LV10153B - A composition for disinfection of seeds - Google Patents

A composition for disinfection of seeds Download PDF

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Publication number
LV10153B
LV10153B LVP-92-392A LV920392A LV10153B LV 10153 B LV10153 B LV 10153B LV 920392 A LV920392 A LV 920392A LV 10153 B LV10153 B LV 10153B
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LV
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composition according
composition
dimethyl
hjih
τθμ
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LVP-92-392A
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English (en)
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LV10153A (lv
Inventor
Takano Hirotaka
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Sumitomo Chemical Co
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Publication of LV10153A publication Critical patent/LV10153A/lv
Publication of LV10153B publication Critical patent/LV10153B/lv

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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N47/00Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid
    • A01N47/08Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid the carbon atom having one or more single bonds to nitrogen atoms
    • A01N47/28Ureas or thioureas containing the groups >N—CO—N< or >N—CS—N<
    • A01N47/34Ureas or thioureas containing the groups >N—CO—N< or >N—CS—N< containing the groups, e.g. biuret; Thio analogues thereof; Urea-aldehyde condensation products
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N43/00Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds
    • A01N43/64Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with three nitrogen atoms as the only ring hetero atoms
    • A01N43/647Triazoles; Hydrogenated triazoles
    • A01N43/6531,2,4-Triazoles; Hydrogenated 1,2,4-triazoles
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N43/00Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds
    • A01N43/72Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with nitrogen atoms and oxygen or sulfur atoms as ring hetero atoms
    • A01N43/74Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with nitrogen atoms and oxygen or sulfur atoms as ring hetero atoms five-membered rings with one nitrogen atom and either one oxygen atom or one sulfur atom in positions 1,3
    • A01N43/781,3-Thiazoles; Hydrogenated 1,3-thiazoles
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N43/00Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds
    • A01N43/90Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having two or more relevant hetero rings, condensed among themselves or with a common carbocyclic ring system
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N47/00Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid
    • A01N47/08Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid the carbon atom having one or more single bonds to nitrogen atoms
    • A01N47/10Carbamic acid derivatives, i.e. containing the group —O—CO—N<; Thio analogues thereof
    • A01N47/18Carbamic acid derivatives, i.e. containing the group —O—CO—N<; Thio analogues thereof containing a —O—CO—N< group, or a thio analogue thereof, directly attached to a heterocyclic or cycloaliphatic ring
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N47/00Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid
    • A01N47/08Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom not being member of a ring and having no bond to a carbon or hydrogen atom, e.g. derivatives of carbonic acid the carbon atom having one or more single bonds to nitrogen atoms
    • A01N47/28Ureas or thioureas containing the groups >N—CO—N< or >N—CS—N<
    • A01N47/38Ureas or thioureas containing the groups >N—CO—N< or >N—CS—N< containing the group >N—CO—N< where at least one nitrogen atom is part of a heterocyclic ring; Thio analogues thereof
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N57/00Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds
    • A01N57/10Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds having phosphorus-to-oxygen bonds or phosphorus-to-sulfur bonds
    • A01N57/14Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds having phosphorus-to-oxygen bonds or phosphorus-to-sulfur bonds containing aromatic radicals

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  • Life Sciences & Earth Sciences (AREA)
  • Agronomy & Crop Science (AREA)
  • Pest Control & Pesticides (AREA)
  • Plant Pathology (AREA)
  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Dentistry (AREA)
  • General Health & Medical Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Environmental Sciences (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)
  • Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)

Description

LV 10153 ΚθΜΠ03ΗΕζΗΗ flJIfl βθ3ΗΗφθΚ11ΚΗ ΟΘΜΗΗ • OnHcaHHe
HacTOKmee η3ο(5ρθτθηηθ othochtch k κομποθμιϊηη ,π,λη αθ3ηΦθκ-ινι·μ οθμηη, BKJiK)yaiomaH (Ε)-Ι-(2,4-ληχλοΦθηηλ)-4,4-flHMeTHJi-2-(I, 2,4-TpMa30ū-I-Mū)-I-rieHTaH-3-0Ji, coflepjKamafl He Menee, yeM 50 ΒΘΟ.% (-)-(Ε)-Ι-(2,4-,ΙΝϊΧΛ0ρφβΗΗΛ)-4,4-ΑΗΜβΤΗΛ-2-(Ι,2,4-τρΜ“ a30Ji-I-HJi)-ī-neHTeH-3-0Ji, a (ynoMMHaeMHft 3flecb flajiee nan Coe-βΗΗΘΗΗΘ A) H no MeHbHieft Mepe φγΗΓΚΙίίΙΑ B BHfle CteH3HMHfla30JI THO-φeHaτa (ynoMHHaeMbiM 3flecb flajiee KaK Οοθαηηθηηθ B), h Heo(5H3a-TeJibHO BKJimaromaH 0,0-,π,ΗΜΘΤΗ;ι-0-(2,β-ΑΗχ;ιορ-4-ΜθΤΗίΐφβΗΗΛ)-φοο-φοροτΗοβτ (ynoMHHaeMHft 3^ecb flajiee Kax Οοθ,π,ηηθηηθ C) h/hjih 2 I—3THJI-I ,4-flHrHflpO-6,7-MeTHJieHflHOKCH-4-OKCO-3-XHHOJIMH Kap(50H0-Byio KHCJiOTy (ynoMHHaeMyio 3flecb flajiee Kax CoeflHHeHHe J) ) hjih COJIb 3T0&amp; KHCJIOTBI. Πρβικ,ηθ, flJiH npeflOTBpameHHH πρΗροκ,π,βΗΗΒϊχ 3a6ojieBaHHM οθμηη MCn0JIb30BaJIH ČeHOMHJT, THO$aHaT μθτηπ, TupaM, KapčoKCHH, PC^B, pTyTHHe opraHunecKHe οοθαηηθηηη h hx CMecH.
OflHaKO, ynoMHHyTBie ββππθ ,iļocTynHBie b KOMMepnecKOM οτηοιπθηηη, 1D,e3HH$MIļHpyi01]ļHe CpeflCTBa 0Ka3aJIHCb θφφβΚΤΗΒΗΒΙΜΗ JIMUIb flJĪH orpa-HimeHHoro TOCJia 3a6ojieBaHHM. B cbh3h c 3thm B03HHKaeT npočjreMa yTpaTBi τ3κημμ fle3HH$eiļHpyK)iHHMH cpeflCTBaMH npncynļHM mm BOSfleft-CTBHHM B naCTH npeflOTBpaiIļeHHH ΠρΗρΟΤΚ,Π,ΘΗΗΒΙΧ 3a6oJieBaHHM ΟΘΜΗΗ. 3to cnpaBeflJiMBO κ b οτηοιιιθηημ ycTOHnHBoro rpnČKa, ποηβκβιιιθγοοη cpe^H 3a6oJieBaHHH, Ha κοτοροβ ynoMHHyTBie ββπιιθ fle3HH$eu,HpyK)inHe cpeflCTBa 0Ka3BraajiH πρθκ,π,θ npoTHBorpnČKOBBie ,π,θμοτβηη. BBH,ny TaKoM cHTyaiļxn, HacTOHiiļMM K30(5peTaTejib npOBeji ,π,οπολ:-HHTejibHoe HCCJieflOBaHHe flJin ββιηβπθηηη fle3HH(|)eiĶipyK)mnx cpeflCTB, ΜΜΘΙΟίηΗΧ ΙΠΗρΟΚΗΜ ΟΠΘΚΤρ ΠρΟΤΜΒΟΓρΗβΚΟΒΟΓΟ ,Π,ΘΜΟΤΒΜΗ H nOKa3BJBaiO-ΙΙ1ΗΧ ΘφφβΚΤΗΒΗΟβ ,Π,ΘΗΟΤΒΜΘ B ΟΤΗΟΙΙΙΘΗΗΜ npe,IļOTBpameHHH 3a60JieBa-HHM, BBI3BIBaeMBIX ynOMHHyTBĪM BBHIie yCTOMWHBBIM rpMČKOM. B pe3yjibTaTe 6bijio Hai^eHO, hto . κομποοηφϊη ,ε,,πη ,ιι,θΒΗΗφθκφΐΗ οθμηη, BKJHOHaroinaH οοθ,π,ηηθηηθ A η οοθ,π,ηηθηηθ B b οπθι1μΦκηθοκομ
BeCOBOM ΟΤΗΟΙΙΙΘΗΗΜ H Heo6H3aTeJIbHO BKJIKJ^aiOmaH ΟΟΘ,Π,ΗΗΘΗΗΘ C m/hjih ΟΟΘ,Π,ΗΗΘΗΗΘ j?) KJIH ero COJIb B ΟΠΘΙ1ΗφΜΗΘΟΚΗ ΒΘΟΟΒΟΜ ΟΤΗΟΙΙΙΘΗΗΜ, ημθθτ He TOJibKO Bce ynoMHHyTBie BBirne CBOMCTBa, ho Tarae npeBOC- xoflH'oe οηηθργθτηηθοκοθ ,π;θμοτβμθ.
