SCIENTIFIC ABSTRACT KATALAN-GATEVA, SH. - KATAMADZE, E. I.

KLTALU;.r,A 312, MV-42-- Ecologic analysis of the numtodo-Sauna of cultivated and wild plants in the Thracian Valleyo, Godiahnik biol 54/55 n0.1:157-169 059/60-060/61 (Publ. 762). it  KATALAN-GATLTA, Sh. Konstantin Ivanovich Skriabin at 85. Prir i znanie 17 no. 2: 19-20 F 164.  .KATALkYN7 A A.; ABDULLAM, ,S.Gs-, kand. esellskokhoss. mailk; vit R44MIKUVvy JL,V,,, otarattiy nauchnyy sotrudnik Zffectivenese of isyatumtIO preparations in orchards. Zashch. rast. ot vred. i bol. 7 no.'100-27-28 0 162. (MM 16:6) 1. Kubineldy plodovyr sovkhoz No. 12 1 Azerbayfthanakaya atentoiya Vsesoyuzn6k6 institute, zashchity rasteniy. 2. Glavnyy agronom Kubinskogo' plodovogo sovkhoza No. 12 (for Katalayev). (Ar 'erbaijan-Frait-Diseases and pests) (Insecticides)  AAM, Karoly; KATALIN, Petrucz Studios on the pathogenicand nbutral film on the tooth examined by biosynthetic methods. Kiserl. 6rvostud. 24 no.1:56-61 Mr 162. l.- Budapesti Orvostudomanyi Egyatem Sza sebeszeti Klinikaja. (DMAL CARIES) A i  L -3214946 ACC N;h . AT6023525 SOURCE COM : HU/2505/65/027/002/ 0119JOIZ3 AUTHOR: Porszasz, J s-Porsas, Ya.; DArgakaX,_TArv_-Barankai, T.; P_a~~~ Gibiszer-__.X /? Dwin jibiser-For5as. K. ORG: Institute of Pbysiology, Medical University of SzezRd (Szogedi OrvostudonaV Egptem, Elettani Intozet); Department of Stomatology, Medical University of Szeged (Szogedi Orvostudomanyl Egyotom Fogaszati 1clinika); Institute of Pharmacodynamics, Medical University'of Szeged (Szogedi Orvoutudomanyi Egyotom, Gyogyszerhatastani Inuzet) TITLEt Studies of the neural connection between the hypothalanio doproasor and vaso- depressor &"as in the cat SOURCE: Academia soientiarum hungaricao. Acta physiologica, v6 27, no* 2, 1965,119-323 TOPIC TAGS: neurology, cat, nervous system, blood pressure, reflex activity ABSTRACT: The neural connection between the hypothalamic depressor area and tho vaso. depressor area of the medulla oblongata has boon studied in the cat* It was found that tho,fall in blood pressure, evolmd by hypothalamic stimilation, failed to develo] after dorso-ventral division of the medulla oblongata, at the height of the facial cranial nerve, over a width of 2-3 m on both sides of the center line* Transection of this kind does not impair the effect of hypothalamic pressor impulses nor does it paralyze the vasonotor center. Presumably, there is a direct neural connection be- tween the hypothalamic depressor area and the vasodeprossor area of the medulla oblon gata. It is suggested that the depressor area constitutes a vasodeproar-or reflex cen, ter which receives impulses both from the periphery and from the ighor nervous contors. Orig. art. has: 4 fiml ose Ag* art. in Eng_. )S SUB COME: 06 SUBm DATE, i0iairy64 ? ORIG RE F: 002 OTH REF: 004 Card 1/1 L 1, 1  MTOYANTS, 1h.S.; KATALIH, R6zha Inzymatic and chemical foundation of taste sensitivity [with summa17 In Xnglishl. Blofifika 3 no.6:689-692 158. (MIRA 12:1) 1. Biologo-poehvennyy fakulltat Mookovskego gosudarstvennogo uni- veroit3ta im. M.V. Lomonosova. (TAS4. physiol. enzymatic mechanism (Rue)) (MMYM, physiol, In taste sensitivity (Rue))  KATALIN, Sholl, [Y-ut.ulln, .;0-1] Some problems of the epidamio' ;gy of hfpi~titiq in the llunlgaritn PeOPI.Q.'s Republic. Vop.med.vir-a.-i. no.913.23-331 164. (MJRA 18:4) 1. Gosudarstvennyy institut zdravo(J-,hraw.,.rAya, Budayvsht, vaiigrlyaa  ii'LUILM. 4--Z, KATAL11al T.,, What we should !mow --'bDut pIrylloxcrzI (Phylloy-cra vitifoai litec%. -p.12~ I . Vol. S: no. 8, Alvist 1.055 Tirane, AD)an:-La P~VuR SO: I-Ionthly List of East European Accessions, MaL)., Lc , Vol. 5., No - 10.t Oct. 1956  KATALrh,rc,, A.- KATALTNICI-A.., SMTANOV, D. "Maneuvers with the assistance of the pharmaceutic branch of the asnitary services" Vojni, Glannik, Beograd, Vol 7., No 109, Oct 1953,, p. 70 SO: Eastern European Accessions List., Vol 3j, No 10., Oct 1954, Lib. of Congress  KATALINIC, Aleksandar Development of pharmaceutical service in the National Liberation War of Yugoslavia. Voj san pregl 11 no.1/2: Ja-F 154. (ERA 3:7) (Y"BXACY - *7ugosI., develop. during partisan war)  WALTITIC, H. "Vaccination a~;a~st F. & M# disease in Yupo. 'I BUll. Aff. Int. EPIz. 39, 175-179  TI! .10, Hrvojc "The Combat Against the Foot &- Moilth Disease in Yugo." XV Intt,,rnat'l Vet. Convrss, Stockholm, 1953  KATALDTIC, Hrvoje (Dr.) "About the Factors Influencinc, the Chmlity of Hyperlj-.,~=,e Sera in gencral, & the Pig Er-ysi-oelas Semn in Particular." Director of the Vot. Lab., Bitolj I. Dr- Hryoje Kataji3jip - chief of the sera dept., Semm Inst. at Kalinovica, near Zagreb. Vet; I -49-4S, 1934  KOCANOVSKU [Kochanovskiyl, kand.tehn. tauka; FEDER, inzenjer; KATLER, S.M., kand.telm.nauka- KATALIVIC-UDOVCIC PaLma prof. (Zagreb) Welding with electric are which is rotating in magnetic field* ZavarivanJe 4 no.7:138-W S 161. 1. Visoka tehnicka skola u Zagrebu, Zagreb (for Katalinic- Udovoic).  11 F12 - aft VALMAN (3 ppj ow &0A Jam-we AL tMalwl CL&,Wxsym goo- IT'hail-" lowlav s4saika OAF tmv 481 sumn w c assill at e"T 04 oil u 0 a F 0 w I IF a 2 a 1 3 1 a AV to p 't it Al a* is I 'A I 1 6, 9-0-"O-ov goo* 90 W9 0-909~rffl 9000** 000 604 as 9 0 0 0 0-00,0*0 see owe 400 goo L4 0 as* we* zoo too  ~A 2nli--#,v inwi-, ist's 00twevilus -Div 4, 100 09 ~00 00 *00 00 00-4 A. VWdkbrmIv, 00 p"ft dad amb in i iwt% Pee%% .Ovkw Ito tum ar" hi \,Far,;.-J6W, 1, W72(19W~l ~S-tu w am anbic -00 towAm =. O't"m Ow t7 Nt 10% stim. M., 6.68 fOr 51 06;. :1 "m rectin kwos. tt- "1". 400 00 a SpAlt bt NONT twin Go Sum coo 1*0 00 3 09. go 0 00 wo 0 moo Al 00 zoo a too ILA- OCTALLUR AL UNMAN*# CLASSWICATOM bi~ -ie-O"s -A 6113461) map a4v 441 allill 831111 am 0". Ito al *~7 ; 1-1 a -1i a * a 7 w N 9 a 4 3 1 v a," - all w a It a aa in " 1~ 0000:6e0000909000000 4~000004pqooooo  4-0 too a 00*0600 0066111, 4;87 toll$* Ps I is it v is to is * it is it a it a '0 x a A I? a !loll Dumb AlOxxxv 4W a 'W a N 0 it- 1--L-11 A y VD U'~L__]'_ d-.-#- J_.~l .49 ~ ~711 A 00 J: vy*%"&lvd too fortafs"Oubw A-- Two drops of the inixt. ar~ Inlroduced Into a rholary lube retalk , 00 and after 24 ful, the lubet with Its up1wr end 6vL%I with a 00 a I M.-M 1 7: _06 i" loaf 1037 1.31 3.