acid 50'1@4urt 7 (ties Rudcl n 10).. According to thies there exists a p nou aced an ganni n between sulphonamides and p-amin?ben oic acid which was pproved in n oue investiga- tions to be present also in higher objects. Since the finda- nnen l features of vitamin and antivitmnin study exMit, an extended consistency with ra of to plant organism (see Schopfer and A r 11)v t esi a has to be amai, red to whether t the at inhibiting action of vasulphcne dee i- feats itself through its obstruction of the p- ?benacic go $ in which case it would have tabs eupposed that p? obe acid is a growth substance evacmU&I to the development of urdini (redinee7a The first results of the experiwntaa series Initiated for the Clarification of this question, at least.. do not seen to contradict this asomption. Following the ta tion of the inestigationem they will be digcussed in cony notion with an exhaustive ev l atio n of the whole Intricate .question In a future report. The question ariving fry considera- tions of this sorry, as to whether p? obenaoic acid or Its. de i tive@ of a hi ner plea cold, poeibly, be responsible for the oblIgate p sit. m of the uredinnie which, p c ly Are unqu ified for their "ntbesis, was also being The objection rained to a genes evaluation of the eulphon- idesa which -vs. tested in connection with the rwt problem,, on Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 = 27 the grounds that by no mans all of them had produced it innhibitionD although their chemotherapeutic capacity in hum n medicine had, like- wise, excelled more or lave, is not valid, because, as regards its (approval (adrdesibility, it proceeds from dissimilar preconditions. Diff r nee. in peability, dissolving ratio, root isolations, absorption pr eeeees in the soil as well as in chalcedony, srrnd may other physical as well as chemical =known factors here perform a role that, at fist, is entirely Invisible. V. risig the Results 1a A numher oo eulphona .des road sulphones used in human or ter. ry edioirae were tested. as to their rant inhibiting effect tions had no Influence over the fructification of a tsD several others reduced ruat to a greater or Issuer extent. 20 In a highly susceptible whmt variety P. tritri infect was totally euppreased by the fol substances abeo d through the roots a (1) p -aminobennolsaalpho id ; (2) sea t'laulphsnila mid.; (3) marbadal; (4) eaccharin;(5) 24pc bonsolsulpho doap aidine on cerea under greenhouse conditions. While son annd its mothylieed derivatives; (6) p-aminobcnsolaulpho lamide N 'd-glucooide aulphcnic acid aodiumD as call as (7) k deiin?di? ph?nnyloulphonebdiascetaldebydbioulphitepaodiumo The phytotoxic aecondary effects produced by fairly large -dosages of the firat throe 0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 9 U -4,6 0 ' 28 0 0 sulphonamides relatively big, those produced by saccharin considerable. The on produced by the last the aubstamces are slight. While the first six preparations unequivocally exert their i 1uc ce fonowing their absorpt n through the roateg) In the case of ' preparation No. 7 a e ?ndarg' affect of gaceous ieo1 Lions is not excluded. 3 Total rat ?aapp .ion achieved also in a is with Pa tritialm if the loaves were jaded for five nightm following the imculat In ?f'55o uti one of p~-~oben ?lsu~.p on dem 6-c phanil idoa2n4?df th :L d and p=er bensolou3Lpb?no tlWl d-N4-d-gla side sulphanie acid ebdie 1? %is tested subst? ces exhibited preponderantly the saw mast iting effect against another biota of P. triticins. As regards effectiveness age t otter 'mss of rugt on other host Varieties (P. s .Pe Corona a P. d in it In for t ho ronata most part basically coneistentfl yet occasionally deviates more or 5 It Was proved. in a vriote1 a rient with P. triticin that the extent of the it reducing effect of eeveral substances cn be dified for s ties, Japp"wd 6. Presoaking of seed in solutions of Let-ad suloides did not produce arV change in the emount of ruet on sb&ots as Long as no unbearable injury was caused. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 4 02 7 Under the i asp of a to or dovb1e iethybated 2~ ?1~aaX~3s~a f midi , a the leas of rye erected with PO jMrsaa tyre appeared repeatedly sncnwin?ecti ue bright yellow %doepo la e1 eide of the nor ml daft -bra pastssm Be The resultt& obtained not yet permit to draw condluejone to the feaeibilit of p cti Utilization of Maphonamidea(, It is baftg indicated what imp ca they might mesas in a more detailed study of the t problamo Me Ref naeo to t o ao, Cha rapt' of bacterial Infoations. An gew0 ChOMIS Lapplied chemiatrg7 18, 657, 19350 2? Ge@anarO G. and HHeaeb uk, X .,v an eaaceptib ,lit y to met produced by s ne3nn of -inoculated leaves in. eolaati s of mineral eelto and other a atnncee P t opatho Ztecchr. Cpal h 52, 3239 1933? 30 Ges r, Gm D and Hw bra c, Kos Investigations of the problw of cereal t control with chi eo P 'tpma Ztechre 7 427 19360 o eta He, and AUigoa, J. L?, Toluene compounds to control plant diseases P't opat . 299 fl8D 19390 5- H abrauk, K k t r investigations of cereal rust control with chemicals. Phyttcpat . Zt9chrQ 11ffi l 1938 6, Hasaebraaak9 R,a Contributions to cheidoa c nttrol of mast tivat d plants. Angewo Botano 20, 366, 193$0 7 I eeebr auk, K., Final in etigticns of feaathle field utilization .of pctolaoleaalp n .de as effective Internal therapy In cereal zit control, Phyt o tho Zt echr0 12, 5099 1900 ~m Ling., Lo, Pact ora .affecting infection in a ffii t and oazb eq ent development of the f ng a in the host. . Phytopat . 31, 61i, 1941. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ram . 452 30 ' 9. Poly ' aws, I. M0, A rated of control g .c to l crop dom es. (Vorl. Mtag of mpg ) o BulL P1. Prot. (USSR) It 929 1941. - Rat?t' Chi. Abstr#`o 3 r 2073- 19%2. 1O? R lph, Ws, Grswth a t aesffi and antigrowth Incas, Baca, 1988. . U. S ptare W0 H. and Ankart, W?t Effect of gulp s Md Ont u ph@ dee an the gr=Q of Pig zvots in sta id ?riggnic ca .t o n atj (BaSSI) 5a 1.79 1919? . 1L20 S pi?, Cm b I am of laus ae -tanaca o paa itic d1mewsee t on kldwy-bow "9 t and white dlmma In wheats R??. Pam. Vag. 96, 2M,, 19360 0 13? Stralbe W?, Effect of organic pgmd aprayia in the coaa? tral. of T wt fwgi wadi?an. Z 1. Bakt. fjouma . of teric:.? , ITV ILO30 739 19 ? 1o ` aabv R. P?, Ufact of ' l.phon 9.dd ad OU'A ? @Qlr c m nda a nuclear midit In. pL nt Joi a Homd. 329 157, 1941. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 ~ ~ ~ a lC'~-riFJ o ?vn3U (In 4'u).l) Bys - R, Ado ga Sysoev, Ao B 0 voamoshnoeti aochetaniia bioLogich- eckcgo i 4ehimicheskogo motodov v boir?bca c m editaliami ss L?Bkokhoaialatvonnykh kaVtur" (Feasibility of combining the biobcgfloal and cahemical methods in cantroUBing pasts of agtrieultuTaA crops ]) Vaas?ieusn, AI do 80Il0skckh?s,, leak Im' Vo I, Lnino. Dek, Il8Q?)M41, Il955r 20 Ake In Russian) (SWmitted by the Section of Plant Protection of the lf.l.inion Acadesr. of Agricultural Sciences, Order of Lenin, for whom it is moed) I4ealybugs a grope (Psicoccus citri Risso), citrus (Pseudococcus gahani, Grecha) and seaside (Puoudococcue maritimus Ehr,) - are the most dangerous pests of citrus and many other subtropical fruits technical and ornamental crops, Cryptolanus (Cryp emus mono Mulso) ie 'used enteneive]y for the biological control of these pestso This beetle-destroys 90-95% of mealy bugs anywhere on the surface of the infested plants and during all phases of their development, Cryptolaemus, however, is fre- quently destroyed by various poisons used in the control of pests and plant diseases such as mites, scale insects, Oidium,' etco The chemical treatanez of plants with sulfur, ISO (?), Bordeaux mixture, anabasine sulfate.,DDT, etc,, coincides with the use of Cryptolaemus against.mealybugso Hence the instances of its death by sulfur and MT dust* Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ? xl(o ARdellas~l~ For the purpose of studying the feasibility of combining the use of Cryptolaemus with chemical treatment of plants, the Sochi bane of the All-Union Scientific Research Institute of Plant Protection (VIZR) con- ducted during 1950-1952 field experiments at the village of Laaarevsk, Region of the City of Sochi; Krasnodar Territoryr, and laboratory tests at the insectary of VIZR in the village of Lasareveka For laboratory tests watermelons and squash heavily infested with the grape mealybu gv were employed. The method of reproducing mealybuga on squash plants was developed by the Sochi Ruse of VIZR? All experiments were repeated twice, Twenty beetles and twenty second stage (vto go vozrasta 7 larvae were used for each experi ent . Cryptolaeraus was released on the plants in gauze breeders (eadki=7at intervals of 1, 5, 3.5 and O dcyo following their treatment with chemiealao Records were kept by tabu- lating the living and dead individuals in each breeder at intervals of 10, 20, and 30 days. Control breeders were situated at a distance f the experimental ones treated with chemicals. While the work was being conducted the. temperature in the insectary fluctuated between 23 and 290 Ca and outdoors bet a 22 and 350 C. The relative humidity varied between 60 ands. 75%0 As a result of dusting the plants with sulfur used in mitt a ontralg under laboratory conditions considerable mortality of beetles, released in the breeder one day following the treatment of the plants, was obseer ad as early as on the 6th solar day (table 1)o On the larvae the effect of sulfur became evident somewhat laterD Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 4) Trans o 453 Bys R. AdeI Number of solar days between dusting and release 1 Control 5 Control 15. Control .20 Control Table l Starvivai of Cryptolaemus On Plante dusted with sulfur (Under laboratory conditions,, in percentages) Number of solar days following release of 10 larvae] beetles 20 . [ 30 80 45 100 100 95 85 100 100 60 70 90 100 75 75 100 100 During the entire life span of Cryptolae us on the dusted plants, its beetles and larvae scarcely ate any of the mealybugs, Cryptolasmus females laid no eggs. Tin high. rate of mortality of the predator was observed already after 10 days, On the 21st solar day, Cxyptolaemus was totally destroyed without having produced any progeny o: Only in the experiment conducted 37 days after dusting was there noted an insignificant number of emerged larvae.. Sexual reproduction of Cryptoiaenaus did not exceed an average of 1.4 individuals per females Besides, the young were inactive and underdeveloped. In the control, however, a mass hatching of progeny began 20 days after Cxyptolaesmus was released. Sulfur produced no effect on the mealybugs. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans,. 