TaKHM 0(5pa30M, οοοτβθτοτβθηηο HacTOHmeMy Μ3οβρθτθΗΗΐο, npe-,nycMaTpHBaeTCH κομπο3ηι1ηη fljw ,π,θ3ΗΗφθκη,ΜΗ οθμηη, coflepacamaH 3φφθΚΤΗΒΗ0θ ΚΟΠΗΗΘΟΤΒΟ. (A) (Ε)-Ι-(2,4-Ιπ1ΗΧΛορφθΗΗ:ι)-4,4-(ςΗΜΘΤΗΛ-2-(1,2,4-TpHa30Ji--I-HJi)-I-neHTeH-3-oji, co,n,epjKamHfi ηθ μθηθθ, ηθμ 50 βθο.% (-)-(E)-I-(2,4—,η,ΗΧΛορφθΗΗΛ) -4 ,4,n,MMeTHJi-2- (1,2,4-TpHa3 oji-I -hji ) --I-neHTeH-3-ojia m (B) no μθηβπιθΚ Mepe I φγΗΓΜίρΐβ b βη,π,θ (5eH3HMM,n,a30Ji τHoφaHa-Ta, πρηηθμ BecoBoe οτηοιιιθηηθ (A) : (B) cocTaBJineT 1-50:1-50. ΟΟΘ,Π,ΗΗΘΗΗΘ A, npeflCTaBJIflfOmee Ο,Π,ΜΗ H3 ΘΚΤΗΒΗΒΙΧ HHrpeflHeHTOB Κ0ΜΠ03ΜΙ1ΜΜ flJIH ,Π,θ3ΜΗφθΚυ1ΗΗ ΟβΜΗΗ ΠΟ HaCTOHmeMy Η30(5ρθΤΘΗΗ©, LV 10153 3 npe^cTaBJineT οοθ,π,ηηθηηθ, BbīdpaHHoe H3 rpynnn, οοοτοηπ^θη H3 coe-,Π,ΗΗΘΗΗίί, pacnpHTbDC B 3aHBK6 Ha BHflany naTeHTa flnOHHM KHKaH (M° 124771/80 h 99575/82). Mhhmh cjiOBaMH, οοθ,π,ηηθηηθ A μοκθτ duTb pau,eMH^ecKHM οοθ,π,ηηθηηθμ, paijeMHHecKOH CMe’cbio, coflepmameH do;iee 50 βθο.% (-)-(E)-I-(2,4-1n1nxjrop$eHHJi)-4,4--flHMeTHJi-2-(1,2, 4-TpHa30Ji-I-MJi)-I-neHTeH-3-0Jia η χιηοτβιμ (-)-(E)-I-(2,4-,ii,HXJiop-Φθηηλ) -4 ,·4—,π,μμθτηλ—2— (1,2,4-TpHa30Ji-I-HJi) -πθητθη-3-ojiom. C ΤΟΗΚΗ 3peHHH ΠρΟΗΒΛΘΗΗΗ CBOftCTB, XapaKTepH3yiOIE[HX fleSHH-$ei]ļHpyioinee cpeflCTBO, πρθ,π,ποητητθλβηο , gTodu οοθ,π,ηηθηηθ A co^ep-Htajio ηθ MeHee 50 βθο.% (I)-(E)-I-(2,4-1nlHXJiop$eHHJi)-4,4-liilHMeTHJi--2-(I,2,4-TpMa30Ji-I-MJi)-*I-neHTeH-3-0Jia (ynoMHHaeMoro θ,π,θοβ ,n,a-Jiee Kan (-)-3HaHTH0Mep). ynHTbiBaH, ητο ,π,ΘΒΗΗφΘίίΗρ^ποιίίΘΘ αθηοτβηθ cTaHOBHTCH τθμ dojiee θΦΦθκτηβηβιμ, ηθμ dojibmee κοληηθοτβο (-)-3HaHTH0Mepa npHcyTCTByeT b οοθαηηθηηη A, npeflnotJTHTeJibHee, hto-6bi οοθ,π;ηηθηηθ A ημθλο ηθ μθηθθ 80 βθο.% (-) — 3HaHTH0Mepa. Ειςβ jiymiie, ητο6η οοθ,π,ηηθηηθ A npeflCTaBJiHJio no cymecTBy hhcthh (-)-OHaHTHOMep (cTeneHb hhctoth: 90 βθο.% hjih dojiee). * Πο HaCTOHmeMy Η3θ6ρβΤΘΗΗΙ0 MOJKHO ΠρΗΜΘΗΗΤΒ Η3ΒΘΟΤΗΗΘ 6θΗ3ΗΜΗ- fla30Jī-TM0$aHaTHHe $yHrHiļH,jļbi. O^HaKO, κθ^τθλβηημκ HJieHaMM hbjih-iotch μθτηλ I-(6yTHjiKap6aMOHJi) 6eH3HMH,D,a30Ji-2-HJīKap6aMaT (οdiņe-pacnpocTpaHeHHoe HanMeHOBaHHe: čbhomhji, b nocjie^ionļeM ynoMHHa-θτοη Ka'K οοθ,π;ηηθηηθ I), 2-(4-THa30JiHJi) όβΗβνίΜκρ,Άβοπ (o6wmoe Ha3BaHHe:THā6eĶiļa30Ji, b ,ι^λβηθΚιιιθμ ynoMHHaeTCH Kan Οοθαηηθηηθ Π), μθτηλ 6eH3HMH,3ļa30Ji-2-HJi KapdaMaT (odbiHHoe Ha3BaHne KapdeH,n,a3HM, Ha3biBaeTCH ,n,ajiee KaK Οοθ,π,ηηθηηθ 111) 2-(2-$ypmi) 6θη3ημη,Π£30λ (o6bmHoe Ha3BaHne: $ydejiHfla30Ji, Ha3UBaeTCfl ^ajiee Kan οοθ,π,ηηθηηθ iy);-I,2-(Shc (3-μθτοκοη KapdoHHJi-2-TMoypeHflo) deH30Ji (odbmHoe Ha3BaHHe THatfiaHaT-MeTHJi, Ha3HBaeTCH flajiee Kan οοθ,π,ηηθηηθ Y); 1,2-dnc (3-9TOKCHKapdoHHJi-2-THoypeHflo) deH30Ji (odbmHoe Ha3Ba-ηηθ : THO$aHaTHa3HBaeTca ^ajiee Kan οοθ,π,ηηθηηθ YI); μθτηλ I--(2-n;HK^oreKceHH^KapdaMOH^)-2-deH3HMHfla3o^KapdaMaT (Ha3HBaeTCH 3flecb ,n,aaee KaK οοθ,π,ηηθηηθ yil) h noflodHbie hm. Οοθ^ηηθηηθ I flo yi Η3ΒΘ0ΤΗΗ KaK $yHrHE[Hfltr flJIH dopbdbl C pa3^HHHbIMH 3ad0^eBaHHHMH $pyKTOBbIX ΛΘρΘΒΒΘΒ, paCTHTe^bHbDC ΟΒΟΠ1ΘΜ, ΗΗΜΘΗΗ, ΠΙΠΘΗΗΙ1Η, OBCa, pyTH h noflodHbrc hm. Οοθ^ηηθηηθ yn paCKpblTO B saaBKe Ha naTeHT Ηποηηη KoKan F° 10004/87. Βθοοβοθ οτηοιπθηηθ KOMnoHeHTa A κ KOMnoHeHTy B odbmHO Ir50: 1-50, npeflnoHTHTe^bHO 1-20:1-20. 4
CoeflHHeHne C, πρημθηηθμοθ b HacTonmeM η3ο(5ρθτθηηη,ηβιιηθτοη 0,Ο-,π,ημθτηιι-Ο- (2,6-flHXJiop-4-MemJi(f)eHHJi) -φοοφορτκοατοΜ, pacKptr-TbiM b IlydjiHKaiļHH naTeHTa Πποηηη Κοκοκγ ίΓ° 20571/76.
Coe^HHeHHe 2) ηβληθτοη I-9THJi-I,4-^rHflpo-6,7-MeTHJieHflH^ okch-4-okco-3-xhhojihh KapčoHOBon khcjiotoh, onyC&gt;jiHKOBaHHOH b ,3anBKe Ha naTeHT Ηποηηη KoKan f 48042/82. Πο HacTOHmeMy Η3θ6ρθτβΗΗΐο coeflHHeHHe A, οοθ,π,ΗΗβΗΜβ B, coe-,ϋ,ΗΗΘΗΗΘ C, ΟΟβ,Π,ΗΗβΗΗβ jD OTHOCHTCH K aKTHBHBIM HHrpeflHeHTaM.