- avalkVI rulawr cap, to MillwHil"I lua beaker of watrf vijuippr4 with 00-4 F; Isis loult "WW'k% 11111bi; luntInvas and not tuelt obovv Slurry cuut the voice Warium. Nithins begins, when the '00 37'. In addtl. to"!c"no tat. hard fell Conts. paraffin fat l"ini to dow, out anti keolupirtr when that fvniainins 6 we R1.0 to 1* A suitaMe nikil. rautgilw .14) 1.40 In the capillary to tran,pturnt. c2l) A capillary tube I 11 held fat tit. 40. M parts ha"I fat tn. U 1, a 's lilt". In dial". and 10 4,111. Ittils i% fat" with thr fat nil .00 90 nWI the hillowinit rrquitirsurnin. They niust 1w white to dels. the alluatli'll tit litelling. (1) Whr a 2.j. littlet hibi Yellow tit rillsr, txkvkxo, lit a ikn*, trial4v 6xims. tit the tat Is PlAtvd tit & ik-tillet watitied in a 3'., W thefl[tkl- xronvus ronx6tency, tit. not behor W5' nor abwn 37". stat. it Lbould tit. In .1,0 inin. j2) A twahrf is filled with A 2-if. IvIiet muot sit. nsmisklely to give a rkw hquilf In 0 flat ACMU (it thin At wire (5 cut. front the bottoon) 0 3-anlill.stre-8'. Whe'Dwertnedto40"tbetatinumbe thmush which pamies a thermometer anal stirrer. The 0 -parent and no ppt . tnust forns within an water is rustintalued at 37-8- 1"1 the tiffw rmjuired tat a 0 completely trals., * hr. t;apnn. no. should lit Mr-N,A10. *0 dilattl4l be 1.4M. ff. JWDCI .4 fat lit It1w, Ild*x th,ouh tbe4cr"In jLn4 00 LOU. HO lit) Ill 0.1%; n41 lilt to (13,%%- the pure fill flital oil the suda(T 14 thr Witter in taLro *M tw little Of 0 66 thivId contain lit) unoallunifiablot, viusitri (u~" paraft Is fusion. For the dvin. of hiudum in wt. units &I% &pp. 41 uftA); I sm. not lem then tk) am Toole than 86i Ni con. is wed by wit" the wt. required to cut thro4h a thin 00 tent not tnom than 5 tus. pre kx.; PC ady oi tram.. anti acid no. blot fficater than I ruff. The some require- Qab itt the fat of (Irlinile m2e lit adctittile tinte Ill obtained. Ments Apply to Inixts. of hard fats and patuflits, Twn W. A. Mwm n*tbM* air SiVrit 1"r df1g. the In. PL 911 PuCh a OU111. (1) J '00 ir All 61141 .11 oll is( 0 Z-a& U &V 90 it 1 '14 All I % v 00 tj M 1 is IM 1 41 0 0 0 0 0 0 0 0 e 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 a, 0 io ****go 4 **go 0 0 O's 0 4) io *,be 0 0 * 0 * 0 9 0 0 0 0 0 of 0  A Co's A A17, CA W oisbanis Wkm qpsaoy ary go the 000 t ria. i. :0"1090).-As 984ik-water emblom ban which drks quickly W is reaft washed off with watcr omtain, lurbkm a I test 10 starch 13.73 ZnO 16.3 1** 11 ' ' Oycaol oil (R Pbom 23.5 &w ~Q. water ii!;: It is a suitable vddc1sg'1WXVWI?* MC14,. kbUtYal ad and mct~ other " modkil. w(k CintxWnts with thi. goo, 004 base protect aplast task pus end other hatards. =00 ji~i K Satith 00.3 0ou 00 a too Qoo' see Wo uoo.-, too, 'LBO. $111103JI. - 10* W#j A F 0'" Oft 4311110st OAV &21 is T u A, so "I; Is 040 0 9 00 16100000 0000 0 0 0 0 a a 0 slog* *1 00 0 0 0 0 0 0 0 0 i 0.0 0 0 0 0 0000 0 0 0 0 00 0900 00 0 000 0000 0 0 WIWI 1, . . . . . . . . . .. .....  VOLITOVA, Ii. 1. , TATNuwMR6--a6&-p dfarmatsevticheakikh nauk, - --- *Technoloa of drug forms" by P.E. Rozenteveig. Apt.delo 7 no.3:87-92 My-Je '58 (MIRA 11:7) (PHARMACY)  - KATALKIN. P. Their instruction obscures facts. Fin. SSSR 23 no.3:81-82 Mr 162. (YJRA 15:3) (Construction industry--Accounting) f  KATALINIKOV I. (g.Leningrad) Collection of problems on planning ("Collection of problems on planning managerial operations :Ln commerce" by V.V.Wbovikov. Reviewed by I.Eatallnikov). 5ov.torg. 33 no.6;64-65 Je 160. (MM 13-7) (Gommerce--F!roblems, exercisee, ate.) (lobovikov, V.V.)  15 DOF KATALI* IKOV, !G';tkTIY YL ' UICTI 1 750-012 .xi t'TATMIKA, SOVETSKQY'T'3PG0VLI L:-.~M- TISTICS OF SOVIET TRADJ MOSEVA. GOSTORGIZDAT, 195?- 138 P- TABLES-  ~Ov KIRAKOZOVA, N.Sh.., red.; LYUDSKOV, B.P., red*; HEDRISH, D,H,q tekhn. red. (Statistics of Soviet commerce] Statistika novetskoi torgovli. Moskvap Gostorgizdat, 1962. 198 p. (MIRA 15:6) (Russia-Commerce)  ANDREYEVi B.M.~, BOR&SIM.- G-K-; XATWNIKOV. S.Gw Two-temperatura. method Of BsParati0n, Of iOnO in a fi%ed ion,- exchanger bed. Rhimeprome no*6089-393 Je l6l. (NnA 1/+ s 6) (Ion ex0hange)  S/089/61/011/003/006/013 B102/B138 AUTHORS: Katallnikov, S. G., Andreyev, B. M, TITLE: Separation factor of lithium isotopag in vacuum distillation PERIODICAL: Atomnaya energiya, v. 11, no. 3, 1961, 240-.24L TEXT: The lithium separation factors were determined by vacuum distilla- tion using the Rayleigh formula, Distillation tock place in an electrically heated, evacuated stainless steel szill.. Temperature was measured by Chromel-Alumel thermocouples and regulated with an ac-.,.,r..v.,-y of t5oC. Pressure was not measured in the still. 'The abaoluTe isotcpp composition was measured with an accuracy of Z0,03-0-04 %,. Three sells cf measurements were made: at 543, 469 ' and 4061C (with oorresponding lithium-saturated vapor pressures- 10-4, jo,3, and 10'2 mm ffg), A comparison of the mean free paths X and the distances d between the evaporation surfaces (of, Table) showed that in all caEes distillation took place in the molecular to equilibrium tranefcrmation range. For this transitional region the separation factor ~:azi be determined by th- Card 1/3  5/089/61/011/003/006/013 Separation factor of lithium...., 31,02/BI38 following formula: A .2X 2e -,a 2/Mj I atrans ap f N'M F+(1-F)(2e_ --e ) A M1 and M2 are the masses of the isotopes to 'be separated, e is the -K 2 proportion of molecules reaching the condenaer withou* 3ollision, (e -4-11) is the proportion of molecules reaching the condenser after the first collision, F is the ratio of the condensation surface to the Total evaporation and cordennation surface, and a -po/po is the ratio between p 1 2 the saturated vapor pressures of the componants to be separated. The u formula shows that ihe separation factor is also dependent upon zhe m'Lx-.ua1 position and magnitude of the evaporation and condensation surfaces. In case of Kl-'3, the measured values agree well with the curve drawn on the basis of the above equation.. It had been assum?d fcr this case thatK.d/x. P was found to be almost 0.2. These results agree quite well. with 1hoss from Refs. 6 and 9 (see below).. G. K,, Boreskov is thanked for interest and assistance. There are 3 figures, I table, and 13 references: 3 Soviet and 10 non-Soviet. The three references to English-language publications read Card 2/3  B/069/61/011/003/006/013 Separation fac tor of lithium. ~* B102/B138 as follows: Ref. 4: K. Kell ey. US Bur. M ines Bu lletin, 383 (1935) j Ref.6 G. Burrows. Tr ans. Inst. Chem . . Ingreog ~_29 23 (19 54)1 Ref. 9: Trauger et al. Proceed ingi of the Int ernational Sy mposium on Isotope Separation. North Holland Publishing Co., Amsterdam, 1 957, P. 350. SUBMITTEDt J anuary 30, 1961 Legend to the table: (1) Evaporation temp erature 1 (2) residual gas prea6m mm Hg; (3) weighed lithium portiong grams, (4) Li residue after evapoyation, grams; (5). evap oration r ate" g/ hr (ova por9tio n area: 177 cm2) ; (6) Lib content : in the reviduel % (standard : 7- 39 % of Lib) ; (7) separation factor; (8)' d;. (9) PaOCT011HUS TeMBOO&TYPA 3arpyalia OCT11TOH J1 11txF1 CROPOOTb COAe In Till' R - e W n O M A Y - ft all Run, ason. lllTqR, Gene 11110 D OCTaT- oaftuttlienT paluleacluln x r u c n xv it o cp licilappint" coo Ruoro nPocerl Am PM. Cm. nape* UC % H HOURORCA. CA' ) Hill? ititil (d). 