453 Bye R, Adelman It was established that in a closed room, dusting with sulfur has a destructive effect on Cryptolaemus for an extended period. Thus, it is expedient to release Cryptolaenus on plants dusted with sulfur in hothouses, greenhouses, etc., only after the sulfur is completely decomposed and removed from the plants and the soil by means of watering, soil aeration, etc. On open plantings 5antataiiak 7, sulfur affects Cryptolaenua considerably lease This has been confined by special experiments. In the summer of 1950 and 1951, Cryptolainus waa'released on citrus plantings infested with the seaside mealybugs and likewise on grapes infested with the grape mealybug, at intervals of 15 and 30 days following the sulfur dusting of the plants. On citrus plants, 25 beetles were released per tree, on grapes " 1 beetle and 2 larvae per shrub. Observa- tions disclosed that beetles released on lawn trees 15 days. following the dusting, leave these plants at once regardless of their high rate of infestation with mealybugs. If, however,. Cryptolaemus were released on the same lemon trees 30 days after their dusting with sulfur (June 29), the beetles remained on the trees and began to lay eggs; larvae developed in lasge numbers. When a count was taken on August 1, the lemon trees had been freed of mealybugs. On the farm, "Malyi Akhun" (Sochi zone), larvae and beetles of Cryptolaemus were released on July 16, 1951, onto the grape varieties Katalog, Chaus,?and Shaslia dusted with sulfur one month prior to that date. By September 1st, the grapes were freed of the infestation by mealybugs on the areas where Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 Trane o 453 Bye R. Adelmx Cryptolemus had been released. Consequently, Cryptolaemus must not be released on plants dusted with sulfur befote the expiration of 30 days following the treatment 4 Influence of ISO spraj (0p5?B m n Cay s~olae=. Laboratory perimantaft attempting to clarify how Cryptolaemua is inflaonced by ISO spray used in mite control, disclosed that in releasing the predator onto plants one solar day following their treatment with this preparation, the beetle mortality hardy excel that on control plants (table 2), Only a short delay (of 10' days) is observed in the appearance of the pr torsa larvaes an compared with that on control 7. Similarly, the eurvival- of. , . mealybuga is not influenced by ISO., The sexual reproduction of Cryptolne released at different times onto treated plants shows hardly s noticeable deviation tram that on control 0" iantv7 (table 3) Table 2a Survival of Captolaen released onto plants 21 hours following their spraying with ISO (0&5?B) Solar dom following release of Cryptola?ntis 5 10 20 30 Survival of Gryptolaemuss (in %) experiment larva I beetles. 95 95 80 80 larva 95 100 95 100 95 . 90 85 1 90 Control 100, 100 100 90 Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans. 453 By$ R Adelman Table Effectof ISO spray (0 0508) Mil the repMduotbn of Cryptolaamus Solar days Average nunber of 1aa a from l0 beetles between spraying and eaaas of. Czyptolaaaas I PAPatitiou II Repetition 5 15 30 1495 w 529 392 510 470. 506 483 569, 491 146 Analogous results were obtained under natural conditions in July of 1951 at the won village of MatsssU. The experiments conducted show that during the summer Cryptolaemue may be released onto plants sprayed with ISO (008) as early as l5. days after the sprayingv In sheltered soil-(greenhouses, hothouses, etco) dusting sulfur must of neewaity be replaced with ISO epreyinggo The use of Cgyptolenus has shown that freeing a medium-size citrus tree and a full-grown cultivated grape shrub of waybugs., by relying beetles at the ratio of 25 per tree an 3 per grape shrub, requires a period of 30-45 days. During the space of time indicat d the plants must not be dusted with sulfur. or sprayed with ISO. If the release of Cryptolaemus onto citrus were initiated during the normal period, is eo9'during the period of the first generation of the seaside and citrus meaalybugn (at and of May - beginning of June),, when control measures against the silver mite are not yet being applied, then Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 m7a Bys R. Adelzan Cxyptolaemus is able to free the trees of mealybugs by the beginning of July. To safeguard the crop against mite injuries, it is necessary, at this time, to spray ISO or to dust with su1furo When Cxyptolaemus is released against .the IX generation of the same mealybuge (at end of July) ,P it is reconne d that ISD be sprayed during the first ten days of July and that it be repeated at the beginning of September. On sectors of grapes infested with mealybugs, sulfur dusting in permissible until aid. June, in was Cryptolaenus is being applied. If necessary, the dusting may be repeated at the end of August. Influence of 1% Bordeaux mixture spray 2pon Cryptolagmuso Under ir.rr, rrr..r rrrrr r ~rw.~rr laboratory conditions, in releasing C:yptolaanua 2)4 hours after spraying C with Bordeaux mixture, a slightly negative effect appeared on the fifth day (table 4) At the end of the expei'imentp the difference in the mortality rate between the experiment and control did not exceed 10-15%. Table 4. Survival of Cxpttolaamu$ released on plants 24 hours follower the ajrag ing with 1% Bordeaux mixture rr,s.a?~rrr~n ~r~ ~.^..~ ..~.~nrnw Solar days following release of Cryptolaaaun 5 10 20 30 100 100 80 60 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 A gw as ~ 453 18 R. AMe s ? The larvae and beetles of Cryptolaeanue did not abandon the areas sprayed with Bordeaux mixture, and they ate the i sa3ybugso Reproduction and dove2opment of the beetles ran their normal course. Development of the mealybugs also proceeded unchanged, since Bordeaux mixture does not stay on the wax.?like surface of their bodiesa The data on table 5 show that the offspi ing of Cryptolaemus released the first day following the spraying with Bordeaux mixture was not quite so numerous as that in control. The later the beetles were released following the spraying, the more offspring did they yield. The same results ' were obtained under field coaditiaonso Thus, for maple, we, on August 16, 1951s in the City of Sochi, Wa`yed with Bordeaux mixture 6 mature Lenkaran Acacia trees which housed a large amount of Cryptolaemua larvae and beetles released earlier for the control of mealybugs. These trees were kept under observation until September 26, 1951. During this period no dead Crypto-. icemus larvae or beetles were found either on the trees or on the ground beneath the Acaciase The. beetles developed normally and by mid-September they cleared the Acacias of mealybuge. An analogous picture was observed on the other trees subjected to Bordeaux mixture spray. Thus, Bordeaux mixture spray has neither a fatal effect on Cryptolasnwe, nor does It repel them. On the strength of this, it is peuiiiseible to release Cryptolaemus onto plants sprayed with 2% Bordeaux mixture beginning with the second day after the spraying, Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 TmnQ. 455 Bys R. Adebam Table 5, Influence of Boa~dsawc rCure the raoduot#on of Grtalaezaus Solar days alapsad between ep tikliog and. release of Gr7ptolaemue Average number of larvae frarm 10 beetles I Repetition I II Repetition Cot trot 498 411 584 5 467 498 593 15 512 471 549 30 582 570 6018 0 tntlnone of mnabas~te upon Ci ptolaenuso in spraying plants with an anabasine sulfate- solution (4e0 g. of 4% anabasine-sulfate and 80 go of soap to 10 14 of Water) under laboratory cozxditioea, there is observed a alight (not ovw 30%) Czyptolaenus larvae and beetle mortality (table 6) Table 6. Surv~.ve1 of C to1aemus released onto ;ants one ? solar day foll jLft in with anabasine-sulfates 40 . of gnabaeine-sulfate and 80 g. of soap to 10 1 of water) Survival of Crypto1~ei nia an %) Solar days following Cr rptolasaaazr Esporimopt Contv+ol release t 5 95 10 85 20. 80 30 80 Larvae Beetles Larvae Beetles 90 85 75 65 100 300 90 90 300 200 70 70 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans 453 Bys R. Adolman The development of Cryptolaemus continued normally* If the release of Cryptolasmus was begun on the fifth day following the spraying, their reproduction Was not affected by anabasineisulfate (table 7)o Anabasineo sulfate spraying was not reflected in the vigor of the mealybuga, The same results were obtained in field experiments,. Thus, on July 26, 1951, in the City of Sochi 3 mature Leekoran Acacia trees infested with seaside mealybugs were sprayed with anabaoine-sulfate, At the moment the trees were being sprayed there was. on them a large amount of Cryptolaemns larvae, On July 1)4, 1951, twenty-five Cryptolaamms beetles had been released on each of these trees. In July and August 1951, Cryptolaanue was developing normally on all Acacias, No dead Cryptolaemus larvae were found either on the trees or under them. At the and of August the trees were cleared of mealybugs, It was found simultaneously that spraying plants with anabasine sulfate not only did not kill Cryptolaemua, but it did not even repel them. The data obtained show that Cryptolaemus may be released onto plants sprayed with the usual dosages of anabasine-sulfate, beginning with the fifth day after the spraying. Influence of 142% but us emulsion on copper vitriol 3ulPhate7~ upon Cryptolaemusv Through observations of the after-affect produced on Cryptolaemua by industrial treatment of plants with 2% butyrous emulsion, it was established that the latter has no negative effect upon it, After-effect of. plant fumigation with hydrog$n ids upon the survival of Cryptolaem s, For the clarification of this question, in September 11, 1951, squash, with a III and IV degree infestation of grape Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans. 453 By8 R. Adebn 0 mealybuga, were fumigated with hydrogen cyanided The fumigant, an ordinary sodium cyanide, was used at the rate of 15 go per 1 cu. a, The fumigation took place under a thick canvass at a temperature of 220 C, with a 45 minute exposures After the fumigation the mealybuge were still ali o The next day the fumigated squashes were placed in gauze breeders and left under natural conditionso Cryptolaemus beetles were released into the breeders, In 8 days larvae appeared and in a month . young beetles, The Cxyptolaemue larvae in the breeders containing fumigated squashes de eloped in as large numbers as those in control and within the acme space of tis-e. In the first replicate, 412 Cryptolaemus larvae were obtained from 10 beetles, in the second - 386, and in control ? 