BecoBoe οτηοπιθηηθ coeflHHeHHH A, οοθ^μηθηηη B, οοθ,π,ηηθηηη C, coeflHHeHHH 2) odbniHO cocTaBJineT 1-50 : 1-50; 0-50 : 0-50 npefl-no^THTejibHO 1-20 : 1-20; 1-20 : 1-20. Πο 1n,aHHOMy H30(5peTeHHK) HX CMeiIIHBaiOT COBMeCTHO Η ΠρΗΜΘΗΗίΟΤ. CMecb aKTHBHbix ηηγρθαηθητοβ no flaHHOMy H3o6peTeHHio mokho npHMeHHTb Kax TaKOByio, xoth ,iļaHHyK) CMecb oforaHO πρημθηηιοτ b bh-fle npHMecH κ ηηθρτηημ MaTepnajiaM. Ecjih ΗβοδχοβΗΜΟ, τό fljiH o(5pa-30BaHHH pen;enTypbi fločaBJiniOT pa3JiHnHbie HefleHTejibHBJe nacTH, Tanne Kan noBepxHOCTHO-aKTHBHbie BeriļecTBa, CManMBaromHe cpe^CTBa, ahc-neprnpyiomHe cpejļCTBa; npenapara, cnoco6cTByioiiņie y,n1ep)KaHHK&gt; hjih npHJiHnaHHK) peLīenTypbi Ha očpaČaTbiBaeMOM ποβθρχηοοτη, 3arycTHTe-JIH, CTadHJIH3aT0pbI H nOflOČHbie HM; B 3aBHCHM0CTH OT IļeJIH npHMe- H8HHH, ,n;e3HH$eij;Hpyioinee cpe^CTBO fljin οθμηη H3roTaBJiHBaioT b βη,β,θ CMa^HBaioiiļerocH nopouiKa, ,nycTa, cnocoČHoro pacTeicaTbCH κοηι^θη-TpaTa, 3MyjibrapyiomerocH KOHiļeHTpaTa, hjih nofloČHoro hm.
HocHTejiH pjm yKa3aHH0H Bbnne pen;enTypH BKJHOHaiOT TBepflbie ho-CHTejiH, TaKHe Kan MejiKHft ποροιηοκ, rpaHyjiHpoBaHHbift προ^κτ, h nOflOČHbie HM, ΠρΗΗΘΜ HCXOflHHM MaTepHaJIOM CJiyiKHT KaOJIHHOBan TJIH-Ha, aTTanyjibrHTOBan rJiHHa, 6θητοηητ, KHCJiOTHaH rjiHHa, προφπιΐΗτ, TaJībK, flHaTOMHTOBan 3eMJin, KajībiļHT, η3mejibheHHan b ποροιποκ ope-xoBan cKopjiyna, KapčaMHfl, cyjii&gt;$aT aMMOHHH, CHHHeTHHecKaH rHflpa-THpoBaHHan flByoKHCb KpeMHHH, &quot;6ejiaH ca?ica&quot;, h nofloČHbie hm. K nncjiy ικπ,ηκΗΧ HOCHTeJieft othochtch HanpHMep kchjioji, MeraJi na$-TajiHH, η οχοαηηθ c ηημη; οπκρτΗ, HanpHMep, HSonponaHOJi, θτηιιθη-rjiHKOJib, u,ejui030Jib h noflodHHe hm; ,n,ajiee - κθτοηβγ, HanpHMep, aiļe-τοΗ, iļHKJioreKcaHOH, Η3θφοροΗ η οχοαηηθ c hhmh; pacTHTejibHbie Macjia, Tanoe KaK coeBoe Macjio, Macjio H3 οθμηη pacTeHHH xJionnaT-HHKa h noflodHbie hm; ,^HMeτHJIcyJIbφoκcHļ^, an;eTOHHTpHJi; Bo^a η T.fl. LV 10153 5 IIOBepXHOCTHO-aKTHBHĪ)le BemeCTBa, ΠρΗΜΘΗΗΘΜΗΘ flJIH 3MyJIbrapO-BaHHH, .IļHCneprHpOBaHHH, paCT6KaHHH npn CMa^HBaHHH H nOflOČHbDC iļejieft, BKJiKmaKT aHHOHHtie ποβθρχηοοτηο-βκτηβηβιθ cpe^cTBa, Tanoe Kax cJiomHbie ajiKHJičepHbie οφηρΗ, ajiKHJicyjib$OHaTH, apnjicyjib$OHaTH, AMaJIKHJI CyJIb$0np0H3B'0(niHHe HHTapHOM KHCJIOTbl, n0JIH0KCH3THJieH0Bblfi npOCTOM ajIKHJI apHJIOBBIM 3φκρ, $OC$Op-CO,n,ep}KamHe CJĪOJKHbie 3φκρΗ, npO,nyKTbI KOHfleHCaiļHH HaφτaJIHHCyJIbφ0KHCJI0TL·ϊ M $OpMaJIbAerHfla, H ΟΧΟ,ϋ,ΗΗΘ C HHMH. IIpHMepaMM ΗΘΗΟΗΗΒΙΧ ΠΟΒθρΧΗΟΟΤΗΟ-ΒΚΤΗΒΗΗΧ Ορθ,Π,ΟΤΒ CJiyKaT npocrae ajiKHJioBbie οφηρω nojiHOKCHSTHJieHa, npocrae ajrann-apMJIOBbie 3φπρΗ nOJIHOKCHSTHJieHa, dJIOKOBbie COnOJIHMepbl nOJIHOKCH— STHJieHa h nojmoKCHnponnjieHa, οποκηηθ 3φκρυ, o6pa30BaHHbie cop-čhtom h rapHoM khcjiotom, οποκηηθ βφκρπ, odpa30BaHHHe ποπηοκοη- 3ΤΗΛΘΗ0Μ, COpČHTOM H JKMpHOM KHCJIOTOft, TaKHCe nOflOČHbie MM.
HeflenTejibHHe α,ο6&amp;βκμ rjui peiļenTypH, ηηβιθ, πθμ yKa3aHHbie Bbinie noBepxHOCTHO-aKTHBHHe cpe,n,CTBa BKJimam, HanpHMep cjie,ūyio-nņie: πηγηηη cyj^aTH, jihūhhh cyjib$OHaTH, ajībranaTU, nojin (bmhh-jiobhH οπκρτ), ryMMHapadHK, CMC (Kap6oKCMMeTMJiu,eJiJU0Jio3a), ΠΑΠ (ΒΜΗβΗΘΟΠρΟΠΗΠ-φΟΟφΒτ) M nOflOČHHe MM. K peqenType bo3mo®ho ,π,ο^βμτβ flpyrwe lI]1θ3HHφe^HpyI0I^M6 cpefl-CTBa, ecjiM sto Ηβοόχο,π,ΗΜΟ, TaKMe Kan HyapnMOJi, oKCHH30Kca30Ji-OCHOBHOM XJIOpMfl MeflM, MMa3aJIKJI Μ nOflOČHbJn MM. MTaK, eCJIH κ pe-qenType AodaBMTb aHTpaxMHOH, to nojiyneHHan ,π,θ3ηηΦθε(ηρ^ιιφη κομ-Π03ΗΙ1ΗΗ ΒΟΟΠρΜΜΘΤ HCHO BbipaHteHHOe OTTaJIKHBaKDDļee ,Π,ΘΜΟΤΒΗΘ flJIH ΠΤΜΙ1. B 3T0M CJiyxiae Κ0ΜΠ03Η11ΗΗ flJIfl ,]1θ3ΗΗφθΚ11ΗΗ C6MHH ΠΟ flaHHOMy Μ3θ6ρθΤΘΗΗΚ) ΜΟΚΘΤ ČbīTb npHMeHeHa B CMeCM C ,n,pyrMMH Cpe.n.CTBaMM flJIH odpadOTKM COpHHKOB.