0) 543 543 ' 1-10-3 3 1-10- 10-2 1 M.2 134,6 6- -110 9.5 14,4 68 0 7;7 fS 0 10:0 6,02 0 96 6:4t 1,020�0,002 1 :(0 0,002 1 0 002 6 5 6:5 6 5 1,60 1.60 1 60 543 469 . 3.10-3 -3 , 51,2 , 0.85 44 1,27 1 56 6,5t 7 6 I , f 0 1 0,002 00 0 , 7,5. 7 5 , 9,48 14 3 469 2.10 47 '2 0, , . . , 2 , , 406 tAO--- 22,4 3.9i 0,3080*0 0,72 1,060- FO,002 5,30 Card 3/3  21410 S/089/61/011/006/006/014 B102/B138 AUTHORSs -Katallnikov S. G., Revin, V. A., Andreyev, B. M., Minayev, V ~ TlTLE: Determination of the separation factor for lithium isotopes in ion exchange PERIODICAL: Atomnaya energiya, v. 11, no. 6, 1961, 528 - 532 TEXT: Isotope separation factor a is determined in the exchange of UOH and LiCl solutions of various concentrations with the cation-exchange resins CbC (SBS) and ~3-2 (KU-2), and with Dowex-50. The characteristic parameters of the ion exchangers were first determined, then a was found graphically from the difference in equilibrium concentrations. The greatest difference in equilibrium concentration occurs if the prepara- tions are isotope-enriched up to 50f;,. In single-stage experiments, L16 in the hydroxide solution was enriched to 48~4o, which produced a con- centration difference of about 0.25(a-1). Table 2 shows the results with 1N UOH solution, Table 3 those with 1 and 5N LiCl (single-stage enrich- men4 The selective properties of the ion-exchange resins investigated are discussed in detail with respect to concentration in divinyl benzene Card 1/0 1-4,  21410 S/Ov/61/011/006/006/014 Determination of the... B102 B138 E and distribution factor K Li. Conclusions: (1) Isotope exchange between SBS, KU-2 and Dowex-50 on the one side, agd UOH and LiCl solutions on the other, produced an accumulation of Li in the cation exchanger and of U7 in the solution. a depends on the type of exchanger. (2) Within the limits of error a was the same for Li ion exchange in LiCl and LiOH solutions. In 1-5N LiCl solutions, a does not depend on concentration. (3) The distribution constants for Lj4_H1 systems and a are interrelated~ The cation exchan er with the least affinity to lithium has the greatest (x~ A similar KH.N~ dependence was found for cation exchangers for which Li the distribution coefficient depends onthe.mDlarfraationof 1i in the exchanger (Dowex-50). For SBS, a - f(log KH ~. The authors thank Prcfessor Li/ G. K. Boreskiy for his interest. 0. M. Panchenkov is mentioned (G. M. Panchenkov et al., Atomnaya energiyal t. 7, vyp. 6, 556, 1959). There are 2 figures, 3 tables, and 13 references; 4 Soviet and 9 non- Soviet. The four most recent references to English-language publications read as follows: F. Menes, E. Saito, E. Roth, Proceedings of the Inter- national Symposium on Isotope Separation, p. 227, Vorth-Holland Publishing Card 2/0  22140 S/09/61/0 1 Determination of the ... B-102/B138 Co., Amsterdam, 1958; D. Lee, G. Begun. J. Amer. ChEM. SOC. 81, 110- 10, 2332 (1959 ; R. Betts, V4. Harris., M. Stevenson. Canad. J. C-hem. No. 1, 65 ~1956); D. Lee, J. Phys. Chem., 64, 137 (196o). SUBMITTEDi January 30, 1961 Legend to Tabl(- 2: (1) Cation exchanger; (2) No. of experiment; (3) amean; (4) temperature, Table 3. Li isotope exchange between SBS (5) and LiCl solution. Legendi (1) Number of experiment; (2) Li concentration observed, - g-equiv./literj (3) LiCl equilibrium concentration, g-equiv./liter; (4) fraction of Li in the cationite s FiLi/(RLi + RH). Card 3/0  KATALINIKOV, S.G.; REVIM, V.A,; ANDREYEV, B.M.; PROKOPETS., V.Ye. Determination of heightp equivalent to the theoretical plate in countercurrent ion exchange., Zhur. prikl, khim, 34 no, 12:2669-2674 D 161. (MIM 15:1) l* Moskovskiy khimiko-tokhnologicheskiy institut imeni. D.I. Mendeleyeva. (Ion exchange)  S/076/61/035/006/004/013 B127/B203 AUTHORS: Boreskov, G. K. and Katallnikov, S. G. TITLE: Graphical method for determining the coefficient of isotope separation in stepwise compression of the mixture to be separated PERIODICAL: Zhurnal fizicheskoy khimii, v. 35, no. 6, 1961, 1240 - 1245 TEXT: The separation coefficient tx of Rayleigh's formula was graphically determined. The individual process of separation is described by the Y('-X) equilibrium formula c< = Yo(1-y) (5) and the materialbalance formula Yo = 9x + (I - 9)y (6). 1, 9 and (1 9) are the numbers of moles of Che substance to be separated in the initial, exhausted, and concentrated flow, respectively. 11, = Z is the reduction of the flow of substance during separat ion. y 0 , x, y are the molar parts of the isotope to be concentrated Card 116  S/076/61,/035/Oo6/oO4/013 Graphical method for determining... B127/B203 in the respective flows. The joint solution of the balance equation and the equilibrium equation determines the concentrations x i and yi in the ex- haU3ted and concentrated flow of the individual steps of separation, For the graphical determination, the straight line corresponding to Eq. (5), as well as Eq. (6) transformed with Z = -, are plotted in a coordinate system. The tangent of the angle of inclination of this straight line indicates the reduction offlow of the given step. The intersection of the straight line yi = (1 - Z,)x, + Z,yi_l with the diagonal y = x indicates the concentration of the respective isotope in the respective step. The equilibrium curve and the diagonal y = x were plotted in the coordinates (y isotopic concentration in the concentrated part plotted on the ordinate, x concentration of -the same isotope in the exhausted part plotted on the abscissa).. From the point of the diagonal where y = Y r a straight line with the inclination (I - Zj) is drawn to the x-axi s. 0The intersection with the equilibrium curve indicates the concentration of the isotope in the first stpp of separation. From this intersection, a parallel is drawn to the abscissa as far as the intersection with the diagonal. A straight line, Card 2/6  S/076/61/035/006/004/013 GraDhical method for determining... B127 B203 tangent (1 - z is passed through the new intersection as far asthe !D 2)' intersection with the equilibrium curve, Figs. 1 and 2 show this on the elxample of isotopic exchange between BF and the BF -anisole complex. It 3 3 is shown that the graphical determination permits a calculation of the ioss of partially concentrated products. The amount of loss must be*entered in the corresponding quantity Z For determining the separation coefficient,, i* 0 . Oetermined by Ra the method is first conducted with the value(.