4014 Table 7. Influence of anabasine?aulfate ggEM n the r roduction of t~rptolaem~ Solar days between spraying and release I . I Repetition j 11 Repetition I Control O 1 5 15 30 Average number of larvae from 10 beetles 461 481 506 538 427 46.5 511 560 520 537 541 544 If beetles were released onto plants in the open, on the second day following the fumigation with hydrogen cyanides no deaths were observed among theme Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Trans,, 453 SYS R. Ads Oman a. 12 n C If the fumigation is conducted indoors (greenhouses and hothouses), it is permissible to release Cryptolaenus after the 2ydrogon cyanides absorbed by the indoor surface of the room and the plants, is comg letel3r ellmifated4 This requires spraying abu t3y, with water, the uallsp ceiling, floor and the plants snbjeated to gas treatment, and a anbs~oquant airing of the rooms for 5-6 hours. The following day Cryptolasmus m'V be released in these zooeso Influence of DDT and hsoamchlo c heocenc HT8G ? {)eksakhlortaik1o dust upon Cr7ptolassus. For the experiment were used squashes infeited with grape mealybugs dusted with. DDT and GKHTS4o In gauss breeders in the insectaxya if released on the second day following the dusting with theme chemicals ~ustatng, the Cryptolasmus beetles died within 5 hours and the larvae within 22 Having been released 5, 15, and 30 days after the dusting, Cryptolaamars was destroyed just as quickly as it was after sulfur dusting (within 20 days). Cryptolaemus produced no progei . In the laboratorya during too s riths of observations, Czyptolaemus beetles remained at a distance from squashes dusted with 5%, QKRTSO. Dusting with GKHTSG destroys 20% of the grape mealybugs mainly in the lot and 2nd stages of .larvaeg during the first 10 days following the dusting. Thus, of the 500 individuals recorded, 191 grape nealybugs, including 168 larvae in lot and 2nd stages, were destroyed, We lacked the opportunity to establish in the open the after-effect of DDT and GKHTSG dusts upon Cryptolaenue. We suppose that the after-effect of these dusts in the open will be less severe than in a laboratoryo Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  0 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 wranwa 453 !3r R. Adelman Influence of thin hoe 0. concentration VV= C tolasmuso Thiophos produces good results in the control. of mea3ybugs, Cryptolammue, in turn, destroys mealybugs in areas inaccessible to chemical treatment (in fissures and vender the bark) and also on fruit-bearing crops. . Therefore, .it is expedient to p lea thiophos, Cryptolaemus and agrotechnical measures Mich will ensure a total elimination of the breeding places of tt~esdybu $0 Our observations conducted in March of 1952 revealed that Cryptolasmus may be released on plants 20 days following the spraying of these plants with thiophos (0.1% solution). In our experiment the grape mealybugs developed well on squashes if they were inoculated 15 days after the spraying. Cryptolaeaus beetles released on these squashes 5 days after the inoculation (March 16, 1952) produced as much progeny as those on control &1ant , and in the crane space of time. On the average, by April 1, 1952, there were 319 thriving Cryptolaemxs larvae obtained from 10 beetles in the first replication, in the second -,2809 in control - 296. Everything outlined above justifies the assertion that, in mealybug control, the use of Cryptolaemus can be combined with the basic measures applied for the protection of subtropical crops against pests and diseases: spraying with ISO (0.5?B), 2% butyrous emulsion, 3% Bordeaux mixture, ordinary solution of anabanine'rulfate, and normal fumigation with cyanogas. By observing the safe interval in.agrntechnics of subtropical crops, Crypto- laenus may be applied even after the use of sulfur spray. All-Union Scientific Research Institute Received at Editorial Office of Plant Protection April 11., 1953 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 (1) Trans. 454 Byo A, Ant4 '90vDtax'ao?k L 3r Vliianle tompassatu i vla hnoeti as pror&etunie Y,onicUl Phytophthora inf eetane mt. &Influence of ' eLVorature and > dty on the Gezino.tion of the Conidia of Phytophthorm infers tv n-w5Do anhchita Phut $i 12E pp. 79-96, 1937 421 P 942 (1aa aaei9za) INFLUENCE OF IPE1 TU! AND iiUMIDITf ON G t TION --^--- OF FHY'WPHZi?~ t INF~S GO:fDr.A C . Since the tip of the lnitieA. study of Ph r h ertts Bury (1861.), the influence of t er.mr tux a and air humidity on germination of conidia was recorded (Jenks 8 Giddings and Lubmia, 1912; Meihus, 1915; why, 1.922 and of o e)4 'Mere are few data in regard to the influence of air hu aicafty; they are based costly on observations. tixperi enta1 data on the influence of temperature are known more or less in generml,l In order to develop the pwognoeie indicators of develop nt of Phyto Ithom infestans, the pur~pove of this work was to study the peculiarities of spore germination and to establish cardinal points of temperature and humidity. Methods. We kept the cul.tuke of Ph to ahthora infesgta ao, isolated from eawes, for, a year on freel po W ices the t xperl me were conduc 6d with a 7-day culture. Conidia from -%a potato slices were tranafo d with a platinum needle to a hanging drop in a moist chamber (depression slide). Water from the tap was taken, but it was heated up to required temperature before the experi" want, lAfter the completion of this work,, a vol noun work by Crossier (1934) appeared in the press, in which,, with sufficient tullnees, is presented the problem of the influence of teorologicaal factors on germination of spores Phytophtho-ra infeo Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 By8 A. Annt ,k Trans. 454 prints on spore germination under different temperatures were conducted in Kiuster? s rm1ti-Ancubstore,* for continuous obser4' vatione Lit z a s apparatus ?aNuttle" pawed eent ly eonvenie t, it is an electric =ter-bath incubator with a glace front wal ko Inside the "Nuttl& is placed a microscope, the upper part of its tube emerging. Such an apparatus enables coaitinuoue observation of. the spores under as microscope at any set tempor?ature In experinnt an the influence of air humidity the spores were kept in deesicaatora with various concentrations of sulfuric acid. Calculations were made according to the Regnault3 scale,, The following variants of relativo air humidity were tested: 100, 83, 62, 48, 34 and 21%. Sit i r to the procedure during the e n nts on the halt nce of tempestara, conieida were transferred to cover glasses, not in a water drop but on dry surface. Then these cover glasses ware p1nced, on species suppo inside the dessicaator?s., drops of water were deposited on the conidia and the glasses which were ermined under the microscope were placed on depression slides,, after which the moist chambers were placed in the > ti-incubator at an 180 tempera- ture a All the tests continued for 48 hours, because preliminary experiments showed that ifs during 48 ho?, the spores did, not germinate, further change do not take place, besides, bacteria develop later an which upset obsea tionse The gornatian per- centage was calculated on the basis of to microscopic examination of not less than a hundred spores, but usually their nu r? was considerably higher. Characteristic stages were drawn with the help of Leitz ? s d awing ocular f ewr?aa Lucida?f o 1 m Influences of temperature on the usher of tie. go studied., In our expert ntes temperatures from 0 to 350 C. in 1-20 intervals. Drawings of peculiarities in spore gear Lion observed under conditions of various temperatures are given in fig. 1. 2We went to use this opportunity to express our, thanks to the director of the National roan tgenologicelcraadiologica1 and cancer ienstitute, Prof. Nenaanov, for the pax fission to use this aapparatuso 3L dolfc ornstei i t a t i o i of D lust is observed more frequently d1e its culture is introduced in plants one=two dgyi after their inocalatioU-vdth_ rust. Second jams: on the plant leaves, appear. yillov spots. Fr iting .of,rust takes place in way of single pustules. Fruiting of the para- site - in way of individual pycnidle and in yellowed sections- pycnidia in dons* groups.. This type of manifestations is observed more frequently when the culture of the parasite is introduced into plants ona.two days before the appearance of rust. Third type2 the plant loaves lose the normal color, they have the appearance of a complete necrosis and become yellow, pustules of rust are single and in groups. Pjrcnidia of the parasite cover densely either the entire surface of the leaf blade or its greater part. 't'his type of Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  ~J.n KULL) Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001 9 T utik manifestation is observed usually when the culture of the parasite is introduced. into the plant after the appearance of. rust pustules.. In caseS.when the. culture of the parasite is introduced into?the ~'. plants one-two and more days before their inoculation with rust, the manifestation of the parasite corresponds to the first type. And in oases when the culture of the parasite is introduced into plants after the rust appears in various degrees and sporulates, we have two additional types of parasite manifestation. First types, the plant leaves lose the normal coloring and have the appearar of.a solid necrosis s4 d single yel.l.owid sections dry out. Single pustules free' of the parasite are fount. The basic mass of pustules is overcro'Wded with pycnidia of?.tho parasite. Second types the plant leaves become yellow and dry out. The leaf blade is covered solidly with rust pustules which in turn are filled almost entirely with pycnidia of the parasite. ?as- tute: free from the parasite are found either singly'or in tsmall?groups. The state of plants at all the deaeribed manifestations of both fungi was compared with the state of control plants which were moon- .ated'only with rust. As a result of such a comparison it became ' .clear that the yellowing and drying out of the leaf blade of the plants .on which both fungi, develop, as a rule, takes placesearl.ier than on, control plants (in all the described types, except the first). In ? other words, the fight between two fungi, which takes place in the plant itself, has a more serious negative effect on the latter in're- gard-to the speed in drying out of the leaf blade thain when it takes place in the presence oft he basic parasite - rust, It is true that such occurrence is observed only in cases when the parasite of the rust, due to various causes, was not able to suppress it in the early stage of developmzent, i.e. at the beginning of the incubation period. More serious suppression of the plant in the process of the fight on it of two fungi than in the presence of only one basic parasite - the rust, can be explained as follows. It is known that the rust as well as its parasite D. a~M form a mycelium inside the tissue of the plant leaf. Fruiting of one as well as the other fungus takes place on the.surface of the leaf blade. It is quite understandable that if the rust succeeds in forming a rigorous mycelium and even fruiting, then by this same fact the parasite to provided with unlimited nutrition and therefore with the possibility of forming, in Its turn, a vigorous nycelium and abundant sporulation. In this case the destruction of the plant's assimilating apparatus will take a more intensive course and will lead to a more rapid drying out of leaf blade. We observe an entirely different phenomenon in cases when the para- site succeeds in destroying the rust urcelium at the beginning of its development. Here the fight of the two fungi is on a very. limited scale, a Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  0 (10) Trans. 