CoflepataHHe. aKTMBHbix ηηγρθ,π,ηθητοβ b TaKHx peu;enTypax cocTaB-ληθτ npeAnonTMTeJibHo 0-,1-99,9 Bec.%, Jiynme 0,1-80 βθο.$. ΚθΜΠ03ΜΒζΜΙ0 flJIH βθ3ΗΗφθΚΙ1ΜΗ ΟΘΜΗΗ ΠΟ HaCT0HI]ļ6My Η3θ6ρθΤΘΗΗΚ) MOJKHO ΠρΗΜΘΗΗΤΒ Β KaneCTBe ΠΟΚρΗΤΗΗ flyCTOM 9 nyTeM OKyHaHMfl HJĪH OnpblCKMBaHMH. B cjiyqae odpadoTKH οθμηη οπηπθηκθμ ,nycTOM hjīh onpbiCKHBaHHeM ,n;e3iiH$eiņipyK)meft κομπο3ηι1ηθμ no 1n,aHHOMy η3ο(5ρθτθηηιο, KOjnraecTBO ΠρΗΜΘΗΗΘΜΟΜ Κ0ΜΠ03ΜΙ1ΗΗ C0CTaBJIH6T Πρθ,ηΠΟηΤΗΤΘΠΒΗΟ OT 0,00005 £0 1%, cnMTan Ha aKTMBHbie ηηγρθ,π,ηθητη n cyxoM Bec οθμηη. B cJiynae nOrpy7KeHMH ΟΘΜΗΗ MJIM HX ΟΠρΒΙΟΚΗΒΒΗΗΗ C npHMeHeHHeM ,Π,θ3ΗΗφθΙ1Ηρ3Π0- β mew Κ0ΜΠ03ΗΙ1ΗΗ ΠΟ HaCTOHHļeMy Η3θ6ρθΤβΗΗΚ&gt; ΚΟΗΕζθΗΤραίζΗΗ aKTHB-ηογο HHrpeflHeHTa β cocTaBe ·κομπο3ηι1ηη cocTaBHT npeflno^THTejibHO οτ 0,01 Tjacra Ha I mjih. ,ηο 10%. OflHaKO, KOJinnecTBO πρημθηηθμομ K0Mn03HIļHH flBJIH6TCH ΠΘρβΜΘΗΗΟίί ΒΘΛΗΠΗΗΟΗ, Η3ΜβΗΗΘΜ0Η B 3aBHCH-mocth οτ rana npenapaTa hjih Tuna ceMHH mjih οθλβοκοχο3ημοτβθη-hlix KyjibTyp, noflJieHeaipx odpatforae. ΚθΜΠ03Μφ1Η flJIH ΑΘ3ΗφβΚΙ1ΗΡ1 ΟΘΜΗΗ ΠΟ HaCTOHmeMy Μ3θ6ρθΤΘΗΗΚ) npoHBJineT ογιςθοτΒθΗΗΟθ CHHepreTiraecKoe npeflOTBpamaroiiļee fleftCT-: Bne Ha pa3JiMnHHe 3a(5oJieBaHHH, pOflCTBeHHbie ceMeHaM. Οαηοβρθμθη-ho, flaHHaa κομπο3ηιριη otfjiaflaeT ranponuM οπβκτροΜ προτΗΒθΓρπ(5κο-βογο ,π,θμοτβηη , TaKsce OKa3HBaeT ycTOifanBoe npeflOTBpamaiomee flett-οτβηθ Ha rpndKH, odjiaflaioiEļHe υοτομπηβοοτβκ» k o(&amp;raHHM.fle3HH$eiņi-ργιοιςΗΜ cpe^CTBaM. Κ0ΜΠ03ΗΙ1ΗΗ ΠΟ HaCTOHIHeMy H30dpeTeHHK5 flJIfl ,Ι1Θ3ΗΗφθΚυ(ΗΗ ΟΘΜΗΗ HBJIHeTCH 3φφθΚΤΗΒΗ0Η OTHOCHTeJIbHO 3ad0JieBaHHH, pOflCTBeHHbK ceMeHaM, odycjioBJieHHbix TaKHM B03&lt;JyflHTejiHM, nan Erysiphe sp., Puccinia sp., Septoria tritici, Zeptosphacria nodorum, ‘Tilletia caries, ustilago tritici, fusarium sp.,Cochliobolus sativus, Helminthosporium gramineus,Ustilago nuda, Pyrenophara teres, Rhynchosporium segalis, Septoria sp.,Ustilago hordei, Ustilago avenae, Pyrenophora avenae, Fusarium nivale, Pyri-cularia oryzae, Cochliobolus miyabeanus, Gibberella fujikuroi^ Pseudomonas glumae ..... u &amp;./?,
PaccMaTpuBaeMoe n3odpeTeHHe ποηοηηθτοη dojiee ,π,θτθλβηο ny-τθμ cjieflyromnx npHMepoB, κοτορΗθ cJiy?KaT Bceiļejio flJiH ποηοηθηηη, (5e3 KaKMx-Jindo orpammeraift. Β πρηβο,π,ημβιχ flajiee npnMepax &quot;nacTH&quot; HJIH &quot;%&quot; HBJIHIOTCH ΒΘΟΟΒΒΙΜΜ.
IlpnMep pei;enTypbi I (,Αγοτ) 0,05 nāc™ οοθ,π,ηηθηηη A; 0,05 uacTH οοθ,π,ηηθηηη I, 20 nacTeii 0KCHM30Kca30Jia; 66,5 nacra KaojiHHOBoM γληηβι κ 13,4 nacTH TajībKa LV 10153 7 TDļaTeJibHO H3Mejib^aK)T h coBMecTHO nepeMempīBaioT, tjto πρηβο,π,ητ κ ņycTy no flaHHOivņr Η3θ6ρθτβΗΗΐο, ripn^eM KOHi^eHTpauļHH βκτηβηο-ΓΟ ΗΗΓρβ,Π,ΗΘΗΤΒ paBHa 0,1%. ΠρκΜβρ pei^enTypBī 2 (βγα) 2 tiacTH KOMnoHeHTa A, 10 tiacTeft οοββΗΗβΗΗΗ yn, 10 nacTett οοβ,ι^ΗΗΘΗΗΗ C, 68 tiacTeK KaGJMHOBoft rjiHHH h 10 tiacīeft TajībKa TiiļaTejibHO H3MeJibtiaK)T η οοβμθοτηο nepeMeniHBaioT, *ito flaeT ,nycT ΠΟ ,D,aHHOMy Η3θ6ρβΤΘΗΗΚ&gt;, COflepffiaiHHft 22% aKTHBHOrO HHrpeflHeHTa. ΠρΗΜβρ peE[enTypH 3 (JŅct) 20 nacTefi coeflHHeHHH A, 20 tiacTeft οοθ^ηθημη II, 20 *iacTeft οοββΚΗβΗΗΗ C, 20 tiacTeM coeflHHeHHH J&gt; , 20 uacTefi KaojiHHOBofi rJiHHH h 10 nacTeS TanbKa H3MeJibTiaioT η οοβμθοτηο nepeMeniHBaioT, tiTO flaeT flycT no HacTOflmeMy Η3θ6ρβτβΗΗΚ), HMeromnK 80%-ηοθ co-flepKaHHe aKTHBHoro HHrpeflueHTa. IIpHMep pei;enTypH 4 (CMatiHBaioinHftcfl ποροπιοκ) 0,2 ^acTH οοβ,α,ΗΗβΗΗΗ A, 2 *iacTH οοβ,π,ΗΗβΗΗΗ III, 0,3 tiacTH HMa3ajimia, 42,5 ^aera flHaTOMHTOBoft 3θμλη, 50 nacTefi dejioii cajKH, 3 tiacTH HaTpnii Jiaypnji cyjib$aTa (CMa^HBaiomee cpe^CTBo) h 2 yacTH KaJībiļHft πηγηηη cyjib$0HaTa ((u,HcneprHpyK)inee cpe^CTBo) TnjaTejibHO H3MejibtiaiOT h nepeMeniHBaioT οοβμθοτηο ao no;iyqeHHH CMa-^HBaiomerocH noponnca no flaHHOMy Η3θ6ρβτβΗΗΐο, co^epscamero 2,2% aKTHBHoro HHrpeflueHTa. ΠρκΜβρ peqenTypa 5 (CMatiHBaiomHfieH ποροιποκ) 2 yacTH coeflHHeHHH A, 0,1 tiacra οοβ,π,ΗΗβΗΗΗ iy, 5 nacTeK coeflHHeHHH C, 42,9 tiacra flnaTOMHTOBOft 3eMJin, 45 tiacTefi dejioft rjiHHH, 3 tiacTH HaTpHii JiaypHJi cyjib$aTa (CMaynBaio^ee ορβ,π,οτΒο) h 2 qacTM KajībiļHfi πηγηηη cyjib$OHaTa (,nlHcneprHpyioi]ļee cpeflCTBo) TmaTejibHO HSMejibtiaiOT h nepeMemHBaiOT οοβμθοτηο, *ιτο flaeT CMa-^BaromHKcH nopomoK no HacTonmeMy ΗβοδρβτβΗΗΐο, co,nIepHcameMy 7,1% aKTHBHoro HHrpeflHeHTa. ΠρΗΜβρ peqenTypBi 6 (CMa^KBaioiiiHHCH ποροπιοκ) 0,5 TiacTH coeflHHeHHH A, 5 tiacTeii cooj^hhohhh y, 10 tiacTeft οοβ,π,ΗΗΘΗΗΗ C, 10 tjacTeM coeflHHeHHH 2&gt; , 35 ^lacTeft ^ηπτομητοβοΚ 3βΜΗΗ, 84,5 nacTH (5eJioii