\ I yleigh's formula. This hypothetical value c,~ is then plotted on the abscissa, and- the end concentration y I graphically-predetermiried for this value, on the n ordinate. The intersection of the ordinate y with the curve obtained determines the required valuecy. The optimum distribution of substance reduction over the indiv-idual steps is calculated. In small intervals, the eauilibrium curve can be substituted by the straight line y ax + b (10). T~e value x calculated-from Eq; (10) and (6) giver, Yj M z - (z - 1 yl-b '(11) 1y0 1 a Card 3/6  fj S/076/61/035/006/004/013. Graphical method for determining... B127/B203 The same is made with the second step. Thus, Y2 =Za*yo + Zab + Zb + b (d 1) b (Z1 + Z/72) (14) Z + (7,1 + Z/Zj) (a 1) + (a - 1)z .This equation is differentiated; it yields Z 2 = tP and confirms that Z z 2 1 20 The authors refer to a paper by G. M. Panchenkov et al. (Zh. fiz. khimii, 31Y 19511 1957)t as well as by Ye. 1*,. Kuznetsova, A. V. Makarov, G. M. Panchenkov (Zh. fiz. khimii, _~2, 2641, 1958). There are 4 figures and 9 references: 3 Soviet-bloc and 6 non-Soviet-bloc. The three most imDortant references t6 English-language publications.read as follows: T. Y. Taylor, H. C. Urey, J. Chem. Phys., 6, 429, 1939, A. A-Palko at al., J. Chem. rhys. 28, 211, 1958; ibid., ?.P, 1187, 1959- ASSOCIATION: Nlookovskiy khimiko-tekhnologicheskiy institut im. D. I., Yendeleyleva (imoscow institut of Chemical Technology imeni D. I. Mendeleyev) SUB7,11TTED: September 9, 1959. .Card 416  KATAL I MKOV, S. G. ; PROKOPETS, V. Ye. Effect of temperature on the ion',e.xchange eqiiilibrium of lithim -and a=onium. Izv.vyouebeb.zav.- khim.i khim.tokh-. 4 no.5:772-774 161. (MM 14:11) 1. Moskovokiy khimiko-tekhnologichaskiy institut imeni Mendele7eva, kafedra tekhnologii razdeleni7a i primeneniya izotopov. (Lithium,) (Amnonium compounds) (Ion exchange)  KATALINIKOV, S.G.; REVIN, V.A.; ANDREPEV, B.M.; MINAYEV, V.A. - Determining the separation coefficients for lithium isotopes in ion exchange. Atom. energ. 11 no.6:528-532 D 161. (MIRA 14:11) (Lithium--Isotopes) (Isotope separation) (Ion exchange)  SAPIR, A,.D.; BIRYUKOV, N.,,D.; FROLOVA, Z.N.; JEGIIIA~ V.R.; SIRWA1,70VA, II.V,; !jVL'IIER1lJ'lTIh'O1I!i, BLITIOVA, R.V. &xchange of experience. Zav,lab. 26 no.6:670-671 162. 15:5) Chelyablnsldy metall'urgicheskiy zarod (for Sapir). 2. Imtitut neorganicheskoy khLmi Sibirskogo otdeleniya Ali SSSR (Ifor Bi.ryukor), ". Moskavskiy khimiko-tekhno- logi,.,;heskiy inatitut. Mendeleyeva (for Katalln~.kov, Rrolova) . (Chemistryt Analyti,:t~.-J.)  KATALINIKOVI S.G.; SHLYAPNIKOV, S.V. Calculating the equilibrium constants of isotopic exchange between water and hydrogen sulfide. Zhur. fiz. khim.. 36 no.W53-855 Ap 162. (MIRA 15:6) 1, Moskovskiy khimiko-tekhnologicheskiy institut imeni D.I.Mendeloyeva. (Hydrogen sulfide) (Chemical reactions)  r! rl F1 11 "I    i:A f,I - i n pu i a t u a - o ---. L~, ~i a et -P 1% r., - ~m, p1 o 7c CN  KATPJ,'N-TKOV? S~G.; GUN C-10II-TSIN' [Yung Chih-chlinj IBotope equilibrium in the systemo BF~ - f1r. oomploms with ethyl acetate and ethyl propionate. Zhur. ?.,iz. kt)-.,T,. 39 no.6.7 1393-1398 Je MNI, IS.11) L Voskovskiy kham1kn-tekhr-ologicheskiy AnitL'.uL Mendoleyeva. I'lubmitted Feb. 4, N64.  ,L 41040-66 T(m)/EWP(j) JW/J'tiD/RM NR _076VOT66_162 _34570jWC ACC -,AP6013732 SOU.RC E CODE: -676&70 AUTHOR: Katallnikov, S. G.; Paramonov, R. M.; Kapustin, 1. A. ORG: none TITLE: Boron isotop separation using the C6115OC5H5'DF3-BF3 system 11 - q SOURCE: Atomnaya energiya, v. 20, no. 4, 1966, 345-346 TOPIC TAGS: isotope separation, boron, boron compound ABSTRACT: The authors determine the separation constant a by single isotopic equilibration, which comprised mixing for 6 hr a liquid phase In contact with the gaseous phase, and sub- sequent mass spectrometric analysis of the probe mW the standard on an KV-2302 mass spec- trometer. The results are shown in Table 1. N 1/2 UDC: 621.039.32:621.039.322.3:546.27  L 41040-66 ACC NRI AP6013732 Table 1. Boron isotope separation constant (with an average dispersion of 0. 0015) Temperature, OC aver 5 1.046 15 1.044 25 1.042 .35 1.038 Using an experimental glass model, a study was made of the behavior of the C6H5OC2H5*BF3 BF3 system during extended operation with thermal flow reversal at the ends of the column. The results show that the Isotope exchange based on the phenetole complex, rather than on the chemical exchange distillation of the. BF~q dimethyl ether complexlreduces the production cost by a factor of 2.6, and reduces the volume of the column to one fifth. Orig. art. ham I table. SUB CODE: 18/ SUBM DATE: 16Sep65/ ORIG REP; 002/ OTH REF: 000 Cord 2/2  _J 3752h S/lBY62/004/005/008/055 75'60 B102 B138 ~MLHORS: Zhdanov, V. A., and-Katallnikov, V. V. TITLE; Calculation of the mean square of thermal displacement of atoms in a CsCl-typo lattice using 11austonto mothod PERIODICAL: Fizika tverdogo tela, v- 4, no- 5, 1962, 1124-1127 TEXT: The mean square of displacement of atoms from their equilibrium positio'n is calculated from the spectrum of normal vibrations, which is deter,mined by Hauston's method. The results are compared with those obtained with a spectrum calculated according to Montroll (Phys. Rev., 115, 18, 24, 1959). The mean square amplitudes of ther-Aal vibrations obtained from X-ray reflection intensities can be used to determine the binding forces in crystals, since there exists a relation between u2 and the bind- ing energy. Here the interactions within the first and second coordination spheres are taken into account. First the interaction parameters are determined for a CsCl-type lattice by Hauston'8 and Montroll'a methods. Then u2(T) is calculated using the relation Card 1/3  S/161/62/004/005/006/055 Calculation of the mean square of B102/BI38 I . .. . . I '. 'A W(T)= ~.!(. 1 (2), where A=Im, g(bj) ia the frequency density distribution of the lattice vibrations gw= 6. (kj A ii which holds according to Hauston (Ref. 2: Phys. Rev. '104i 42, 1956). Numerical calculations were carried out for three directions with A1001=0-09803; bilm) 0.08823; btlool=0.15685. For ~he binding r r0 is valid. The numerical values parameters J+ +fO> for and J/- were taken from Ref. 2t and U (T) was calculated f6r T-77'Y, and T=2000 K at 6 1500X./iu7 decreases exponentially with increasing Oc,rd 2/3  ZHDANOV, V.A.; RATALINIKOV, V.V. Calculating the heat capacity of a CsCl-type lattice by the Houoton method. Fiz. met. i motalloved. 16 no.1:148-149 J1 63. (1,11RA 160) 1. Sibirskiy fiziko-teklinichealdy nauchno-issledovatellskiy In- stitut. (Cesium chloride-Thermal properties)  KATALUP, V.T. Conference of the workers of the Ukrainian confectionery industry. Uar.prom. no-3:78-80 Jl-S 162. (MM 15:8) 1. Glavnyy inzh* LIvovakoy konditorskoy fabriki im. Kirova. (Ukraine-Confectionery)  KATALUP, V.T. New varieties of confectionery productse Kharch*promo no-4:24-27 0- D 163. (MM 17:1) .t .  