460 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 u1T) Bys A. antic the state of the z -et? By enrol g the rust zyftUum the parasite thus deprives itself of nutrient m a and aced ngly it succeeds in forming onl$r a A urwignif i- cant ai oimt of p 3a rtngly -scattered on the suirtac a of the leaf blade. In .this a the leaf ?d a: not rienoe -oat&oeable deprsssian i develops,quite norms ag!~, From all this we lint ice the fo31owiM conclusion. Vise of pare.- site for Contro3' of rust can- be rectified ur'Awr the cr fion of the laatter'e ?iuppreasion a 1th! .be iu g of its 4evelopment, which c oincrldba with the f3 at .staged . at' plenta'j growing. on of rust during this period of a U44 (?gelati~Yel3r pore rani d, the than in ,tie Case o off?otinn by rust elo~ae) of zfi tit uppe ring young leaves and -thus prassirvd tw n''ot ? . healthy leaves ?of subasqueht torrwitions 3a rubes eTat stage of plant growing - ?mo*e than oc atb t*r the ` n shire '.ttict of ox-. etbod$ of Ilmw a i 1 Since owr rUqPm is an eobll at,R parasite, it 3s t derotandable that in artificial nntrie6ttt ,it sd3usts itself considerably his ftwi or bacteria, Tbqwore than ' ood&mtil same prostration of to go-orgsgi we n in the, eli t Q goto UPPW . i epeoi!'icar doadtd .eat . on methods . of resoviag of the culture ieo-der it po tt3 a to ' eirteblieh tb~rit U sbast initial media X& the ~ bbsegiterxt ri ; grains of oats: Fiat' tranefa:'rring ,tile a teiet:~t ~tq a"t st fttbe'or.'flask or Other pontsiner'it is teat +iaeit . to. ui .i ghtly ' ip~in forceps. ? a: ? V* o"Viad out the bawl risinly into tt*S ski ("lta 3 asks). / ,,~. -' an p9rF, 1.~ y~fi~n ibo ; IW6 Val rro a ,) eud' t 'very convenient ~ y fa pass . 0 . ~y.ttof o j s maA Vr lent ma"iti eppi*red,.. "1'. i . result of tests, `ho be too ~pasti _ saitabl a for a atatarlntio~tt" of fungus Giltnrea boas Of ' potato, gr of, e*ts? ead? darn. aft ~~ . and xa~l~d eX'~I,, 11 1=3: sure Dove mara- ? tam vatls< and plaaad eaarked aft in a uk !tO 'about a 1/3 of its. voime. Then iesk+r and they u ergo ataftlisat ca in en autoclavr0 40 aft, *14w a ley corn 4oPi- ai ntr . ;/4 of the a#a+ouiph? rt mares of vats'-and flask .n4 : to It about tvo us of eater a added. ?. stem l i s a t i o a ' is 0 a r r i e d g o t in e n . u t o 6 u i e f o r UVW, . lath. PAW IM AM & and then oai hour under a 1.5 at oa0ari,e preir ? ' - Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  0 (Inru11), Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 A. Antik it As better to, carry out sowing into freshly prepared madia cooled to row temperature. After sowing it is necessary to, shots the flask well"Jn order to have fruit-bearing started s ltanso min, the entire nutrient media. Afiter ? the sowing, depending on how .soon abundant- fruiting ,bas to be obtained,, the flasks are kept at a corresponding tam- peratura. At a18- o t nature aboutll - 2 months are reqred for a mass foxarattion off t'being. In f1aek ;tines ' can ds ;op succeestu lq .w without losing . its - virulence during 8 10 lmonthss This makes it ppossi'b1 a to start' preparing . the culture a zesd of time. In a case when it is fl ?ssory to transport the culture eorawahiere, it cs be. don. the following anners the culture is ejde -aated fror, the flanks together with: the nutrient media- and dri to: of s3 =dry . condition at n o r roan' terrpera~ture or at a 24 .2 but not hfgher) . Jul taMnperaturs LC. f, 3.4 denies are siseded for it if the culture is spread in a thin leyera After such drying the culture, can be easily trans- ported in a non-breakable container. Conetlusions. a 1. A cumber' of inexpena e' nittriant asedii are selected (slices of carrot end` potato,grains of oats and cord etc.) In which the ? rust parasite Dariuc& i1.ua' develops suooesefully. 2. SlIple and widel~ aacesaible methods of aass accumulation of the culture - of the D f ;M fungus in nutrient media are developed. 3. Under condistions of a cuss experimeo At has beep d.on- atreted, that the D. : ti.1 ' fu ' grown In ratrIent aedie retains its virulencer and is c ble hang up to 98,' - rust pustules (rem lass-of the da$ openent degree) at a belated ztj%;&a on a plant and suppresses the- rust almost'. {etely duri-rag the goalivm stags, when the cultake of the rust parasite is introduced in.. Up* pp plants inoculates with rust. ,, Ail-Union. salentilia-research institute fordplant s protection Received ?3s VIII 1951 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 ssderovo It. S obnoe opy)ivanio Thiopobatz i . [Night Aasting of Co'n7 a lays An ante ga ho : prot&vodetvo M(O)M, June 1980? 28t08' ( i, Rueai n) . P'er' pants pf :ag ltural Plants reproduce, very asap .dl7'And pro- &C6 several . erati,ons daring the vmer. , As~ e: -rule their control has to be ? carried out'ia a short time in' all t ie?arQa affeot+ , -Axid at the saa tuna It-'should be considered that'` the off cti sa of read ant of Al=t&-with & 4e , gpreparati o f depends `they ' bours of the day at: rww [eh It takes p o:? ? At noon,,. Wh64t tife.-air -.huanidit r is lower and the-'w d- stronger, the, effeet. i3 f ,poison .dusts is considerably..'. weak; than in the morning,, T'hereforo; it ,ia u r roc ended. that.= dosti ng of plants be, conducted ally in the morning and the a 0 g4 . ,ire*. such a limited, U16 'thib- kolkhosea were not. able to treat the fields" sad to duet tt rough;. t . en 4ia In, order o 'use %ba~o f ly the ' ahemi prepara'tri and the egatpaent of the ko33zho%)'8, and tan'nomplete. the treatment of -th4 plant_ 4hp in shortest tleaar tho station ,o ' plant protection : of.the.-All 4Jnion selentifi ,pesear - in+ctitute of cotton ? industry,.. carried' out' 4 rt tents Mast year, 'with' dusting 'dottbn at night'.:; 'These eipor n Were wary s c seas a . At might the .pant ieMs 'covarred with' do ? the ; . alto lhumidtt r mar 0cD the wind usually dies;do Alin this creates. the Pies : oondi .r~zr i+s+...i'!F' ' wi K~ ~. 3}ti ~ ii 1 . 4 Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030/001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (3) Trans. 463 (In full) By: A. Antik out these measures and in some parts of the Azerbaidzhan, Crimea and Black Sea Coast of the Caucasus, the root-knot nema3939/, des reproduced intensely. According to Selivonchik's data. (1838) the vegetable yield on the Apsheron peninsula is partly destroyed by root-knot nematode. Radical measures; are required for their complete extermina- tion or, at any rate for a decrease in contamination to a degree where growing of vegetable - Cuuurbitae and other crops, susceptible to nematode infection, should be possible. The opinion existing in the literature, that root-knot nematode does no harm under conditions of temperate climate, in particular in the central belt of the USSR - is not correct. In 1944, the author observed in the Moscow oblast' a complete destruction of carrot yield in a focus of root-knot nematode in a garden near a farm house, during the third year of cultivation of garden plants: with potatoes in 1942 and 1943, and with carrots in 1944. The carrots were affected so severely by the root-knot nematode that the yield was not suitable for use (Sveshinikova, 1949). Among chemical control measures tested in the USSR by A. A. Ustinov (1934) effective were: carbon bisulfide at a dose of 500g. per lm2' and chleropierin at a dose of 100-150g. per 1m2. The carbon bisulfide in the indicated dose resulted, under conditions of Sukhumi, in 100% destruction of the root-knot nematodes in plots: however, this prepara- tion.is poisonous, explosive *,nd therefore not convenient for extensive use. Chloropicrin in indicated doses is effective, however, a 100% destruction of root-knot nematode, under conditions of severe soil con- tamination in Sukhumi, was not obtained, therefore, its dose per lm2' has to be increased. Besides that, application of highly poisonous fluid chemicals requires use of injecters, work with them is dangerous and has to be conducted by specifically trained people in gas maska and protective suits and due to all that the process becomes too cumber- some and expensive. Therefore, the author conducted in 1945-1949 a test for the control of root-knot, wheat and potato nematodes with powdered preparations suggested by the Scientific Institute for Fertilizers and Insecto- fungicides imeni la. V. Samoilov. Tested were the following deriv- atives of dimethyl-dithiocarbamic acid in dust form and manufactured on the basis of: methyl ester of dimethyl - dithiocarbamic acid (10% dust, patented preparation "cystogon", similar dust of Soviet manufacture with another filler (of "cysto o " type), 20% dust on the basis of the same " toxic element ("forbiat" 2, 20% dusts of ethyl (no. 23), butyl'(no. 35), isoamyl (no. 34) and propyl (no. 33) of dimethyl - dithiocarbamic acid: esters of diethyl - dithiocarbamic aeid:ethyl (no. 31), butyl (no. 30) and propyl (no. 32) also manufactured as 20% dusts. The rest of the preparations which did not show a sufficiently nematoaocidal action are not mentioned here since they are indicated in the collated table 4. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (4) (Inf7ftll) Hp: A. Antik Methods of application were as follows: in the spring the prepara- tions were scattered by hand in a 1:3 ratio mixture with dry sand or road dust, into adequately friable soil which was replowed or redug and after that the preparation was thoroughly plowed under at a 20-25cm depth. Part of the preparations, due to their small amounts, were tested in flower pots. In the latter case the chemicals were introduced into the soil before filling the containers, with*ut adding sand and they were mixed evenly with the entire volume of soil? During the work in the open air gas masks were not used. Rubber gloves or canvas mittems were used in mixing the preparations. with sand and in scattering theme No other special safety measures are required. Contact of the prepara- tion with mucous membrane of eyes, mouth and nose should be avoided. Therefore, smoking and eating during the work was prohibited. After the work, face, hands and feet (if work was done barefootee) were washed with water. In 1946, the author conducted tests with "cystogon" against root-knot nematode under conditions of natural foci of the parasite in open ground in the Moscow oblast' in an individuallyoowned garden (Sveshnikova, 1949). Well prepared sandy soil was dug up with a shovel to a 25cm depth and then broken up with a rake. The introduction of the preparation took place on May 8, at a 140 C., air temperature and a 80 C. soil temperature at a 20cm depth. The soil humidity constituted 17.22% when recalculated in absolutely dry soil. "Cystogon" was taken at a ratio of 185g. per lm2; It was introduced in a mixture with dry sand for a more uniform distribution in the soil, it was scattered by hand through a soil sieve. After the introduction of the preparation the soil was again dug with a shovel and stirred with a rake. The soil in the control area was cultivated in the same manner. In large areas it is recommended to introduce the preparation into the soil with a drill for fertilizers and to finish up with a horse-drawn rake. Seven days later, i.e. on Maj 15, carrots of the Danvers variety, with a few white carrots added were sown in the experimental beds. On May 30, normal carrot shoots (line) were observed in the treated as well as in the control area which did not differ in density or size. Further growing was normal. Caretaking - stirring up of the ground and weeding - was done by the owner of the garden. On September 9, the experiment was terminated. Examination of 124 carrot roots from the treated plot disclosed on the thin roots of 26 of the single galls discernable only with binocular glasses [magnifying glas (21.4%). The remaining roots were absolutely free from infection (fig.3.1). The roots free from in- fection as well as the affected ones from the treated plot were of quite normal size and shape and suitable for food, while in 1945, the owner of the garden discarded the yield of this bed because the disease in- cidence was too great. From the control bed were taken 180 roots. AU (100%) of the plants were entirely deformed by root-In:ot nematodes as was the case in the preceding year (fig. 1) Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  C Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 t ) -irans. 