caacH, 3 nacTH HaTpnfi JiaypHJi cyjib&lt;|)aTa 8 (CMa^HBaiomee cpeflCTBo) η 2 xjacTH KajībiļHii ηηγηηη cyjn&gt;$OHaTa (flHcneprHpyiomee cpeflCTBo) TmaTejibHO H3MeJibxiaioT h nepeMemn-BaET BMecTe, χιτο πρΗΒΟ,η,Ητ κ CMaxiHBaioineMycH nopomKy no npeflCTaB-JieHHOMy Η3ο6ρβτβΗΗΐο, HMeiomeMy 25,5%-Hyro KomjeHTpaLļHio aKTHBHoro HHrpeflHeHTa. ΠρΗΜβρ peiienTypn 7 (CnocodHHH pacTeKaTbcn KOHfleHTpaT) I «acTb coeflHHeHHH A, 0,1 xiacTH coeflHHeHHH yi, 3 TiacTH no~ jiH0KCH3THJieH copdnp MOHOOJieaTa, 3 xiac h KapdoKCHMeTHJmeJiJH0Jio3bi h 92,9 TiacTH BOflH CMemHBaiOT βμθοτθ h H3MejibxiaīOT b BJiaKHOM coc-TOHHHH flO ΤβΧ nop, nOKa aKTHBHHX ΗΗΓρθ^ΗΘΗΤΟΒ Ηθ ΠρΜΜΘΤ pa3Me-pa 5 MH HJIH ΜΘΗβθ, ΧΙΤΟ npHBOflHT K nOJiyxi6HHK) KOHIļeHTpaTa, cno-οο6ηογο pacTeKaTbCH, no HacTonmeMy Η3θ(5ρβτβΗΗΐο. KoHiļeHTpaijHfl aKTHBHoro HHrpe^HeHTa 3flecb cocTaBJineT 1,1¾. ΠρΗΜθρ pei;enTypH 8 (CnocodHHM pacTeKaTbcn KOHiļeHĪpaT) I ^acTb coeflHHeHHH A, 10 xiacTen coeflHHeHHH yn, 10 xiacTen coeflHHeHHH , 10,3 xiacTH nojiHOKCH3THJieH MOHOOJieaTa, 3 nacra KapdoKCHMeTHJiLiejiJiiojio3H h 73 xiacTH BOflti CMemHBaiOT βμθοτθ h H3-MeJIbHaiOT BO BJiaiKHOM COCTOHHHH flO ΤΘΧ nop, nOKa 3epH0 aKTHBHOrO HHrpeflHeHTa Ηβ πρΗΜβτ pa3Mepa 5 mk hjih μθηθθ, χιτο npHBOflHT κ nojiyxieHHio cnocodHoro pacTeKaTbcn KOHijeHTpaTa no flaHHOMy H3od-peTeHHio, c 2I$-hoh κoHiļeHTpai^n8m aKTHBHoro HHrpeflHeHTa. IIpHMep peiļenTypH 9 (CnocodHHii pacTeKaTbcn KOHiļeHTpaT) 0,5 xiacTM coeflHHeHHH· A, 10 xiacTeft coeflHHeHHH Π, 10 xiacTeM coeflHHeHHH C, 10 xiacTei5 coeflHHeHHH J) , 3 tiacra nojiHOKCH3THJieH MOHOOJieaTa, 3 xiacTH Kap6oKCHMeTHJmejDiK)ji03H κ 63,5 xiacTH BOflH TiiļaTejibHO CMeniHBaioT h H3MejibXiaiOT bo BJiastHOM coctohhhh flO flOCTH-ικθηηη βθ;ιη^ηηη 3epHa aKTHBHoro HHrpeflHeHTa 5 mk hjih Menee. Πο-jiyxiaioT cnocodHHft pacTeKaTbcn KOHi^eHTpaT no HacTOHineMy H3odpe-τθηηιο c 30,5%-Hoft KOHiļeHTpaiļHeii aKTHBHoro HHrpeflHeHTa. ΠρΗΜβρ peiļenTypH 10 OMyjibrHpynmHficfl KOHijeHTpaT) I nacTb οοθαηηθηηη A, 2 xiacTH coeflHHeHHH III, 1,5 xiacTK hmh-3ajiHJia, 3,5 xiacTH nojiHOKCHSTHJieH ajiKHJi apnjioBoro npocToro 3$Hpa (3MyjibrHpyiomee cpeflCTBo), 50 xiacTeft LjHKJioreKcaHa h 42 xiacTH kch-jiojia CMemHBaiOT BMecTe ajih noJiyxieHHH 3MyjibrHpyioinerocH KOHneHTpa-Ta no flaHHOMy H3odpeTeHHio, KMeiomero KOHijeHTpaiļHio aKTHBHoro hh- LV 10153 9 rpeflneHTa.3$. ΠρΗΜβρ peijenTypH II OMynbrapyioipftcH κοΗΐζθΗτρατ) I tīacTb οοθ,π,ηηθηηη A, 4 TiacTH οοθ,π,ηηθηηη iy, 4 tiacTH οοθ,π,η-ηθηηη C, 4 ηθοτη 0KCHH30Kca30Jia, 15 tjacTei5 ποληοκοηθτηλθη ajiKHJi-apHJiOBoro npocToro 3$wpa (3MyjibrHpyK)inee ορΘ,π,οτΒο), 52 yacTH ijhk-jioreKcaHa h 20 tiacTeH KCHJiojia CMemHBaiOT οοβμθοτηο ,π,λη πολ^θηηη 3MyjibrnpyioinerocH κomļeHTpaTa no HacTOHtneMy ΗβοόρβτΘΗΗΐο πρπ %-r-HOM coflepKaHHH aKTHBHoro HHrpeflņeHTa. ΠρΗΜβρ pei*enTypbi 12 (0MyjibrapyioiHH8cH KOHiļeHTpaT) 0,5 tiacTH οοθ,π,ηηθηηη A, 4 qacTH οοθ,π,ηηθηηη yn, 2 yacTH οοθ,π,ηηθηηη C, 15 nacTeM ποληοκοηθτηλθη ηλκηλθρηλοβογο npocToro 3$h-pa (3MyHbrHpyiomee ope^CTBo), 50 xiacTeft ijHKHoreKcaHa h 28,5 nac- ΤΘΗ ΚΟΗΛΟΛ3 ΠθρθΜΘΙΠΗΒ310Τ ΟΟΒΜΘΟΤΗΟ βΛΗ ΠΟΛ^ΘΗΗΗ 3MyHbrHpyi0IH6— γοοη KOHiļēHTpaTa no HacT0HDļ8My Η30(5ρβτθΗΗΚ), HMeiomeMy •IO,5^-Hyio KOHiļeHTpaiiHK) aKTHBHoro HHrpeflHeHTa.
ΠρΗΜθρ ΗΟΠΗΤΘΗΗΗ I
10 r ceMHH nmeHHiļH (οορτ: HopHH 61) HHOκyΛHpyίoτ h 3apa®a-I0T Tilletia caries , ΠΟΟΛΘ ^ΙΘΓΟ norpywaiOT B BOflHHH pacTBOp, coflepmamHH, b 3apaHee npeflycMOTpeHHoft KOHijeHTpaijHH KamflHiļ H3 CMaqnBaK)iqHXCH nopomKOB no (nlaHHOMy η30(5ρθτθηηιο, πoΛy-tieHHbrx TaKHM tkg očpa30M, Kan yKa3aH0 b npHMepax ηθγοτοβλθηηη peiļenTyp 4 ,π,ο 6, Ha οροκ 24 ti. 3aTeM ceMeHa BticeHBaiOT Ha bo3- ΒΒΠΠΘΗΗΟΜ ΠΟΛΘ Η ^ΛΒΤΗΒΗρ^ΊΟΤ. Ποολθ τογο, KaK mneHHiļa HatmeT κολοοητβοη, κολοοβη ηοολθ- ,Ι^ΠΟΤ Ha ΗΗΛΗ^ΜΘ ΚΗΚΗΧ-ΛΗ(5θ ΟΗΜΠΤΟΜΟΒ 3a60ΛeBaHHH ΗΛΗ Ha ΗΧ OT-CyTCTBHe. BHpaJKeHHOe Β % ϊίΗΟΛΟ 3,Π,0ρ0ΒΗΧ npopOCTKOB ΒΗΗΗΟΛΗΚ3Τ πο cjiefn,yK)meMy ypaBHeHHio: % Θ,Π,ΟρΟΒΗΧ προροοτκοΒ ΠηΟΛΟ 3Λ0ρ0ΒΒΙΧ ΠρΟρΟΟΤΚΟΒ Ha o(5paooTaHHOH λθληηκθ . %ΟΛΟ 3,Π,0ρ0ΒΚΧ ΠρΟρΟΟΤΚΟΒ Ha ,Π,ΘΛΘΗΗΘ ΗΘ HHOKyHHpOBaH-ΗΟΗ Η ΗΘ o6padOTaHHOii ΚροΜθ τογο, H3y^aioT οηηθργθτη^θοκοθ ,π,θΜοτβηθ, 0Ka3HBaeM0e Ha ceMeHa ,n,e3HH$eLiHpyK)meH κομποθηφιθΜ no flaHHOMy η3ο6ρθτθημιο no ΟΛΘ^ιοιηΘΗ μθτοαηκθ . ΙΟ ΟφφβΚΤ (Ε) , OJKHAaeMHfi οτ ΟΜΘΙζΘΗΗΗ ΟΟΘ.Ι1ΗΗΘΗΗΗ C flpyrHMH coe-,π,ηηθηηημη očhhho BbipaHcaraT cjie,nyK)iqHM ypaBHeHHeM: //)'/? 100 Ε =/77+/7 γ,π,θ Ε: BHpasceHHoe β % npeAOTBpamaiomee αθΚοτβηθ (BbrpaaceHHoe β % tIMCJIO 3,310ρ0ΒΗΧ ΟΘΗΗΙ1ΘΒ) , ΟΚΗ,Π,ΘΘΜΟΘ ΠρΗ HCn0JIb30BaHHH ΟΜΘΟΜ X η Υ β cooTBeTCTByiomHX KOJiHyecTBax ρ η y . . Μ : BupajKeHHoe β % npeflOTBpamaiomee ,π,βίίοτΒΗΘ (BbipajfceHHoe β % īiHCJIO 3,Π,0ρ0ΒΗΧ ΟΘΗΗΙ1ΘΒ) , Γ,Π,Θ X ΠρΗΜΘΗΗΙΟΤ ΟβΗΗΟΠΗΟ Β KOJHHieCT- Βθ ρ. /7 ·* BHpasteHHoe β % npeflOTBpamaiomee αθΜοτβηθ (Bbipa?KeHHoe β % ^iHCJIO 3fl0p0BbIX ΟΘΗΗΙ1ΘΒ) , Γ,Π,Θ Υ ΠρΗΜΘΗΗΙΟΤ OflHHOHHO Β KOJHHieCT-