KATALYMOV, L.L. Experiments during the studY Of inheritance and variabillty. Biol. v shkole no.1:29-31 Ja-F t63. (MIRA 16:61 3., U3.1yanovski gogicheskiy institut. Tmp=biolog.r--Ex,Deriments) (Variation(Biology))  )I Sul I 111R A " PPA 16MIJINS All* 06CV1411116 NMI Tolm. &i. Ing. foif0jusffs (U. S slow on dcComp". in Wit im- the wa. Alta Oft n"th tbt" mobilisrs 4=t1o" of stra- eq-1 to w rvTS 'Pith .46 aagtu 4bapPe #Ws an noted front da- 4% col the Wit am, c conpd. otmw- Ptftk bmanre inrrems 06 a N im, found It% th'! fall and IdtlifimfiN, Tbt N"Mtt jrMths. Addn. Of duW 'be Ist Umlh, N"S " t',j imorg, N. 16 the .00 C.C(h ft--m tb. qusna= of CA inert-, dmmpn. at Mauro W *vWb on mt and ldtb-Sb tht now 6W4" but I - Um- but lltmw do 0 =t fectMW bebbve l0olstwimt gmftdyj'. S, Joffe Coo 041 dom mt chv tb, reswts descsibtd- so 00 too *0 -00 04 'VIE. be 0 ASM-11"t- MRIAL LUMICAL LITIOST&OF CLASUPICATOM too too- so-OW toloaa olf -0 Got W., All - --.--r ---------r --y- let I a ISP ; , I , p it I so An a 8 no 0 9 a U it AT a 19 S 9 U K At *14 go 0 01 0 0 0 0 0 4 0 0 0 at *~S 0 * _*-*- 0 * 0 0 0 * & 0 0  a 43 V9 V v A a eh Lh 1,11P 41WW It 4102 -460 00 00 so 00 c soft pa on towns* two all 05two-aw 4%. A. a 16CIA ofralpmw to liming www o.obw* A.M. Ice 900 are nos bee u9s we* 113 ;1- we 0 see *Go**  Jo 0 9 0 0 0 0 I I a 1 0 1 is 11 11 11 It is Is a 11 a is a it v a if a 36 v 0 Is 0 41 a a a 9 L.-A_X P-A A _JL_j V I I a . I - a--* - j A 14 -00 A. A. KWItes, awl-M. V. Aily -Repo. Sri. ISO. PffNiarrs siad fm~i~rva Lemirid W lawn. Cov. Sea &i.. 0 193s: 61-WIN 6;;;Q.-Pot e-Pla. with U1111far In water 0 C am INA elm with 'Mriations of Ildirlegel's WAA. of nuttleat 1111ft and double mwn, with wW withtmt 0 FIE a speelial 06ft, "leroelements. via., D. hia, Z"' Cu. 0 MW F isoffies"d I& Obe lattm cam a peat= yiddof I-As -*0 Whem jj'vftms as Mj, salts, but this was due to *0 -00 tram of e*r6tkinents from the Impure chemicals whkh o were Still avall" In the pby"o"y " -in. N%11- .00 the mkroeltmots were intevOonally added. nitrate was got the best Mume at N. Yields of nets, CSPKWIY at gfsiv- were greaten with the doobled coam. of nutritalf with a =so so sptdal adds. of ukrothments, but In the absence of the 9 latter. growth was beat In the lencoacd. mAn. Bandhin 09 had t1be greaten effeet In Issereaslatt yleldl. Field and 00. expts. bbffimttd that the depressant effect of too = a red earth No HYPOSW twat, Sig well as an ani- 00 Wly additled theraosem. Is dependent upon deMeDry 00.1 In aviollable D. Wbts the latter was supplied In WrAll tmtogta Inerrard yldds~ A amt., the Sam similar r44. wif, an Peat wil Indicated de- coo 00 6dwy in both B =. on peat eves3ivtly firned, 8 6*0 And No mused great incitases in yields of oats, Ukrwist with wbftt OPMan"wOUralts! with Ca$Oj, Plants .200 grow* on soils deficimt in B and Cu often wxmul&te wg great quantities of N and ash elements. Una- d is damaged by a fisbt of Sandy Podsol deficient in D; =90 tux does no SM Wd=s B is SUP14W. eves when this ..... .. ODU Is 001 kkzwd, and SIMMar obstrulsons or.. ota& no a kITERAlft? deK-*.d._1JPKM-- - TIMIve rWI*T112VV*. Wool .0 1 setal't .,At all etc 9141110" Pro U 0 AV 10 al T--V-V-T--r 117-1 141 MI I Of 0 F1 9 1 IF 10 9 A 4 3 1 1 0 0 It it 11 me a 14 4" 01; '*v *0 000 09090 fe 0 00 00 000 0 0 0 * 0 0 * 0 0 0 0 I : 0 v - 0 :19 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  I t 11 11 U 4 IS 4 Ou At an MR and it all Is JCO L L a-S-1. 4, A-- -:j 15 0 ft" to a a 0 pitz"Doe Cd R imp IDIOM and Ot wheat i The pm.~ewe jurkaw 461~CJAI Wait mproved At Ww"m 016 med n on A 6 S L A *fTALttwrOCAL LITC0.14AE CLASINFICATNOm 3 U 0 it so it ft it It Id 411 1 of 'I R It 11 It 14 b 0 6 0 0 0 0 0 0 0 e 0 0 0 0 0 0 0 0 0 0 4 0 4-* 0-0 0 0 0 00 0 so# 0 0 9 a 4 RY 'Ufa". 4v,~ moliq , 1, - 100h).- - If" -90 Out barvests of das in "W i h i d 09 w ne wd treate t vwboame Ma of B mot awy mutrau"d Ila in- - Ass and ma"M but actually Chas, Plaw coo 190 boo '.Z. J1441 w a ", AD #11 OEM J!"Al 0 # * 0 0 0 0 0 9 0 0 # a 0 0 0 0 0 1 0 0 lp * 0 00000000000990V 4 09*0  I its* 78 0 1411QUISISM17 N "Imlin Diss. -29 11 12 2 id is 36 3: x R a 41 41 0 of 0 co I r ]k IL 0 L X p -4 1 T .1 f T r cr of d _A_&L_&_A______)_~,-, 151 A., J-~ toot*$ aqvw) IOU.' No. S. 43--Ad)u"in4 ti- CIA'us f,,tk)',U;t typts of spa* to whkb How wu "&,d dki WX CWmt the Adduc 00 'W mixts. of MA. a. Cu. Zo. I end V. of Mu ulut H, MD end It akme to the ov"Umed WAS to Whkh R 1WLW (CftW#cf vres "kA tRousbt out the 6410wi"If fe, two," Whit AA mill. tA ltlirfcdvm~uts, 8 + ?,In# WO It 0 00 a A1WW (he &Z grew Wirway notwuhNIPWAW1 the Ofs~ timing. The mw rtsuILA wen obmbwl w Ith tumiud. J.H. JAC ,3 it Woo go 1169 I AD ~-,Cf ,v" !gj "so AS*-ILA WAMUKAL UfflAtLAC CtASUPKATION I I S44003 M 04. OR AV go __ to 44 an 191t It act t ccW&O1ni1_M V 64 0 H I V so 0 A 44W 1 -,1, A I -------------  0 0 0 0 0 0 0 0 0 41' r v0 1 0 It 11 11 U1141? U to 1. h.6 It n it A. 11 vIt The use of p1rito sisit as A cOPPef W1111191' %I P 'N. xt"11111m. j 14""1 "W"I ~41111v' !!1"' S. N,,A.214 '1,, 141 1~I t". fivil it, 00,111. 111 Ing 01 1~. pcM, -ik. bv Vvm hamsfill An'l I -m I'latit, 00 go .911, A I 4I L A011MVPFAAL LITINIVIVAI C1,0111FKATION I Z- IV. 6 111. too J.7 'VtcV 6% 1 &A A 10 IV IV It 'I IV IV 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 ~~q 0 0 0 0 0 0 0 0 0 0 0 : 0 0 0 00 Oe *0 09 so 0 111 0 9$0 0 0000 0000  t T -A fit N N, It 1 14, t"" 4, " 111 I L AWALLURMAL LITCRA160t CLASSIFICATION 00 It: jai a0 -alp", If -1 a---*-- M at K It 91 9 K 11 Zf It 9 0 0 ow 0-0 A 4 19 oil* 0 'w a a a 6 A I 114,747-11 1~ uwd clumstv a4 frr 1-iffictl for it. m vri'vAt" =06 zoo '09 Q- kw n I:.l. A % v 0 1 90 0 a a 3 2 v  K,L-ALr,.',OV, M. B. OBori'6AcId from Domestic (Russian) Raw Materials," 1. 14. Xurinan, L. Z. Berlin, and M. B. KatalZmov, Nauch Inst Udobr i Insektofung im Ya. V. Samoylov. pp 67-71 (1939), Khim Referat Zhur 1940, No 6, PP 97 (Mm: Inst. Ineact/Fung. in Ya. V 5.,imoylov) SO: U-23*9, 8 April 1949 77  YaTALymuv, M. V. "The Action of Boron on Chernozem Soils," M. GurevIch, and M. V, Kataly7,,ov, Cheud8atlon Socialistic Agr, 1940, No 11-12, pv 89-91, Xhim Referat Zhur IV, No 6 -op 61 (1941) Inst. Insect/Fungl In Ya. Sumoylov) so: U-237/49, 8 April 1949  0 0 0 S 0 6 0 0 0 0 a 41 zi is a A A Ir Il L L A 0 Q M tcOrtlik"s ; i ;0 W 31 ~v n A V v W Q .1 .0 'i k The use of St a fortiliser 1.1 V Ket.1 :-go -J. Che". Ind. (U. S. S. It.) 18, N17"-I.- 41141), t'Arw. 