463 (In full) By: A. Antik (P. 465) Fig. 1 - Caption. Left - carrot from the plot treated with "Cystogon" Z/ in the dose of 185g, per lm2: right - carrot from the control plot affected with gall nematode. .The second part of the experiment was conducted in heavy clay soil in another area of concentration of root-knot nematedes in the Moscow oblast' The soil was not "mature" i.e. it did not crumble, but was compacted (humidity 19.65%) and it was not possible to break it up finely. "Cystogon" was introduced by similar methods in a dose of 200g. per 1m2, with consideration of the stickiness of the soil. The Danvers variety carrots were sowndirectly after soil treatment in order to'find out about the effect of the poison on sprouting. Germ- ination was normal - on the 15th day young growth of uniform density was observed in the treated as well as the control area. Here the results were less successful: of the 94 plants taken from the treated plot, 29, i.e. 30.7%, were affected. The-degree of,fection was from 1-5 gal 1-5 galls per plant. From the control area 60 plants were taken, of which 42, i.e. 70%, were affected. Degree of Tection - from 1 to 100 galls per plant. The results of the test were undoubtedly influenced by the soil structure. On the basis of the preliminary experiment with the "Cystogon" against root-knot nematode carried out in 1946 (Sveshnikova, 1949), the author decided to try out in 1948 another preparation - "forbiat" ZT/- for decontamination of soil from the root-knot nematode under conditions of intensive contamination which exists on the Apsheron peninsula. Prior to the author's tests, "forbiat" was applied as an insecticide, but no one tried it as a nematocide. The experiment was conducted in Baku with the cooperation of the director of the Azerbaidzhan Quarantine Laboratory, S. L. Popov and the entomelegist L. I. Shapieva. Soil treat- ment was carried out on two farms with different soils: in the village Shuveliany in sandy soil and in the Armenikendskii nursery of the Baku- soviet - in clayey loam soil. Methods of poison introduction were similar to those for "Cystogon": digging as deep as possible, loosening of the ground and thorough mixing of the chemical with the soil. The "forbiat" was tested in doses of 70, 85, 100 and 110 g. per lm2. The experiment was conducted during the second decade of May in three plots 5m2 in size. A week after the treatment cucumber seeds of the Chinese variety were introduced. During the growing period the control plots showed very great sparsity: in treated plots there were almost no bare spots, the plots were covered with strong vines and produced a yield shown in table 1. In the second part of August, the plants were dug out and records were taken of n `Pection of their roots with roo~knot nematode. Almost all Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (6) Trans. 463 (In full) By.* A. Antik the plants were affected with it, but to various degrees (fig. 2). While in control plants the roots were absolutely deformed as a result of parasitizing by the roo'.knot nematode, in plants from treated plots there were considerable less galls and the higher the dose of poison the fewer galls (fig. 2). 1!hen the dosage was 100 and 110g. per lm, the galls appeared singly and were most frequently distributed at a depth,Sof less than 20cm. Numerical data of recorded state of roots are presented in table 1. Table 1 (p. 466) Effect of soil treatment with "forbiat" against gall nematode. Dose of "forbiat" per lm2 (in g.) Control without treatment I nn (At the end of the experi- ment all the plants were destroyed) /7n 100. . . . . . :~ 38.5 110. . . . . 36.1 IV. . . .I (U.7 85. . . . . 50.1 t > ~ ' 64.4(1) 13.3 5 88.1 23.1 8.7 67.1 29.8 9.1 54 30.3 The tested doses of "forbiat" did not entirely destroy the root-knot nematodes in the soil, but they gave the plants the possibility of grow- ing normally. In order to develop a 100% effectiveness of "forbiat" an experiment was conducted in flower pots with a clayey loam soil artifically inocu- lated to a high degree with root-knot nematodes. The soil was thoroughly mixed with "forbiat" in the ratio of 150, 250 and 350g. per lm2 for each three pots. 1 Hing percentage of infection is caused by defects in the agro- technique Shuveliany average % of root infection Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  C Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 lrallS. X63 (In full) By: A. Antik Radishes were taken as test'-plants. Two weeks after the planting, de- pression of plants in control (untreated) pots became noticeable -nd toward the middle of the second month of growing, a picture of better plant condition in treated pots as compared with the control ones was apparent. The result of egamination of plant roots are in table 2. Table 2(n. 467) Results of soil treatment with "forbiat" against gall nematode (flower pots) - Dose per LM2 (in g.) Total number of plants Number of affected plants ~U ,t of 1 infection Control (without treat- ment) 25 25 100 150 . . . . . . 25 2(1) 8 250...... 25 1(1) 4 350...... 25 0 0 Thus it was established that the effectiveness of the preparation depends on the degree of soil contamination and on the dose, and, mainly, on the thoroughness in mixing the preparation with the soil. (P. 467) . Fig. 2 - Caption. Roots of cucumbers from plots tre-ted with "forbiat". From left to right: control, "forbiat" in doses: 70, 85, 100 and 110g. per 1m2. C On the basis of our works which demonstrated high nematocidal properties of preparations of dithiocarbamic acid, in 1949, a test was conducted with a wider assortment against potato nematode which possesses a higher resistance against unfavorable condition's of the envirement. According to data in the literature, its cysts can remain viable in the soil up to 10 years. Up to recent years the potato nematode was not known in the USSR, therefore, prior to our research, - none was conducted. The experiments were conducted on the Base of the Lithuanian Quarantine Inspection with the cooperation of the agronomist E. S. Mikhnova. 1) Intensiveness of invasion - 1 gall per entire plant. Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 By: A. Antik C The following preparations were tested under field conditions: io% dust of the "Cystegon" type (methyl ester) in doses of 200 and 300g. per lm2, 20% dust of the "forbiat" type in doses of 168g. per 1m2 and ethyl ester (preparations no. 23) in doses of 100 and 185g. per 1m2. Soil contamination reached up to 2500 cysts of nematodes per kg. of soil. Preparation of the "Cystogon"type was tested in plots of 100m2, preparation no. 23 and "forbiat" - in 15m2 plots, de- pending on the amount of chemicals. It was possible to establish during the process of potato development that the plants' germination did not suffer from the effects of the preparations being tested, with the exception of a 300g. dose per lm2 of prep-ration of the "Cystogon" type which somewhat inhibited germination, though within the potate norm. The effect of decontamination of soil with preparations was clearly expressed in the exterior aspect of the leaves, which looked quite normal in treated plots (fig. 3, 4, 5 and 6). The yield of plants in treated plots was 4-10 times heavier than in the control plots. It should be pointed out that these data pertain to the 15th of August, when the yield did not yet correspond to the norm and besides that we intentionally omitted manuring, in order to demonstrate more clearly the influence of plant decontamination from potato nematodes. The results of t e,treatment,are shown in table 3. e background - soil treated in the dosage of 100g. per 1m2. Table 'i (P. 469) naturally contaminated with Results of soil treatment with esters of dithiocarbamic acid for control of potato nematodes. Name of Dose per lm2 Average height of Average weight Average % of large F f cted Number f cysts preparation (in g.) bushes of tubers tubers ots on a (in cm.) per bush (in g.) bush Ethyl ester (no. 23) 20% dust. 100 26 79 57 52 Single Same. . . . 185 32 108 59 36 It Methyl ester 20% dust - "forbiat". . 168 51 4 Methyl ester 10'14- dust. . 200 27 110 70 40 Same. . . . 300 39 113 60 36 Control . . rithout l+ 11.5 18 100 Up to 15 per lcm. treat- of root ment a Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (9) Trans. 4.63 (In full) By: A. Antik (p. 469) Fig. 4 - Caution. Plots treed with "Cystogon" in dosage of 200-300g, per . Damage to plants following treatment with "forbiat" decreased 96%, following treatment with preparation no. 23 in a 100g. dose - 4.6% and no. 23 in a 185g. dose - 64%. as compared with the control, where 100%% of potato bushes were affected to a high degree. The exterior aspect of the plants and the yield are presented in fig. 6. The remaining 12 esters of dithiocarbamic acid (see table 4) were obtained in amounts not exceeding 100g. therefore tests of them were carried out in flower pots (three times) and the natural contamin- ation of soil was 1200-1700 cysts per 1 kg. The soil was treated with dust in the ratio of 150g. per lm2. Two days after treatment potato tubers of the "Volttman" variety, about 100g, in weight which were taken from a farm free from potato nematodes were planted in all the containers and were placed on racks in a green-house with a roof of wire screen, i.e. under climatic conditions of open ground in Vilnus, and they were held there until the moment of record-taking of the experi- ment. Potato shoots were noticed on the 14-24th day, i.e. within the norm for this crop, though in the control containers shoots were observed on the 11-13th day. Further on a certain difference in de- velopment was observed; in pots with soil treated with chemicals, the growth of bushes was more powerful and on July 18, budding started: in the control containers the plants were weaker, shorter, they did not blossom and towards the middle of July began wilting and dropping "cClover leaves. It is seen from table 4, that preparations no. 25-29 had no decontaminating effect: there were cysts of potato nematode - 1 - 10 per lcm. of root, i.e. up to a degree of affection observed in the control, in the soil there were,.