Be / · ' Οφφθκτ (Ε), o?KH^aeMbiM οτ ομθπιθηηη οοθ,βηηθηηη X*, οοθαηηθ-ηηη y* ’ η οοθήηηθηηη Ζ* 9 β ο(5ιςΘΜ BbipascaeTCH cJie,!ļyK)mHM ypaB-ηθηηθμ: /7? 10 000 Ε’ = /??' + /7* + Ζ' - /71Š/?'+ Λ'-Ζ'-ί (f'·/??' 100 γ,π,θ : Ε9: BbipajKeHHbiK β % npeflOTBpamaronļHH οφφβκτ (BbipasteHHoe β % HHCJIO 3^0p0BbIX ΟΘΗΗΙ1ΘΒ) , ΟΚΗ,ΠφΘΜΟΘ ΠρΗ ΠρΗΜΘΗΘΗΗΗ ΟΜΘΟΗ X’, V ,
Zf 9 β οοοτΒθτοτΒγιοιςΗχ KOJiHuecTBax ρ»,^'* η ’ , /77' : BbipajKeHHoe β % npejļOTBpamaiomHH 3φφθκτ. (%) (BbipasceHHoe β % HHCJIO 3fl0p0BbDC ceHHiļeB, ecjiH X' πρΗΜΘ-HHK)T OflHHOtlHO Β ΚΟΛΗ^ΘΟΤΒΘ ρ'. fl( : BbipasceHHoe β % npe,noTBpamaiomHft θφφθκτ {%) (BbipajKeHHoe β % tiHCJIO 3fl0p0BbIX ΟΘΗΗΙ*Θβ) ΘΟΛΗ Υ* 9 ΠρΗΜΘΗΗΙΟΤ Ο,Π,ΗΗΟτίΗΟ B KOJIH-ΐίΘΟΤΒΘ γ* 9 . 7'·. BHpajKeHHHfi β % npe^OTBpamaiomMM θφφθκτ (%) (BbipaiKeHHoe β % HHCJIO 3fl0p0BbK ΟΘΗΗΙ*Θβ) , eCJIH Ζ/ * ΠρΗΜΘΗΗΙΟΤ OflHHO^HO Β KOJIH-ΗΘΟΤΒΘ Π' ypaBHeHwe, BupaiKaiomee θΦΦθκτηβηοθ ,π,θΚοτβηθ, οικη,π^θμοθ οτ
ΟΜΘΠΙΘΗΗΗ 4 ΟΟΘβΗΗΘΗΗΜ, ΜΟΚΘΤ dbITb npeflCTaBJieHO , HCXOflH Η3 npefl-CTaBJieHHOTO BiJme ypaBHeHHH. ΗθΠΗΠΙΗΘ ΓΟΒΟρΗΤΒ Ο TOM, *ίΤΟ eCJIH LV 10153
II jirodoe H3 4 οοθαμηθημΜ ηθ npoHBjiaeT npeAOTBpanļaiotnero AeftGTBHfl, θφφβκτ paBH03HaqeH 0JKHAaeM0My b pe3yjibTaTe CMemeHHH oc'TaJībHtK 3-x coeAHHeHHii (Cm. &quot; &quot; 15, pp.20-2, 1967).
Ecjih odHapyHceHHbiH θφφβκτ, noji^eHHtiM ripu CMeraeHHH AByx CTaHeT dojibmHM οκμα^θμογο ot οαηογο, moscho CKa3aTb, ^to cnHep-reTimecKOfe AeKcTBHe ,π,οοτηγ^το. 12
TaČJiHiļa I
CoeflHHeHHe A KoHiļeHTpaiļHH aKTHBHbK HHrpeflHeHTOB (^acra Ha I mjih.) Οοβ,Π,ΗΗΘΗΜΘ B I II III iy y yi CoeflHHeHne C yn CoeflHHeHHe 3) CofleprcaHHe (-) - eHaHTHOMepa y οοθ,β,ηηθηηη A (Bec.%) BbipaaceHHoe b % micjio 3fl0p0BbIX CeHHDļeB Hai*ņeHO OmHflaeMoe
x MHOKyjinpoBaHbi h He o6pa6oTaHH xx He HHOKyjiMpoBaHH κ ηθ odpadoTaHbi 13 LV 10153
Table 1 (Cont'd) Tadjiima I /npoaojisceHne 1/ 1 2 3 4 5 6 7 8 . 9 10 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 5 1 5 5 5 5 5 • 5 5 5 5 ·· 66.5 90.2 94.7 66.5 90.2 94.7 66.5 90.2 94.7 66.5 80 83 85 81 84 86 79 82 83 80 47 52 54 44 49 52 47 52 55 45
Cont'd
TatfjiHiļa I / ΠροΛοπκβΗΜβ 2/
Table 1 (Cont'd) 11 12 13 14 15 16 17 18 ' 19 20 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 5 5 5 5 5 • 5 5 5 5 5 - ·· 5 5 5 5 5 66.5 66.5 66.5 90.2 94,7 66.5-' 66,5 90.2 94.7 66.5 78 77 82 84 85 91 90 .96 99 91 47 45 47 52 54 52 50 54 57 53
Cont'd LV 10153 15
Table 1 (Cont'd) Te Grama I / IIpojīOJiaceHMe 3 / 21 22 23 24 25 26 27 28 · 29 30 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 5 5 5 5 · 5 5 5 5 5 5 5 5 5 5 ·· 5 5 5 5 5 5 • 1 1 1 1 66.5 66.5 66.5 66.5 90.2 94.7 66.5 66.5 90.2 94.7 90 92 91 90 93 98 95 94 99 100 51 52 51 52 56 59 52 50 54 57
Gont'ā 16
Table 1 (Cont'd) Ta6mnj;a I / ΠροηοπκβΗΗθ 4 / 31 32 33 34 35 36 ' 37 38 39 40 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 11.5 5 5 5 5 5 5 5 5 5 5 5 5 5 ••5 5 5 5 5 1 . 1 1 1 1 1 1 1 1 66.5 90.2 94.7 66.5 66.5 66.5_ 66.5 90.2 94.7 66.5 94 98 100 94 95 93 95 98 100 70 53 57 59 51 52 51 52 56 59 -
Cont'd LV 10153 τη
Table 1 (Cont'd) TaŪJiHua I / ΠροΛοπχβΗΗβ 5 / 41 42 43 44 45 46 47 48 . 49 50 0.5 11.5 0.5 11.5 0.5 11.5 5 ' 11.5 5 11.5 • 66.5 90.2 90.2 94.7 94.7 - - - 35 82 41 85 44 23 . 18 20 14 21 - - - - - - - -
Cont'd 18
Table 1 (Cont'd) Ta6mu,a I / npoflOJisceHHe 6 / 51 52 53 54 55 56 57 58 59 60 5 11.5 . 5 11.5 5 11.5 5 11.5 5 ·· 11.5 . - 19 23 16 20 18 18 16 22 18 18
Cont'd LV 10153 19
Table 1 (Cont'd) Tatfjmua I / IIpOflOJiKeHKe 7 / 61 62 63 0* 00** 5 11.5 5 10 0 0 0 100 20 ΠρΗΜβρ HCnHTaHHH 2 ΠρΗΜβΗΗΙΟΤ fle3HH$ei],HpyionjyiO ΚΟΜΠ03ΗυζΗΙΟ ΠΟ ,n,aHHOMy Μ3θ6ρβ'ΤβΗΜΚ) b ΒΗ,ιι,β οποοΟ(5ηηχ pacTeKaTbCH KOHiļeHTpaTOB, πρηγοτοβλθηηηχ no npHMepaM ot 7 ,iļo 9 nocpeflCTBOM onpHCKHBaHHH 10 r 3epeH ηϊιμθηη (οορτ: Ηβιο-Γολαθη)·, 3apaJK6HHbIX Helminthosporium gramineus. 3aTeM 3epHa η^μθηη BbicenBaioT Ha pacnojiojKeHHOii Ha βο3βηπιθηηομ ytiacTKe, flejiHHKe m KyjibTHBnpyioT TaM. riocjie τογο, KaK H^MeHb HatiHeT KOJiocnTbCH, npOBOflHT nccjieflOBaHHe Ha HajiHHne hjih ot-cyTCTBHe 3a6ojieBaHHH. Bbmuc.jiHiOT BbipasceHHoe b % nncjio 3flopoBbix ceHHiļeB TaKHM we o6pa30M, Kax b npHMepe I HcnHTaHHH. CnHepre-THnecKHH θφφβκτ πο,π,τΒθρκίφίοτ nyTeM cpaBHeHHH HaM^eHHoro nona-3aTejiH c OKH^aeMbiM nonasaTeJieM. Pe3yjibTa-rbi npHBefleHH b TaČJiH-iļe 2. LV 10153 21