'revirp. too, 1, ;Q41' clu'le 1CMrinaline 11011 'AlMlimilAble for Pt&ut- and there. fore t-sonot be med as & H (crtiliwi, without ch"o. Treat_ inent. '11he simpkest treatastat is fu%ion of the tourmaline 3 with lime. Vegetation rxpts. showcA the tituduct so ob. lained to he suitable as a it fertillter. M. G. Moore ,0=06 00 J, SO 1) tow 00 a I A AtTAktW'rKAL LIT944 TVH CLAIMPKATIOW TV P to C9 61 K It R 9 K f9 it It 0 0 0 0 0 0io 0 0 0 0 0 0 0 0 0 0 0 0 0 4 ~loseefe'loooooosoooeog004000160000000060000009 ze o 'o q 00 two 0 0 0 tie* tI*o lee 1 don i xk 0 0 0 0 0 0 0 0 6 o o o 0 0 o 01  0 0 0 00 00 -0 0 " fertillration an podtolIzed anu The effectiventu of D d S P 4 S ili M V K A W d e . . . ' t y j av s -ty 00 o1b mi 7k1942, No. tv. with lHolzolitt'd JR-at it red Wths EINFutxjrlktc the fiaoftog~ of (OLIS flut Is It is sod f hinin th ti l I th dd - - e caw o m a n us. am cv&n g 00 a It lo anho-ral combinamm i. th i dd il d th r n a so s at millpsle waAW out kmiull only or-, forms (it IJ to pmvidv, thi, ;:!I 1-t t1cumat. Upon the addit, of Ca the It rcleascil front thr b1 il f t i Timoo u or"11. a nto unava am. matt" is rotivtrw J. S. ],&I- Ire 0 ZOO of zoo c7F.4 ~xl =00 A%-Itt A.11ALL4AWAL L111*ATjS! 'St 00 U VS Av- 0 0 tf to 30 M w It It 9t it ft ts Al S N 0 gf k jj - 0 0 0 010 0 0 0 0 0 0 0 0 0 0 0 0 0 0'a * 0 0 0 o 0 0 W-gio 6 Go 9 0000 00 0 0 O:i ooo go o 0 0 0  KATIMY'r"Ov, K. V. (See Karman, I. M., and Gurevich, S. Nt) "The Uptake of Boron forn. Soils by Farm.- Cro-Dq," M. V. Katalx--ov, CoT rend acad 9 ci USSR, LIII, pp, 821-5 (1945) (Lnglish) (SM Inst. Insect/Pang. in YR. . Sanoylov) SO: U-237/49, 8 April 1949  Tell I Sal P I F a 1 4 1 Is, Is 1) to it 4 0 1 Ai .4 0 j a. 1. 1 A -P L. as I It L-ft- it . r Q R 1. v -t- L 4, 4A a 4 ti- 00 The uptake of blaron from soils by faim crops. xt V. Kmal d. 'lead. V.H.S.s. 53' 1" vatiov OT feat it, . i as 'JIJTATN~t mgli; ). -T It a-milrill III Isilliff Isv. wilitt-T sahcm, .1w,lig h,.It, -lit. 11"'. J~.Uqml. 6.1,111 - lkvt~, ttailaij,~. cl-wrt hav. aml ~lagm I%v( ",%. dt,td. %1 0 Is ifyr%f little "11 I'ILIVIl' gr1i'vis w) stilb little 44 It. 11tv willialac III It ViAl '.' 10 .1 lilill I RIVAIVI ill I.,hict wall l1wit Ill %wil liatill.1 Ij -00 00 it IAvI4 all-I I)III'll'it, .11,101A Owl III Illeir..- tit It alsang Willi all ilictir.t'ir ill vit-M. Willi Its%. Itul. a 09 .3 .1,.T,1XVI., 1.0,10 lvt~t. Atad tvattlip'. the milln If 11 fi-tillin-T, Ille Ill i,wIr4-J tht- vid'I III starlit, . lop. "ll'i ilim I- J -wp. .-I 3 the ti- qJ It fi-ttilil~l, al'sVe Ith 1a`41.11 " 1,1;tlt, to 1, The 11 IIIIIAlit' ItY j(11,1111 1-11014's VATil J ~bl to 441 X. per tanctare; Isar fL%x froin.15 to 711 g. ; law vlowi hAy ft.111 4' to 114 g. ~ f4w iti-tativi (starts 53 it, INI if wid fair ront-i4-urt 1141111 M ill Itc, N. I - F. W. i Jso we 0 .900 all, a A trip* I I - I L A OITA LtMCK&L 1,171[211110111 CLAVWKAII" C-2- svfi-vl~ .11 1~11 Visa U a AV so .6 N 0 as Is, I 0 "OPIPPIP11 an No man at 0 "D A As 4 0 v 0 0 0 0 :10 00000000 00 0 0 000 0 1111-4. *1 0 0. 0 0 0 0 0 0 0 0 0 09000901  go AT -40 ! N, 06 of UIAIAI 11" D ("Auln"IricAly) gave (tit following &V, results: MAjjnrr on straw l4tcMill 2D.1-21.3 mA./kxl; peat 0.7-12.3. manute a%h 67.7; *a J. pest g3b 30. ; cmI a4a 41.6; dolomite 3.".0. rryst., 4.5; xWorphow M Q: Imber A%h If 00 01 lyinitc A 2 * CA HOW T"Yjalite 12.3; =10. I . Go d crudeXII.Cl 00 2.1. Crude (RIL).W, a 2. &petite sulterphotphair 0.3; aRf!h, NII.NO*. UrrA 0.0. 111,ti. crude KCI, N, 00 a Mates of I, intsoduml Iy the various fertilizers under H MWtly ill Russian practices &TV made. Peat contains w.ter4nvol. form; hem its utilization inust depend w,n talueralissitkM, 0 0 ''700 00 ve j-99 tie* I L A if ftllAIkL*,'~,KAL Ll-UNAILINk CLOSIMA11014 tr .. .... iCleo We 0 t a it is it Cta a a of a K n n is n- 1 An i I N v 04 lvlcl~ 0 0 0 0 0 0 0 0 010 0 0 0 0 0 0 0 0 6 0 0 0 0 0 a Gi 0-0 0 -0 WO 0 0000 0 00 00000-0 0 0 0,010.t 0-0 0 0 a 0 * 0 0 a 0 0 0 6 00*1  2 Ayii 1"Ornuid-. Uolbrerliy -H--a ivtAy TulAle~moy :~essii, PL, v-,,:,i sh. c1 i13tol-t-iyu SO L~atovis', Ito.  - 7j -fw , 0 "- -:j~_ _ #7-j- ; - i : d V 4 1 P w IF a i 4 a it _t) Tj IN XJ P m Q ~ - .- *0 if 00i 31 0 a ._'a- so* '00 I"Ruriser of SmI Arivilly so Intake of MmOSS"irw bt d - On ItImiall.) W V. Kati%lysinw. 04hull; Ai rinii Nitut NNSH (Hrj%,;f% tit the Aradetly 411 Svlv1h'v% ul flip USSIO, itew wr., v~ 71. Alit. .11. 110A), ji~ 1091. 00 Too 06 o t Atxn-c Pmblern wax investigat"I for mts, ImIalpm, * il l l t) f h 1 6 d ' t yn e %o wavy jux t vrr. nie aci i c ity u flax, 8114 wits tvirstrolled by addition vf arid ana lhuic nittligen , (t h h hi h l o 0 it er e t at, t fertilift-r. Tabulated data mra g f %f hi h l h c it w e atimiant ci arklity tit the soi , the Lusm t v4n be utilized by the plant. 41 at too too vv* 0 it P It OF it At a I 0 to W* 0 we 0 0 0  Effed cl Umiqg to "bility of boma in the ifoil and iu airmlabififty to plaub. KAtolyrnov and S. 1. Ryabova. Poklaily.4bad. 4401M0), Incrr.Au- .11 filtw Cullen. ill themAl kallb to drcrrjl~ o[ 11 oillivill .4 ckmr jilatill al"I todecligir of M.I. Loill. of If i'1 tile -11 116 6 west evoit aft~t-`l vs...fi~r pjdicmims~ 1% (ACilitatni bY Oil iJlCrrA&e 111 M-il J,-Wi[V. C4. Mig, J10 SWR hAVT 1104V,-1,  Causes fit demased atraUbilltv of boron to plants after liming of mi. Nt. %% kmAly"W'. 114"id -r Akaj Aakk S.S.S.R. 16, 43. 1711c. The de- cw~_%esj a%iraijability of ti after liming appears to be caused by formation of esters of butirwid with 1~lv tmnic ak-,. of the _.i): tbt-.c are much vitwe %table ill sieutt.1 or weakly alk. inediA thitn In arid rucilij. While inustard plantl grow vefy pomly in unlimed licat, o%ing to the acidity of the loi- ter, addit. of lime does not aid the giowth materially and. Illaut development was abnormal (flowers formed. but vvil forination did not clovdr), indicating 13 deficiency. Adtlit. of further atuts. of B IcxI to nomial gro%th, Simil3r m- vults were obtained with chcriscirrin %oil. If these orjjn.~IIN c,,tnpds. :it, ashed and then introduced into the culturr, the P14"t development I% nartual, indicating the col-Trct. ness of the above-stated hyoothc~i%. Stich oxidAtion of the. ors. matter leads to a Vold i"ctri'c nf the 'it"t . of viater- sid. It In rhernotem, 2-ftild for "Itol and kta~nniteiu; ill .111 ca.". 