-besides the brown, also white cysts of the 1949 generation. (P.470) Fig. 5 - Caution. Plot treated with "forbiat" in dosage of-160g. per Inrl. Esters of carbamic acid no. 30, 32, 34, 35 and 23 have an undoubted- ly nematodocidal effect: they freed the roots completely from cysts. Therefore, the potato Heterodera did not develop in these containers during the growing period. Absent from the soil also were light-colored cysts of the 1949 generation. At the same time it should be pointed out, that the soil in these five containers retained a strong oder'%f the preparations until the very moment of record-taking of the experiment. O Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 - - -  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (10) Trans. 40 (In full) By: A. Antik Table 4 (P. 1.j71) Results of treatment of soil inoculated with potato nematode, with preparations of dithiecarbamic acid (in flower pots). 5 6 7 1 13 (1) Single cysts per entire bush. 043 0 CH 00 0 Number of cysts in the soil in 50g. Remarks in lkg. a) 0) 1 C E 4)+i Cd $4 4>4 0 coo 14 (9 Cd 29i P" 20 eQ p 4 4 cd +) 00 o ti -ri 4) A A, wti 0 25 Carbisoamyldimethyl of 1-3 dithiocarbamate . . . 26 Carbethoxydimethyl of 1-h dithiocarbamate . . . 27 Carbpropyloxidemethyl of 1-3 dithiocarbamate . . . 28 Carbisobutoxydimethyl of 1-10 dithiocarbamate 29 Carbisobutyloxidimethl of 1-2 dithiocarbamate . . . 30 Butyl ester of diethyl- 0 dithiocarbamic acid . 31 Ethyl ester of diethyl- Sin le dithio carbamic acid . (1) 32 Propyl ester of diethyl- dithiocarbamic acid . . 0 33 Propyl ester of dimethyl Single dithiocarbamic acid (1) 34 Lsoamyl ester of dimethyl- dithiocarbamic acid . ., 0 35 Butyl ester of dimethyl, dithiocarbamic acid . . 0 23 Ethyl ester oQ dimethyl- dithiocarbamic acid . . 0 Methyl ester oa dimethyl- dithi0-carbamic acid . I' (ystogontt type). . . , 0 Same prepared with sand (1) Control (without treatment) 10 32 38 70 1300 1400 42 23 65 1120 1300 16 33 49 1466 980 3 23 26 1686 520 13 46 59 1293 1180 Soil with 0 46 46 1640 920 strong odor of 2 31 33 11406 660 prepara- tion 0 55 55 1413 100 Same as no. 6 0 35 35 1270 700 n tt 0 26 26 1686 520 0 50 50 1740 1000 0 27 27 1706 540 0 18 18 1560 360 3 15 18 1480 420 32 53 85 1556 1700 Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 ame of preparation  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 Table 5 (474) Results of tests of "forbiat" and "Cystogea" for destruction of wheat nematode in the soil No. of Plots Poison introduc Total (in g. Arerag+e ' Inten- Infectioni siweness of infeo- tion 15,4 1.9 0.5 op. 0.2 3 7 control 101 90 891 11 10.9 9 control .100 80 80 20 20 13 75 208 201 96,,,' 7 3.9 16 75 240 240 100 0 10 100 782 180 98~ 2 1.1 11 100 177 177 100 14 125 27? 276 99a. 1 0.4 15 125 339 339 100 0 17 canj rs1 59 57 .2 3.6 20 10 198 195 9c 3 1.6 1 1?5 398 398 100 0 0 18 200 310 310 100 0 0 Im fw Iw2 1 s s ? Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (11) Trans. 463 ( In full) Bys A. Antik As to the remaining esters (no. 31,33) and the preparation of the "Cystogon" type prepared with send, their nematodocidal action epspPare to be 4 e-r- b causes there were single cyst; of the 1949 generation on roots end'~in th" soil. The reoul.ts of the experiment a given in fig. 7 and table 4. 6 .- Canion, (p. 472) Potato bushes grown in plots trMi '.? h' ?'rt_ous preparations: A - "forbiat"; B and V- preparation rio. 23; G end D "Cystogon"; 'E-control. Big. 7 Captfga (p.. 472) Potato bushes -,rorn in soil treated with esters of dithiocarbamic acid (preparations) -"3 34, 315, and 23). he extreme right is the control. Fig. 8 - Caption (p. 473) Wheat slants: left - normal, center - infect'^d with wheat nematode, right - grown in aoi1_ emn-tgm-inated with 111orbiat". As to the preparation of the "Cysto~;on" type, when prepared with kaolin, it was quite effective, the roots and soil were free of cysts of the. 1949 generation, but prepared with send it was less `. C effective since infection of roots and soil with cysts of the 1949 generation was observed. In the control containers the roots were seriously infocted by cysts - up to 10 cysts per 1 cm. of root and there was a. large amount of cysts, light-colored and brown, which contained live larvae of nematode. Control of wheat nematodes is carried out by cleaning the grain of galls by machines;, by the wet method for elimination of galls 1-:hick rise to thr surface of fluids with a heavy specific gravity, or simply water; liVcration of soil from larvae, which ren=ained in the soil when the grair. shattered, especially from the lower spikes which are not picked by the harvesting; machines, is achieved by crop rotation.; when wheat is not returned to the containirmated field before 2 3 years have passed. But it is not always possible to carry out this measure and menas "or decontmina.tion of soil have not yet been tested by anyone. Therefore t_(, a.uthorr-ested the action of "forbiat" and Cystogon" in decontaminating soil from larvae of wheat nematode. The soil was treated with "Cystoon" in doses of 150, 175, and 200 g. per lm2 and with "forbiat" in doses of 75, 100, and 125 g. per 1m2. Viable larvae of wheat nematodes, inclosed within galls with a. slightly cracked well, previously moistened were simultaneously introduced into the soil Seven days after the treatment the slots were sown with s-oring wheat of the Surkhak variety. It is mentioned in the literature (Goffart, 1941) that "Cystogont' has an effect on germination of cereals. According to our observations it appeared that the germination in treated plots is indeed retarded by 1- 2 days as compared with the control. Subsequent growing demonstrated that the condition of wheat plants in treated plots is considerabl4 better than in the control plots. This was due to the decrease damage to plant by wheat nematodes, as well Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  O O O Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (12) Trans. 163 (In full) By: A. Antik as to the lesser effect of the insect-fauna which was chased away from the plots by the odor of "forbiat" and "Cystogon". The condition of plants in the control plots was noticeably worse. During threshing the number of infected spikelets was counted. Tabl*55~ ' gives an idea of the effect of the prepara- tions "forbiat" and "Cystogon" on the degree of damage to plants by wheat nematodes. It is obvious from the data that both prep- arations decrease the percentage damage of rplants by wheat nema- todes: "forbiat" - to 0.2% with a 100-125 g. per lm?- dose (from 15% in the control), "'Cystogon" - to zero with a 150-175 g. per ]m2 dose (from 3.6% in the control). The experiment was conducted on a small scale in one-meter-plots. As a result of works carried out on testing powdered chemical preparations for control of root-knot potato and wheat nematodes, the following was established: 1. Methyl ester of dimethyl-dithiocarbamic acid manufactured as a 10% dust with kaolin ("Cystogon" type) and a 20% dust ("forbiat" type), when introduced into the soil, has undoubted nematocidal properties against gall, potato, and wheat nematodes and particularly good results are obtained from the 20% dust. 2. i 2. Though as a result of soil treatment with the prepara- tions mentioned in doses of 175-200-300 g. per lm' (10% dust) and 110-168 g. per lm2 (20% dust), under field conditions, no 100% of destruction of root-knot and potato nematodes in the soil was obtained with a single introduction, nevertheless the development of the growing mass of crops (cucumbers, potatoes) and the yield capacity increased sharply and the infection of plants by nematodes (cucumber, carrots, potatoes) decreased drastically. 3. High nematocidal properties were manifest by the ethyl, butyl, and propyl esters of the diethyl-dithiocarbamic acid in 20% dusts applied at a 150 g. per um2 dose (under,o*sr pot conditions). Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (13) Trans. 463. (In full) By: A. Antik 4. Taking into consideration the simplicity and conven- ience in the use of the tested effective preparations as compared with liquid fumigants, the dusts manufac- tured on the basis of esters of dithiocarbamic acid should be considered as having a future in agriculture for control of the potato and rtlanlst.nematode. 0 0 0 BIBLIOGRAPHY Kirianova, E. S. 1935. Nematode Diseases of Potatoes. Zasheh rast., 6, p. 86-98. Kirianova, E. S. 1941. Nematode of Grain Crops. Ils. Vysshikh Kursov Prikladnoi Aoologii i Fitopatologii. Vol. XII, NKL SSSR. L. Sveshnikova, N. N. 1948. Potato Nematode. Illustr, spray. posredit. i bol. S.-Kh. Rastenii Vneshh, Karantina. Ild. Minist. Selhsk. Khoz. SSSR, N. Sveshnikova, N. M. 1949. On Use of the " stogon" Preparation for Control of Gall Nematode. Dokl. Akad. S.-Kh. Nauk, im. Timir- iazeva. M. VIII. Sveshnikova, N. N. 1949. On Study of Basic "Heteroderosis" (? ) of Agricultural Plants in the USSR. Auto lecture of the dissertation. Ild. Tsentr. laboratorii po karantinu rastenii i Akal. S.-Kh. Nauk in. Timiriazeva, M. Selivonchik, E. V. 1938. Results and Measures Against Root-knot Nematode in Azerbaidzhan, Baku. Ustinov, A. A. 1934. Root (gall) Nematode, Sukhumi, Abgiz. Filipev, I. N. 1934. Nematodes Harmful and Useful in Agricul- ture, Selkhozgiz, M. Goffart, H. 1941. A New Measure for Control of Nematodes, tlitteil, Biolog. Reichsanstalt Land and Forstwirtshaft. H. 64. Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23 : CIA-RDP80R01426R010100030001-9 Trans. 461 (In full) Dvt A. Antik Onyt primeneniin nreparatov ditio_ Rarbaminovoi 'd sloty 4)As bor'bv s nezmtodrd-parnzitairi rast.nii Attempt of Using Dithlcoarbamio Acid Derivativee_it Vighting Nematodes which function as Plant Parasitesj. Trudy 2oologiches19go instituta Akademii Nouk SSSR, I::. no. 2, Pp 462..N750 1941. 