TačJMLja 2 Οοβ,Π,ΗΗβΗΗΘ A I II III KoJIHHeCTBO aKTHBHHX ΜΗΓρββΗΘΗΤΟΒ (r/100 κγ - cyxnx ceM.) flnOTIMUOUIJtD R . iy y yi yn CoeflHHeHHe C CoeflHHeHHe CoflepjKaHHei I) - eHaHTHOMepa y coeflHHeHHH A (bbc.%) %CJIO 3fl0p0BbIX ΟΘΗΗΙζθΒ, HaH,n,eHHoe BbipameHHoe b % OacHAaeMoe
x MHOKyjinpoBaHH m He o6pa(5oTaHH
xx He HHOKyjmpoBaHH h He odpaČOTaHH 22
Table 2 (Cont'd) TačJinua 2 / ΠροβοπχβΗΜβ I / 1 2 3 4 5 6 7 8 9 10 1 1 1 1 1 1 1 1 . 1 1 5 . 5 5 5 5 5 5 5 5 5 • * 66.5 90.2 94.7 66.5 90.2 94..7 66.5 90.2 94.7 66.5 81 85 87 80 83 85 82 . 87 88 79 32 42 48 32 42 48 32 42 48 32
Cont'd LV 10153 23
Table 2 (Cont'd) Ta6nvina 2 / ripOflOJiHceHHe 2 / 11 12 13 14 15 16 17 18 19 20 1 1 1 1 1 1 1 1 1 1 5 5 5 5 5 5 5 5 5 5 ·· 5 5 5 5 5 66.5 66.5 66.5 90.2 94.7 66.5 66.5 90.2 94.7 66.5 79 77 81 86 89 88 90 96 98 89 32 32 32 42 48 42 - 42 50 55 42
Cont'd 24
Table 2 (Cont'd) Tatfjmua 2 / TIpo;no;raceHMe 3 / 21 22 23 24 25 26 27 28 29 30 1 1 1 1 1 1 1 1 1 1 5 5 5 5 5 5 l 5 - 5 5 5 5 5 5 5 .. 5 5 5 5 5 '5 5 5 5 5 66.5 66.5 66.5 66.5 90.2 94.7 66.5 66.5 90.2 9 4.7 87 89 86 88 93 96 93 96 99 100 42 42 42 42 50 55 42 42 50 55
Cont'd 25 LV 10153
Table 2 (Cont'd) TatfjiKija 2 /npoflOJisceHHe 4 / 31 32 33 34 35 36 37 38. 39 40 1 1 1 1 1 1 1 1 1 16 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 '66.5 90.2 94.7 66.5 66.5 66.5 66.5 90.2 94.7 66.5 92 97 100 91 92 90. 93 98 · 100 72 42 50 55 42 42 42 42 50 55 - Cont'd -
Table 2 (Cont'd) TadJiMua 2 / ΠροΗοπχβΗΗβ 5 / 41 42 43 . 44 45 46 47 48 49 50 1 16 1 16 1 16 5 16 5 16 ·· 66.5 90.2 90.2 94.7 94.7 -· 32 98 42 100 48 0 0 . 0 0 0 - Cont'd LV 10153 d't
Table 2 (Cont'd) TaCmima 2 / npoflOjnceHHe 6 / 51 52 53 54 55 56 57 58' 59 60 5 16 5 16 5 16 5 16 5 ·. 16 - 0 0 0 0 0 0 0 0 0 35
Cont1d 28 / ΠροΑοπκβΗΗβ 7 /
Table 2 (Cont'd) Tadjnma 2 61 62 63 0* 00** 5 * * 16 5 14 0 0 0 100 . LV 10153 29
Tačjimja 3
ΟΟΘ,Π,ΗΗΘΗΗΘ A I II III KOJIHĪieCTBO ΕΚΤΗΒΗΗΧ Οοθ,π,ηηθηηθ B -.1 y ΗΗΓρβ,Π,ΜΘΗΤΟΒ (r/IOO κγ - cyxnx θθμ.) y yi yii Οοθ,π,ηηθηηθ C Οοθ,π,ηηθηηθ 2) Co,ii,epjKaHHe (-) - BHaHTHOMepa b θοθ,π,ηηθηηη A (βθθ.%) %CJIO 3fl0p0BbIX CeHHIļeB, BBipa)K6HH0e B % HaM^eHO OjKH^aeMoe
x I4H0KyjiMp0BaH0 η ηθ oČpačoTaHO xx He nHOKyjiHpoBaHO κ ηθ odpadoTano 30 ΠρΗΜθρ KCntlTaHHH 3
KaffiflblM H3 3MyJIbrnpyJ0qHXCH KOHI^eHTpaTOB, OTHOCHLpMCH Κ fle-3HH$eiiHpyi0meH Κ0ΜΠΟ3ΜΙ1ΗΗ ΠΟ IDiaHHOMy Η3θ6ρβΤΘΗΗΚ), ΓΟΤΟΒΗΤ COOT- ΒθτοτΒβΗΗο npMMepaM pei}enTypbi οτ 10 ρ,ο 12 HaHoenT onpncKHBaHHe Ha 10 r 3epeH η^ιμθηη (οορτ: Bufleo), 3apa«eHHbix 3aTeM ceMeHa η^μθηη BucenBaioT Ha βο3βηιπθηηοη .nļeJiHHKe h KyjibTM-BHpyioT. Kor^a OTMeHb noHfleT b kojioc, προροοτκκ H3yyaioT Ha Ha-mme hjm OTcyTCTBne KaKHX-Jin(5o οημπτομοβ 3a6ojieBaHHfl. Bbipa-JKeHHOe B % tļHCJIO 3flOpOBbIX CeHHIļeB BbBiHCJIHIOT TaKHM ?Ke 06pa30M, KaK yKa3aHO Ha npKMepe μοπητεηηη I. CnHepreTjmecKHft θφφθκτ ycTaHaBJiHBaioT nocpe^CTBOM cpaBHOHHH HaftfleHHoro κ οικη^θμογο noKa3aTeJiefi. Pe3y^bTaTH noKa3aHH b Tatoqe 3. 31 LV 10153
Table 3 (Cont'd) TatfjiHua 3 / ripoflOJiaceHMe I / 1 2 3 4 5 ' 6 7 8’ 9 10 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 10 10 10 10 10 10 10 10 10 10 66.5 90.2 94.7 66.5 90.2 94.-7 66.5 90.2 94.7 66.5 82 87 90 83 88 90 81 86 89 79 66 75 76 66 75 77 65 74 76 65 1
Cont'd
Tatfjmua 3 / ΠροΛοπχβΗΗβ 2 /
Table 3 (Cont'd) 11 12 13 14 15 16 17 18 ' 19 20 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 10 10 10 10 10 *· 10 ' 10 10 10 10 • 10 10 10 10 10 66.5 66.5 66.5 90.2 94.7 66. S 66.5 90:2 94.7 66.5 79 78 81 87 91 88 89 93 96 85 65 64 67 76 77 66 66 75 77 65 - Cont'd - 33 LV 10153
Table 3 (Cont'd) Tatfnima 3 / ΠροβΟίΐχβΗΚΘ. 3 / 21 22 23 24 25 26 27 0.5 0.5 0.5 0.5 0.5 0.5 30.5 10 10 10 10 10 10 10 10 10 10 •10 10 66.5 66.5 66.5 66.5 90.2 94.7 66.5 84 85 83 87 92 96 · 100 65 65 64 67 76 77 - Cont'd - 34
Table 3 (Cont'd) Tatfjiima 3 / ripoflOJiaceHHe 4 / 28 29 30 31 32 33 34 • 35 ' 36 37 0.5 30.5 0.5 30.5 0.5 30.5 10 30.5 10 30.5 66.5 90.2 90.2 94.7 94.7 58 100 69 100 71 25 18 28 20 23
Cont’d - LV 10153 35
Table 3 (Cont'd) Tadmuja 3 / ΠρσΛΟίΐχίβΗκβ 5 / 38 39 40 41 42 43 44’ 45 46 47 10 30.5 10 30.5 10 30.5 10 30.5 10 30.5 • 16 24 17 24 16 19 15 25 21 5 •
Cont'd 36 36 / ripotojisceHHe 6 /
Table 3 (Cont'd) TaCjiHiļa 3 48 0* . 00** . 10 * 0 0 100
TaČJinija 4 LV 10153 37
CoeflHHeHHe A
I
KoJIH^eCTBO aKTHBHOrOHHrpeflueHTa (r/100 κγ - cyxHX ceM.)