4,lilnl. borales %ere cfTvvti%v in brititing alwout mirinal growill. G, M, K,)w)t-lr)nff  A[. V. Kat S.S.S.R. 77, 447-8(193T). values of Mn (in mg./kc.) we: manure with 10traw SM: peat (dftp lying) 326; Peal WACO 43; maduft Ob 1 -17. (W-4t &A OW-1097: ash I'Mom Mal ": ash of birich 21270; **%4% of oak 147W; dolomite meal 108; chalk 58; unsUked little 194; phospborite m&d.VI -02h). bone awO.1.5: apalite w1wrphoslihAte 142; *61 &'..W (from Kffch pUnt); svl- vinite. cozaallitc. antl related minerals 14-70: sultpricr 0 UT" (I; ammonium sulfate 42; ~Ca cyssiamide t 5. G. M. Koswapoff  KATALYMOV, M. v. I~M/Chmistry - Goils 21 Sep 51 "Fixation by Soils and the Washing Out of Boron Pertilizers,," M. V. Katalymov, Sci Inst of Ferti- lizer6 and Insectifungicides imeni Samoylov "Dok.Ak Nauk SSSRII Vol LM, No 3, pp 413-415 Boron vhen added to soil in the form of boric acid does not become fixed to the soil and washes out readily. p 77~  KATALVOV, N. V. KIriALM1,OV, 11. V. - "Dynamics of the Mobility of Bristly Foxtail Grass in Sod-Pod-,olic Soils in Connection U'ith Its Uizing and the Effectiveness of Boracic Fertilizers." Sub 16 May 52, Soil Inst, Acad Sci USSR. (Dissertation for the DejTee of Doctorates in Agricultural Sciences) SO: Vechernaya Moskva January-December 1952  2Z7 p n RA~j 105", 325-~;6' ef t A 1- Fx;,t5 H I -'re, th, t it  USSR/ Agri cul ture F11, a rt ptrs'~olog-7 Card 1/1 Ptb. ?2 46/5a Authors I Kstualj,-WV~ M. V. . ard Shirs ",v3 A, Ax. Title I T*hz content of Co in planto.~ ao-.11 and fertilizero Periodical t Dvk. -0 SSSR 101/5j 955-9573 -Ap-- 113 1955 Abstraot I Bacrn=s of th* high Go mtritional. values in tha fm,~ag ot anivials, the suthons investigated tIm Go -Iontent in varicuo it'-i t L o n t 7-v- Presented by i kc-ademici-sn S. 1. Volvfkovieh, Septomber 19,c1  rl uct 4, r! P, ~l  USSR j S7oil Scionce. )!inural reXtilizorn, Re f Zhur -'-'I u.-1 o tz iY aI 11c, 19 5 -3 , V 05 3 3 9 5 Authcr Katalymov, M.V. USSR The Forms of Yineral Fertilizers ard ".hQir '."Sfeo-. tlveness orig. k,:b- V sb.: Vopr. geol. aj:!ron. XUd. K., AN SSSR, IQ56, 24-34 A,bstract The author conparez the types of nineral fertili-i zers produced by dome3t'C industries and selects 'L from orioni, the moot pronisinp, ,them. 2Varioniun nitrate is the basic! nitrogvn feztilizer for the present and near future, deoplte the fact that it is only 60% effective' in aovpar~Lson with phy- siolocioal alttalinc fertilizers on ccid soilsa 1~ has to be neutxalized and granulated. Calcium nitrate has to be run off In acid soils. Ordinar_~, Pc , particularly in,granulax foria, is on the Idle the most advantapeous phospho--us fertilIzer in t Card.- 1/4  10 OP evzItry kathnr ilm-lu tut. I~bstract 53"95 CUSSR. At the sarie tine the output of doubj(3 supert phosphate, precipitate, arinophoo, thermophosphate8 and especially phosphorite fertilizirs must be increased. Potassitact chloride, compri9i,'18 3/4 of the cnti~rc assortment of potassium fertilizers will remain as the basic type. The follo,.,jin,-, have been noted among the nicrofertilizars: Supexphos- phate contfiininiz boron, borodutolite fertilizer, pyrite cinder3. The follo%,iinf!, have been noted arnone, the nagne8ium fertilizorn: dolomito, magnes~ C-ard: 2/ -4  C juAtry IT Jo,=. 53395 Au,-,h,- r Instit"'t. Title ;,b:3 tm- ct sr. 1 fri to anj mvtne5lum Lill~tutea. The peneral. Ovaluation of 'the effocti7eness of thelie fertili- zers, based on their correct application under the oonditions prevalent in the U"-J'211 hn3 beer, pre-4 sented in the following table: "ipricultural 11 P2 05 K20 product Cotton wool 12 6 2 roots 100 70 40 i Card.: 3/4  try ceAncn-y 5 3) 9 5 Ti II-le fbstvtct Continued Agpicultural IT P*:)o 5 K 0 product S b t 6 ee ugar 1 10 6 suga.- 120 80 6o Flax (fiber) 2.5 2 1.5 "Unter wherit, rye 25 25 4 Card: V.11. Prokoshev 'A 4  J~A TA 4 Y/-r7 USSR/Diysiology of Planta. Mineral Nutrition 1-2 4 Ab,n,,'Jour : Ref Zhur-Biologiya, No 2, 1,958t 5650 Au~hor : _K,_,.3.,_Xatgl7mov Inst Not givan Title On the Content of Microelements in Plants DeDen- ding on their Specie Characteristics and on ~he Soil Propert4.es Orig Pub : V zb.: Mikroelementy V. 6. ph. i meditsine, Riga, AN, Latv SSR, 1956, 81-88 Abstract : The content of microelements (B, Mn, Cu, Zn) in plants depending on their specie characteristico$ and the effect of soil conditions on the content of microelements in plants of a-.single specie were studied in two field and one vegetative ex- Deriments at the Dolgoprudnaya Agrochemical Sta- lion. The content of B ranged from 2 to 72 mg per Card 1/5 ween I *5-td_ b, ffg-,-wit!C_the grea est content in bean seedst sunflower_(8-8,5 mg)t in the roots of forage beets (7.1 mg), and less in wheat straw (1-5 mg), The Zn content ranged from 16 to 65 mg with the ma,%Umum in seeds of wheat (65 mg ), sun- flower seed (52.5 mg) and in the leaves of sugar Card 2/5 Card 3/5  USSR/Physiology of Plants. Mineral Nutrition 1-2 Abs Jour : Ref Zhur-Biologiya, No 2. 1958, 5650 I Abstract : greatest quantity in the seeds of flax (20.5 mg), the green mass of lupine and in the leaves of otato (18 mg), and the smallest in wheat straw g) and the roots of turnip (4.2 mg). The con- M tent of Zn ranged from 20 to 240 mg with a ma- ximum in the leaves of edible beets (240 mg), mustard straw (231 mg), semisugar and forage beets (224 to 210) and potato leaves (200 mg), and a minimum in otato tubers (20 mg), the roots of turnips M mg) and cabbage (35 mg).-The content of B. i1n, Cu, Zn in clover, barley, flax, and mustard changed considerably depending on soil con- ditions. The smallest content of B was noted in Dlants grown on surface peat and lime podzol agrillaceous soil. The greatest quantity of Mn was received by, plants from Dodzol agrillaceous soil and the Card 4/5  USSR/Physiology of Plants. Mineral Nutrition 1-2 Abs Jour : Ref Zhur-Biologiya, No 2, 1958, 5650 Abstract : smallest from syerozem. The smallest quantity of Cu was rec6ived by the plants from peat soils. Card 5/5 USSR/Chemical Technology. Chemical Producte and Their Application Felt1lizerr) 1-6 Abet Journal: Referat Zhur - E3jniya, No 2, 1957, 5o63 Author: Katalymov, M. V. Institution: Academy of Sciences USSR Title: The Problem of Minor-Element FertilizerB Original Publication: Issledovaniya po pi-110. k7blynii, Izd-vo AN SSSR) 1955, 325-336; Khim. nauka i prom-stl., 1956, 1, No 2, 155-159 Abstract: A review. Importance, application methods and efficacy of minor ele- ment fertilizers containing B. Cu, Mn, Zn, Co., Mo, I, according to data of experimental vork in USSR and abroad. Bibliography, 7 references. Card 1/1  - . - A--f.riatica dl5a la~ = -- -1 1 ,,   rATALTROV, Kikhail Vasillyevich; nYGELI, L.V., redaktor; IORNMU, V e~g ne' MY- -retor (Trace elements and theiT role in increasing crop yields] Yikro- elementy i ikh roll v povyehenii uroshainosti. Moskva, Goo, nauchno-tekhns Izd-Yo kbim, lit-ry, 1957. 63 P. (yd-u io.