410.9 L5u1 (In Russian) IR 'NTAL AWLICATION 07 DITH10-ARRAUIC AOID DF.RIOATIThS FOR COWI'BOi. OF P7.AN' PARASITIC N? fATODES Among the nematodes causing economic losses to national economo of C the II>SR particularly damaging aret the root-4otat, potato and wheat nematodes. Hoot-knot nematoda-Agterode_ra riont {Corns) which parasitizes roots of over 1.500 species of most diversified plants--vegetables, technical, medicinal and ornamental ,1c'ntaand some ,frutt trees,gnd., palms--denreeeee.them, deforms' the roots, Inhibits the development and decrea4es the yield. Root-Iatot nematode! It disclosed on plants by the presence of swetlinrts on roots--ails,-.which vary in jsisR from a, p! g, ? , head to-* walnut, demanding on the host plant. degree of soil contaa- ination with root-'mot nematode and other..conditious.,,,, , The females of the root-knot nematode. which are found in Smile. lay hundreds of eggs into the external surroundings. In the spring the larvae which develoned?in the egire emerge into the soil. find young plants and penetrate their roots for further development until the sexual maturity stsp-e of male and female. The root-knot nematode is distributed pred'weinantly in the South of the USSR where' in a number of localities C it makes cultivation of vegetables and other su?ceptible plants quite. impossible. Besides that, the root-knot nematode. aim it w"s found by the author (1Q0),.can Inhabit the omen ground and be harmful for non- rotated cultivation of vegetable plante?in the central belt of the US3R. The root-kept nematode is very harmful sluts iw'farm, with covered grmutd L greenhouenj. Potato nematode--HeterodOM-r" ens 4 tfo dieeovored in some points of the Baltic coast of the USSR Sveshnikova. 1948) causes great losses to potatoes deo sing the yield An eeriauely affeeted sections up to 14.-27 ge L Prams ner plant. Potato nematode parasitizes the roots of potato plants into which it penetrates in the enring during the larval Declassified and Approved For Release 2013/04/23 : CIA-RDP80R01426R010100030001-9 ''  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 O O (In full) By: A. Antic stage after hatching from eggs which hibernated in tki toil in the dead femRle..cyet. The larvae make a mae!c attack on ;'hung potato rootlets, penttatin into them they feed on plant sap, undergo a number of "Itnek" L molts, after which they reach the ste,;e of sex maturity of female and male. The harmfulness of the potato nematode is manifest in the destruction of the potato rootlets: arour4 the penetrated larvae a npcroRis of root calls takes Macao Inasmuch a'a the number of larvae in the root frequently exceeds 10 per lem., a dytig of roots takes nlare. '4any larvae are destroyed together with rnots, but the etta.c+c by larvae is reneated aeverA.l times and the plant becomes exhausted by Wanting material for regeneration of roots, the leaven develop wea'cly, they dry oat Soon and therefore the tubers forried are mall or they are not formed at all. Wheat nematode-.4 xna tritici (Steinbuch),iq a sariou. parasite of cereals, mainly of wh' Larvae of t,V.ie wher.t nemetod.e affect the plant at the beginning o' a germination; thf. Manta are dwarfed in size, the steins are this'; 6 and hncrO ^v"impecv leaves (fig. 8), With th,p.,-'ormation of the spike, the larvae infect the ovary and reach there their sex maturity atAae, After fertilization the femsles lay masses of eggs (up to 15 thousand) from which larvae hatch and undergo molts. From the ovary in affected snikee there aret formed, instead of. grain, g=11e with thick walls which, protect the larvae within the galls. Gallia con- ta.minate the seed grain and enter the soil orhere the larvae crawl out. and attack young plants. The.harmfulness of the wheat nematode is mani- feet in the fact that part of the affected plants are destroyed while young;. in mature plants the infected sviklets do not blossom, instead grain-galls are formed in them, which are filled with larvae, and in the grain gathered, from a greatly contaminated field the amount of galls might reach un to 1,000 and more ner lkg., i, e. up to 3:9 of the net grain weight. On certain farms the lose caused by the wheat nematode is quite considerable, The wheat nematode to distributed in Central Asia and in a number of southern localities of the USSR, as well as in Belo- russia; it was recorded also in Siberia (Kirianove, 1941), The author carried out experimental inoculation and obtained formation of galls near Moscow. In search for measures for decontamination of the soil of the mentioned three species of nematodes, the researchers had in mind effecting the larvae of the second stage which raim.te in the soil looking for a vlant-host, C It was suggested, as control measures against the gl1 nematode, to steam the soil un to a 60- 650 Ca temperature, at a 20.o25cm denth, as well as to an'nly a series of agromtechnical measures as, for w,anmlp, .reolowing in fields where the soils dry out, flooding of soil for long periods, error rotation with plants resistant to root-knot nematodes (Filip r. , 1914), However, in' mpny cases it is not nossibl'e to carry Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 C (3) Trars.,. 463. (In full) A4 Antik ant these measures and In some parts of the Azerbaidzhan, Crimea and Black Sea Coast of the Caucasus, the root-knot nema de j s repradueed Int nselya. According to Selivonehik9 s data (1p36) 9 O the vegetable yield an the Apsheron pealasula is partly destroyed by rootknot nenatodso Radical neasuan~a are required for their eomglste sxternina- tion ore. at any rate for a dsersaee in oontasination to a degree where grewing of vegetable -.Cwin?bitae and other crops] susceptible to negntode infections, should be possible. The opinion a dating in the literatures. that root-knot nematode does no hers under conditions of t rot. chants in particular in the central belt of the USSR ? is not eorrect, In 1944 the author observed in the Moscow obUstw a cos lets destruction of asrrot yield in a fbeaus of root-knot nematode in a garden near a fa house, ? during the third year of cultivation of garden plants: with potatoes in 1942 and 1943k and with carrots in 194+ Q The carrots vwo affected so sorely by the root-lm not nematode that the y eld was not Suitable for use (Sveshinikorrs, 1949)'* Among chemdeal control measures tested in the QS3R by A* 1., Qatinow (1934) ' effective 'weres carbon bilul ids at a dose of. 500g,,, per 1e2 and ehlrs?ropi .min at a doss of l.0G-150g.. per lay The carbon bisu fide In the indicated dose resulted, tinder conditions of SuJdsd, in 200% destruction of the root of nematodes in plots however, this prepare- ti on is poisonous, explosive mad therefore not eonvrenisnt for extensive use. Chioropieria In indicated doses is effoattiio home er, a 100% destruction of root-loot nematode, under conditions of were soil eon - taawination - in Sukht, was not obtained, therefore;, Its dose per 1ne2 has. to be ineresaed& Besides that, application of highly poisonous fluid chemicals requires use of injeaterso work with them is dangerous and has to be conducted by specifically trained people In gas moka and protective suits and due to all that the process becomes too amber- some and expensive. Therefore, the author conducted in 19454949 a test for the control of root-knot, wheat and potato nesatodes with powdered preparations su7gested by the Scientific Institute for Fertilizers and Inseoto- fun ioides ? imeni Ia.k V Samoiloy, Tested were the following deriv- ativea of dimst2>yl-dithioee beanie acid in dust form and uanufacturad - ox the.basis of: methyl ester of dimethyl - dithiocarbesie acid (10% dust, patented preparation "eystogon", similar dust of Soviet manufacture with another filler (o? "oycto " type), 20% dust on the basis of the same toxic element ("forbiatn 20% dusts of ethyl (no, 23), butyl (no, 35), isomwl (no. 34) and prop3-' (no, 33) of dietthyl - dithiooarbemie acids esters of diethyl 4 dithiocarbamic scids.th}rl (no, 31), butyl (nom 30) and propyl (nog 32) also aaenut'aactured as 20% dust 3 s Th t f th , e res o e preparations which did not show a sufficiently nemdto "9ida1 action are not mentioned here since they are indicated in the collated table 4a Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 A-.. Antik Mthodea of application were as fbllowuc in the spring the prep- bone were eeanetteraad by hid In a 183 ratio r.:i*turs with dry sand or road duet r, into adequately friable soil which rye replow ed or redug and after that the preparation was thoroughly plowed der at a 225de . depth. Part of the prspaarations, due to their aaa aaaamunte, were tested in flower pots, In the latter ease the chemicals were introduced into the soil before fininp the eontainerea, without adding sand. and they were mimd even with the entire oluija of soil. During the vork in the open air gas Meer weri not used, Rubber gloves or canvas mitt.es were used in miss the preparations with sand and in scattering them, No otter epe? safety mks are requtued. Coateat of the prepare' tion with muoou msbrane of eyOs, south and nose should be avoided0 Therefore, anoking and eating during the work was prohtbitsda - After the Vorkp faeo, hands and f'e`et (if work was done barzefboted) were washed with waters In 1946, the author conducted teats with "o itogon* against root-fit nsmtode under conditions of natural l04 of the parasite in open ground in the Moscow oblast? In an individual) weed garden (Sacshnikova, 9949) o Well parrspaured tandg- toil me-ft up with a 'shovel to a 25esn depth a than broken up with a rake. The Introduction of the preparation took pie.. on ft y Ba at a 14? Ca, air, temperat!jr and a d? C, O soil tomparature at a 20oz depth. The soil humidity constituted 17,22% when reeelcu ,atid ina absolutely dry, mill, "Cystogou" was taken at a ratio of l85ge per , ' It -a intrdnoed_ in a mixture with dry sand f+er a more uniform distribution. Its the as?Up it was scattered by hand through a soil eioa After the introduction of the preparation the soil, was again dug with a show,el and stirred with a raked The 'soil in - the control area was a altiwatead in the manner. In Urge areas it is reeo dad to introduce the preparation into the soil with a - drill for fertilisers and to finish up with a horseddrann rates. Seven days later, ioesa, on lkby l5,~ carrots of the Danvwe variety., with a few white earrots added were sown in the a rimatal beads. On fty 36Q dorsal carrot shoots (line) were observed In the treated an wasll e.s in the control area which did not differ in density or siseo Further growing was norms 1, Caretaking -, stirring up of the ground and wedding was done by the owner of the gardens On Septeteber 9, the experiment was terminated. Examination of 124 carrot roots from the treated plot disclosed on the thin ro to of 26 of t,.single galls discernable only with binocular. glasses .gnif 'ing glas (2]. 4%), , The remaining roots were absolutely frets from infection (figs, I) o The roots free from in- fection as well as the affected ones from the treated plot - were of quite *armal use and shape and suitable for food, while in 1945, the owner of the garden discarded the yield of this bed because the disease in- cidence was too g to From the control bad vmft taken 180 roots, All (100%) of the plants were entirely deformed by rootoknot n todes as Ms the ease in the Vfteeding year (figs 1) C Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (5) Trans. 463 (In full) By: A. Antik (P. 465) Fig. 1 - Caption. heft - carrot from the plot treated with "Cystogon" T/ in the dome of 18561, per Im2: right - carrot from the control plot affected with gall nematode. The second part of the experiment was conducted in heavy clay soil in another area of concentration of root-knot nemstedes in the )scow oblast?. The soil was not "mature" i.e. it did not crumble, but was compacted (humidity 19.65%) and it was not possible to break it up finely. "Cystogon" was-introduced by similar methods in n dose of 200g.. per in2, with consideration of the stickiness of the soil. The Danvers variety carrots were sowndirectly. after soil treatment in order to find out about the effect of the poison on sprouting' Germ- ination was normal - on the 15th day young growth of uniform Density was observed in the treated as well as the control area, Here the results were less successful:.of the 94 plants taken from the treated plot, 29, i.e. 30.7%, were affected. The degree ofl?ection was from 1-5 galls per plant. From the control area 60 plants were taken, of which 42; i.e. 70%, were affected. Degree.of section - from 1 to 100 galls per plant. The results of the test were undoubtedly influenced O by the soil, structure. Qn the basis of the preliminary experiment with the "Cystogon" . against root-knot nematode carried out in 1946 (Sveshnikove, 1949)9 the author decided to try out in 1948 another preparation . "forbiat" 47- for decontamination of soil from the root-knot nematode under conditions of intensive contamination which exists on the Apsheron peninsula. Prior to the author9a tests, "forbiat" was applied as an insecticide, but no one tried it as a nematocide. The experiment was conducted in Baku with the cooperation of the director of the Azerbaidzhan Quarantine laboratory, S. L. Popov and the entomologist L. I. Shapieva. Soil treat- ment was-carried out on two farms with different soils: in the village Shuveliany in sandy soil and in the Jrmenikendskii nursery of the Baku soviet - in clayey loam soil., Methods of poison introduction were similar to those for "Cystogon": digging as deep as possible. loosening of the ground and thorough mixing of the chemical with the soil. The "forbiat" was tested in doses of 70, 858 200 and 110 go per 1o The experiment was conducted during the second decade of May in three plots 5m2 in size. A week after the treatment cucumber seeds of the Chinese variety were introduced. During the growing period the control plots showed very great sparsity: in treated plots there were almost no bare spots, the plots were covered vith strong vines and produced a yield shown in table 1. O In the second part of August, the plants were dug out and records were taken of tection of their roots with roc,knot nematode. Almost all Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (6) Trans. 463 (In WI) By: A. Antik the plants were effected with it9 but to various degrees (fig. 2).. While in control plants the roata were absolutely, deferred as a result of parasitizing by the root-knot nematode,, in plants from treated plots there were considerable less galls and the higher the dose of poison the fewer galls (fig. 2). When the dosage was 100 and h10g. per l: r the ga11s apppeared singly and. were most frequently distributed at a depth of less then 20eme Numerical data of recorded stste of roots are presorted in table 1. Tab e 1 (p, 4U) Effect of soil treatment with 9?forbiate9 against-gall nematode. DDSs of "forblat" per IM2 Shuvelisny # (in .go) ve'rage ` of of infection Control eIJitut treatsaen'~ I 100 70. . . . . .85. 0 ? . 0 . , 1000 . 0 . . . 4 110. 4.4(l) 13.3 50;1 g 88.1 I 23.1 38.5 807 I (7.1 29.8 36.1 9o. 54 30.3 Aa e nikend (in kg.) root infection (in kg?) U 11.2 ~ 1 ! ! 7oe5 The tested doses of "forblat" did not entirely destroy the root-knot aematodes in the eoi1g but they gave the plants the p4 ssibility of grw. Ing normallyb In order to develop a 100% effectiveness of "forblat" an experiment was conducted In flower pots. with a clayey loam soil artificaLly inocu. lated to a high degree with mot-knot nematodes. The soil was thoroughly mixed with "forblat" in the ratio of.150D 250 and 3509- per 310 for each three pots. I)HISher percentage technique of infecM03 is caused by defletd in the agro. (At the end of the experi. went a3l the plants were destroyed) Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 C?) Trani. 463 (In full) A. Antik Radishes Caere t?-ken rs tost pL'nts. Tt,o Meeks nfter the planting, den pression of plants In control (untrerited) pots becr:.me notice bl ^nd tote. rd the middle of the second month of growing , 4 picture of better plant condition in tree ted pots as conpnred with the control ones i s npprsrent. The result of thinrtIorn of plant roots tyre in table 2. Y ANA u67) Results of soil trertmornt with "forbiat" o.gainst gall newtode (flower pots) Dose per 1212 (in go ) Total numberwnb' of of plants effected plants % of infection Control (without trez t. sent) 3,509 O , . 2500 . c 0 v . 3509 O . . 09 25 25 25 25 goo .Thus it liras established the.t the effectiveness of the preparation depends on the degree of soil oontaminrtien and on the dose, Inds mainly, on the thoroughness in miadng the preparation with the soil, (P, 467) Z+ C ntt. Roots of cucumbers from plots trerted- with "forbi~it". From left to right: control, "forbi.'t" in doses: 0 85, 100 and I10g. per ]m2. On the basis of our works 'which deatonstrcted high nematocidt^l properties of prepnratians of dithioc."rbGmic acid,. in 1909 p test.. wnS co nctucted with a Crider nssortms nt apstnst potato nemrntode which possesses . a higher resistance Pgsi?nst unf. vgrnbl a conditions of the envlremento According to drta in the ltternturea its cysts can remain viable in. the soil. up to- 10 years. Up to recent years the potF' o nensstode stn not knotxr in the USSR,. therefore, prior to our reseerch, - none wns conducted. The experiments taere conducted on the Bzse of the.I.thunnian Qusrarntine Inspection with the cooperation of the agroncm st E. S. Mfkhnovs. 1 Intensiveness of ivoMan 0 l gall per entire plant.- Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9  (8) Trans., 46'1 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 0 By: A. /intik The folladng preparations were tested under field conditions: 10` dust of the "Gystegon" type (methyl ester) in doses of 200 and 300g. per 1111? , 20; dust of the "forbiz t" type In doses of 163g0 per )ia2 -nd ethyl ester (preparations' no. 23) in doses of 100 and 185g, per 1m2. Soil contamin^tion reached up to 2500 cysts of nem'ntodes per kg. of soil.. Prep ration of the "Cy9togon?type inns tested In plots of 100~A preparation no. 23 ind "forbiat" in 15 plots, de. pending on the amount of chemicals. It w s possible to establish during the process of potato development that the pl`hnts? germination did not suffer fran the effects of the preparations being tested, with the exception of a 300g. dose per lm2 of prep ration of the."Cystogon." type which somewhat inhibited germination, though within the potatt norm. The effect of deoontemino tton of soil with preparations urns elearly expressed in the exterior aspect of the leaves, which looked quite norm.-1 in treated plots (fig. 3, 4, 5 nd 6). The yield of plants in treated plots %", 4.10 times heavier than in the control plots, It should be pointed out th t these d.=ta part.-in to the l$th of August, when the yield did not yet correspond to the norni and besides that tags intentie+ea.lly witted manuring, in order to denonstrnte none clearly the influence of pL'nt decont.'in nati on from potato nematodes', The results of the trentanent are shotim in trble 3. (P. 468) O ML 'I .. Cant& , Plot naturally cont,?minated with potato nematodes= In the background soil treated with prop,., ation no. 23 in the dosage of 100g, per ]m2, Table (P. 469) Results of soil treatment with esters of dithiocarbomic acid for control of potato nem'todeso Name of Dose per Iui2 Average height of prepara-.tion tin g,) bushes (in cm.) Ethyl ester (no, 23) 20% dust. 100 26 sMso , . , 185 32 Methyl ester 20% dust "forbizit" . 168 51 Methyl ester - i0%A dust. . 200 27 Srne. . . . 300 39 Control. . ih out 14 0 L at~ t 79 57 52 108 59 36 141 68 110 70 40 113 60 36 11.5 18 100 Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9 (9) - , 241= ? Plate treated with 6'Cy togoe dosage of 203 0 per 3a2m D=Lge to p3ante folio treatment''with "forbia t used 9A as following trpata nt 4idth T ation no0 23 in a 10 0 dose so ! and no. 23 in a 185g, dose - 9 as compared with than control, whom :LOG ar, to bushes were aff to a?.high, de 0 The prior aspect' of the plants and the yield are prosented in fig, 6, The rein 3.2 @ store of dithl am c acid ( table 4) obtained in a oumto not exceeding 1o0ge therefore t6ste of theca were carried out In flower pots (three tixesss) and the natural conntamin. ation of wail was 1200-1700 cysts per I kg. The soil ws troaatc d with dust In he ratio of 150g0 per 3m2e Two days weer trsoat ent potato tuhara of the ?VVI et a, etyy about 100g0 in weight whioh i taken from a farm f' t ri ;,otato ne xtodoa were meted in all the e shiners and t: re placed on racks In a gree h:ruso with a roof of wire O sans idea under e3,irntie conditions of open ground in Vida they were held there until the ant of record..taaking at the and experl. eny0 Potato shoots were noticed on the 34-24th &7z, i0e0 within the nom for t1, is aropa though the control containors shoots i-rers olnerved on the 11?13th slay. Further on a certain e iference In do.. velop ont was obsar 5 in pots vaith soil treated with chemicals* the gm of bushes was more Powerful and on Ju3,7- l3, budding. stuaartods in the control containers the plants were weaker, shorter, they did not blossom and towards the middle of Jts2;T began wilting and dropp a$ lo-uer leaveot It is seen from table 4, that preparctiona no, 2529 had no decenta ting effects there ware cysts of potato a todo . 1 0. 10 per lcao,of root9 ice, up to a degree of affection observed in the control. In the soil there weres besides the brouu, also uliite cysts of the 1949 generation, (P047o) 7 sa ~? ~'~ treated with "forbl t" In dosage of f per a Estew of carbanic acid no. 30, 328 34a 35 and 23 ba'e en undo ebted ly nertar eida1 effect* they- freed the roots cone etelyy fron cysts. Therefore, the potato Heterodera did not develop in these containers dwing the f url ' nerir 4 . Absent from the soil also were liCht.colored its of the 1919 ' generatf ono AI, the mm tires it should be pointed out, that the soil in t' `:ese five containers retained a strong od?r caf' ` the PrOp ratioaas unt~31 the very } ioorit of record taktdng of t . ho epori pntt, Declassified and Approved For Release 2013/04/23: CIA-RDP80RO1426RO10100030001-9  Declassified and Approved For Release 2013/04/23: CIA-RDP80R01426R010100030001-9 (10) bwi8 a 483 (1ii ) ByA AAnUk Table 4 (P"7 Isn) Results of t a ct of can i a t with pout* tad ? WCA prepant of dit nv s a E Q i M lo$r POW. 13 of 25 CarbiseWldizesthyl of 1?