-6) (Trace elements)  7- USSR/Soil Science Hineral Fertilizers. J. Abs Jour Ref Zhur - Biol., No 15, 1958, 67961 Author Katalymov) M,V, Inst -_ ~cient~ific Institu~te of Fertilizers and Ins ecto fungicides. Title Some Achievements and Contemporary Problems of the Agro- chemical Study of Microelements. orig Pub Udobreniye i urozhay, 1957, No 10, 4o-47- Abstract The results are given of investigations of microelements conducted by the Scientific Institute of Fertilizers and Insectofungiaides and other experimental institutions. In the Institute the content of B, Cu) Zn, Mn, and Co of various soils was measured. Information is given on the forms in which they are encountered in soils and on the microclement content of harvests of various kinds of crops GTown under identical conditions on thick chernozem. Card 1/3 49 USSR/Soil Science --Minerall J. Abs Jour Ref Zhur - Biolij No 15, 1958, 6,1961 Of all the micro-fertilizers, the most significant for the agriculture of the USSR are boron and copper. The soils and plants which react to application of micro- fertilizers are mentioned, and their effectiveness is des- cribed; the results are given of several filed experi- ments conducted on experimental stations and on kolkhozes. Froms of boron fertilizers likely to be morewidely used are: doulbe and simple boron superphosphate, precipitated magnesium borate, boron-datolite fertilizer, and boric acid. POt experiments done in the Institute with thermbo- rates demonstrated that in them the B is in a form assimi- lable by plants soluble in L'cp' citric acid). Research is also being done on frits (glass micro-fertilizers). Copper fertilizers are applied in the form of pyrites cin- ders in doses of 2.4-4 kg./hec"U'are of copper, i.e. about one half of what had been previously recommended. Accor- ding to data of All-Union Scientific Research Institute Card 2/3 -USSR/Soi-l-rociL-nte---Mineral- F drtilii-ers-o-  Sol@ KATALTMOY Mobile boron content of soils and methods for its determination. r-----~~)Clwith summary in Xnglish]. Pochvoyedenie no-8:53-58 Ag 158. (MIRA 11:9) I.Nauchny7 institut po udobreniyam i Inskeofungisidam. (Minerals in soils)  Ya.V., glav. red.; ALIM,, G.A,t ekadevdk., red.; ABUTALYBOV, M.G.., prof., red.; BERZIN, YA.M. [BerzinssJoll akademi-k., red.; V:ENOGRA- DUV.. A.P., akademikp red.; VLAMK, P.A.., akademik,, red.; VOYNARj A.O..,.prof.,, red.; DJIOBXOV, A.A., prof., red.; KATALYMOV,-M.V.-, prof.p red.; KUVALISKIY, V.V., red.; KOVDA-p V-W-7red. ; IWROV- ZIKMW,O.K.p akademik., red.; IYMOV, V.A4# akademik, red.; FETM. BURGSKIY, A.V.p prof.p red.; SINAGO, I.I., red.; CBMIOV, V.k., prof.,, red.; CMISIMLI, Sh.-F., red.; SHKOLINIK, YI.Ya., prof., r~41 SHCHERBAKOV, A.P., kand. selikhoz. nauP., red.; VEMANOVICH, A., DYMARSKAYA, 0., red.; Y-LYAVINYAIA [Klavina, A.], t~~. red, [Use of trace*elements in aviculture and medicine; transactions) Primenenie mikroelementov v gel'skm khozinistva i meditsine; trudy, Riga., Izd-vo Akad,nauk Latviiskoi MR, 1959. 706 p. (MIRA 14:12) L Voesoyumoye soveshchaniye pa mikroolementam. A. Baku, 1958. 2. Chlen-korrespondent Akademii nauk:SSSR (for Peyve, Kovd4). 3. All Azerbaydzhanskoy SSR (for Aliyev). 4. AN Lattlyokoy SSR (for Berzin). 5, Voesoyuznaya akademiya sel'skokho2yajgtvennyk'h naak im. V.I.Lenina (for VlaoyW-.p Xedrov-Ziklmiap). 6, AN Belorusskoy SSR (for Leonav). 7* Chlen-korrespondent Vsesoyuznoy akademii sellskokhozyaystvennykh nauk im. V.I.Lenina (for Sinyagin, Kovallskiy). 8. Chlen-korrespondent A14 Gruzinskoy SSR (for Chanishvili). (Trace elements) (Biochemistry) (AgriculturD)  NATALTMOV, M.V.; OMMUROV, V.M. Agricultural and chemical evaluation of Precipitated magnesium borate as a boric fertilizer. Khim.prom. no-7:604-605 O-N 159. (MIR& 13:5) (Magnesium borate) (Fertilizers and manures)  KATAUMV, M.V. j CHMONOV) VA.; RYABOVA, S.I.; KNYAZEYA, M.A.; SB2ZMQVA, Z.S.; PALILUVA, N.I.; GORLENKO, M.V. Studying different ways and methods for applying trace element fertilizers. (Trudy) NITJIF no.164s53-54 159. (KRA 15:5) (Trace elements) (Fertilizers and manures)  E!LAL-YF,OVa-.Yp; UNMYANTS~ T.P.; VOLIFKOVICHA, s.i.,, akadertik,, red.; ORIDVA) IeA#p otv* red.; GONCUROV, N.G,o tekhn. red, (Production and use of trace elements in the U.S.S.R. and abroad] Proizvodstvo i primenenie mikroudobrenii v SSS i za rubezhom. Pod red. S.I.Vollfkovicha. Moskvas Vses. in-t nauchn. i tekhn. infor- matsiij. 1960. 37 p. (Trace elements) (MIRA 15:6)  KATALTMOV.'.Mikhail Vasil lyevioh:-.VINOGRAWVA , X.G., red,; SPERANSKATA, (Trace elements and their role in increasing crop yields] Mroelementy i ikh roll v povysheni 'i urozhainosti. Izd.2. Hoskva, Gos.nauchno-tekhn.izd-vo khim.lit-ry, 1960. 74 p. (Plants, Bffect of minerals on),,, (HIRA 13:10)  KATALTHOT, M.Y., otv.red.; NORMST, L.I., red.; SOKCLOT, A.T., red.; ' LICHEN' F*T,, red.; UNANTARTS, T.P., red.; DaUXPMT. R.I., red.- GRIGOR113VA, A.I., red,; BAUOD, A.I., tekhn.red, [Manual on mineral fertilizers; theoretical and practical aspects of their use] Spravochnik po minerallnym udobreniiam; teoriia i praktika primeneniia. Moskva, Gos.isd-vo sellkhoz. lit-ry, 1960. 531 p. (MIRA 14:1) (Fertilizer& and manures)  KATALMOV, M.V._,._,prof. On the 75th birthday of O.K. Kedrov-7,iklman. Pochvovedenie no. 5:116-117 MY 161. (MIRA 14:5) (Kedrov-Zikhman$ Oskar Karlovich, 1885-)  ASKINAZIl D.L.j VOLIFKOVICH S.I.;_)~AZ PETXIHHnWKH, A.V.; \\, SOKOLOV, A.V.; iaziNv S.G.; SHKONDE, E.I. ,.,- In memory of Oskar Karlovich Kedrov-Zikhman. Fochvovedenie \1 no.7:.126-127 Jl 164. (MIRA 17:8)  KAWLYMOV. Mikhail Vasillyevioh; VASILIYEVA, S.G., red. [Trace elements and trace elerent fertilizers] Mikro- elementy i mikrcmdobrenlia. Moskva,, Khimiia, 1965. 330 P. (MIRA 18:5)  % I t KATAMADZEO E. 1. "Effect of "Ibbossing' on the Growth and Development of Grapevines.!] Cand Agr Sai, Sakar Zonal Experimental Station of Viniculture and ViticultiLre, Acad Sai Georgian SSR, Tibilisi, 1954. (KL, No 8, Feb 55) SO: Sum. No 631, 26 Aug 5,5-Survey of Scientific and Technical Dessertations Defended at USSR Higher FAucational Institutions (14)  USSR/Cultivated Plants - Fruits. Berries. M Abs Jour Ref 211ur Biol., No 18, 1958, 82547 Author -Tit2.e The Effect of Pinching-Off oil the Yield of Grape Orig Pub : Vinodcliyc i vino(,radarstvo, SSSR, 1957, No 6, 26-28 Abszract : The effect of ptiching-off on the yield of commercial grape varieties TsolikoLLri and TsitsIm vns studied dv..r- ing 1948-1953 at Sakarslmya Experiment Station in Western Georgia. Only the slight pinching-off (removal of 20-2% of the leaves) dcxing the period of the pause ill the growth of the shoots (the end of July - the begiluiinE,; of August) increased the yield. The later the pinching was carried out after the pavse in the growth of the shoots, the lover was its effcctive,~,ess. Intense pinching-off (removal of LIP to 50% of the leaves) lowered the yield by 12-17%, expecially with zzarrying it out dx1ring the period Card 1/2 153 -  USSR/C.,.ltivated Plants - Fr-cits. Berries. m Abs Jovr : Ref Zhur Biol., No 18, 1958, 82547 of i:-,to-usive Lxomth. Dotavioratim iii the q~aality of the yield took place along with t"As. -- N.A, Goliko- va 0 Cara 2/2