CoeflHHeHMe B IIIII iy y yi yn
Οοθ,π,μηθηηθ C
CoeflHHeHHe J)
Co^ep^aHHe (-) - 3HaHthomepa y οοθ,π,ηηθηηη A (Bec.%) %1CJI0 3,]ļ0p0BbIX ΟΘΗΗΙ1ΘΒ, BtipajKeHHoe b %
Haii.n.eHO
CbKKflaeMoe
x MHOKyjiHpoBaHO h He odpačoTaHO
xx He HHOKyjinpoBaHO h He očpaČOTaHO 38 ΠρΗΜβρ ΜΟΠΗΤβΗΜΗ 4 ΙΟ r ceMHH nmeHMiļH (οορτ ΗορκΗ # 73), 3apa»eHHhix Fusaria nivale ♦ noKpbiBaioT πο,π,ο(5ηο ,nycTy cMamiBaiomHMHch noponiKa-mm, Ka*,iļUM OTflejibHo no HacTOHmeMy μ3ο(5ρθτθημκ) , npuroTOBJieHHbiMH, KaK yKa3aH0 b npHMepax pei^enTyp 4 h 5. Jļajiee ceMeHa nmeHHijbi bh-cenBaioT Ha B03BbimeHHoK ^θληηκθ h KyjibTHBHpyiOT TaM. Πο ,π,οοτμθ-HHH ΠρΟρΟΟΤΚΟΒ ΠΠΙΘΗΗΙ^Η CTa,]ļHH pa3BHTHH, XapaKTepH3yeM0ft ΠΟΗΒ-λθημθμ 4 jihctkob, hx HCCJieflyioT Ha ποηβλθηηθ vim OTcyTCTBne οημπ-tomob 3a(5ojieBaHPur. %cjio 3flopoBbix προροοτκοΒ, BbipajKeHHoe b %, BbmHCJiHiOT, Kan yKa3ano b npuMepe HcnbīTaHHH I. Pe3yjibTara noKa-3aHbi b TadjiHUļe 4.

Claims (18)

  1. LV 10153 ay ΦΟΡΜΥΜ K30BPETEHMH I. K0Mn03HDļHH AJIH ,Π,θ3ΜΗφθΚφϊΗ ΟΘΜΗΗ, OTJIH^aiOIIļaH” c η τθμ , ητο b Ka^ecTBe aKTHBHO ,n,eftCTByK)DQ[ero HHrpe^neHTa co-AeprnHT: (A) (E)-ī~(2,4-In,HXJiop$eHHJi)-4,4-1ĶHMeTHJi-2-(I,2,4-TpHa30Ji--I-HJi)-I-neHTeH-3-0Ji b KOJiimecTBe Ηβ μθηθθ 50 βθο.% η (B) no μθημιθΜ Mepe ο,π,ηη &lt;5eH3HMH,n;a30Ji-TH0$aHaTHHjK $yHra-iļHfl, b βθοοβομ οοοτηοπιθηηη (A): (B) paBHOM 1-50 : 1-50.
  2. 2* ΚθΜΠθ3Ηφ1Η Π0Π.Ι, OTO&lt;iaBIHaflCfl ΤΘΜ, tJTO coflepstHT (-)-(E)-I-(2 ,4-(π,ηχ.ιιορΦθηη;ϊ) -4,4-^^^0-2-( 1,2,4-TpHa30Ji-I-HJi)-I-neHTeH-3-0Jia y (A) b KOJinnecTBe He μθηθθ 80 βθθ.%. 3. K0Mn03HIļHfl non.I, o ī JI h ί a B iļ a h c fl τθμ, ητο co^epjKHT A, npeflCTaBJiHioīpH no cyn?ecTBy micīuPi (-)-(E)-I-(2,4-ΑΗΧΛορφθΗΟ )-4,4 -flHMe thjī-2- (1,2,4-Tpna3 ojī- I-o) - Ι-πθητθη-3-oji . 4. K0Mn03HUļHH Π0Π.Ι, OTJIH^aKUlļaaCH ΤΘΜ, ^TO coAepacHT οοθαηηθημθ B, npeACTaBJifliomee no μθηηπθΑ Mepe l οθη, BbīdupaeMbiM H3 rpynnH, coAepjKamen: μθτο I-(6yTOKap6oHHJi)-deH3HMHAa30Ji-2-HJi-KapdaMaT ,2-(4-THa30Jio)()eH3KMHfla30Ji &gt; μθτο-6eH3HMHfla30Ji-2-HJi-KapdaMaT, 2-(2-$ypHJi) 6eH3HMH,n,a30Ji; 1,2-dnc (3-MeT0KCHKapd0HHJi-2-TH0-ypeHA0)6eH30Ji; I,2-6nc(3-3TOKCHKap6o-HHJi-2-THoypeHAo)6eH30Ji η μθτο I-(2-ipiKJioreKceHOKap6aMOo)--2-deH3HMHAa30JiKap6aMaT. 5. ΚθΜΠ 0 3 HlļHH Π0Π.Ι, OTJIH^aiOIIļaflCfl τθμ , ητο COflepjKHT ΜΗΓρθΑΗΘΗΤΗ A H B B ΒΘΟΟΒΟΜ ΟΤΗΟΠΙΘΗΗΗ (Α)ί(Β) 1-20 : 1-20. 40 6. ΚθΜΠ03ΗΙ1ΗΗ ΠΟΠ.Ι, OTJIHWaj3HļaflCS ΤΘΜ, ΠΤΟ flOnOJIHMTeJlbHO ΟΟ,ϋ,βρΚΗΤ (C) 0,0-flHMeTHJi-0-(2f6-flHXJiop-4-MeTHJi$eHHJi) φοοφοροτκοατ. 7. ΚθΜΠ03ΗΕ(ΗΗ ΠΟΠ.Ι, OTJIHTiajOIIļaflCfl ΤΘΜ, tiTO flOnOJIHHTeJIbHO CO^epJKHT (C) 0,0-βΗΜβΤΗΑ-0-(2,6-βΗΧΛθρ-4-ΜΘΤΗΛφΘΗΗΛ) φθθφθρΤΗθαΤ h/hjih ( ) I-3THJI-I,4-flHrHflpO-6,7-MeTKJieHflHOKCH-4-OKCO-3-XHHOJIHH Kap6oHOByio KHCJiOTy hjih ee cojib. 8. K0Mn03HLļHH ΠΟ Π.6, OTJIHHaiomaiīCil ΤΘΜ, ΠΤΟ co^epjKHT A, B h C b βθοοβομ οοοτηοιπθηηη (A): (B): (C). paBHOM 1-50:1-50:0-50. 9. Κομπο3ηι1ηη no π.7, ο τ λ η ΐ a b m an C fl TeM, ^TO coflepMT A, B, C, b βθοοβομ οοοτηοιιιθηηη (A): (B): (C):( ) paBHbiM 1-50:1-50:0-50:0-50. 10. ΚθΜΠ03Η11ΗΗ ΠΟ Π.7, Ο T JI 0 « a K1 Ilļ a f[ C fl ΤΘΜ, ΠΤΟ coflepjKHT A, B, C h J) b βθοοβομ οοοτηοιιιθηηη (A):(B):(C):(^) 1-20:1-20:1-20:1-20. 11. ΚθΜΠ03ΗφίΗ ΠΟ ΠΠ.1,6 HJIH 7, OTJIHiaiOpflCfl ΤΘΜ, ^ITO ftOnOJIHHTeJIbHO ΟΟ^βρίΚΗΤ ΠΟ ΜΘΗΜΙΘΗ Μθρθ I ΗΗθρΤΗΗΗ HOCHTeJIb. 12. Κ0ΜΠ03ΗΙ1ΗΗ ΠΟΠ.Ι, OTJIH^aiOmaflCH ΤΘΜ, ΗΤΟ HaXOflHTCH Β φθρΜβ flyCTa flJIH ΟΟ,ΚθρΚβίςθΓΟ ΕΚΤΗΒΗΗΘ ΗΗΓρθβΗΘΗΤΒΙ no ππ.1,6 hjih 7, no MeHbineft Mepe I τβθρ,π,ηη ηηθρτηηΚ HOCHTeJIb Η np0H3B0JIbH0 OKCHH3OKCa30JI HJIH HMa3aJIHJI. LV 10153 41 13. Κ0ΜΠ03ΗΙ1ΗΗ ΠΟΠ.Ι, OTJIiMJaiOmaHCi! ΤβΜ, WTO HaxoflMTCH b βη,β,θ CMatiHBaiomerocH nopomKa, coflepacamero aKTHBHbie ηηγρθ,π,ηθητη no nn.1,6 hjih 7, cManHBaiomee cpe^CTBo, flHcnepra-pyiotnee cpe^CTBO, no MeHbmefi Mepe I τβθρ,π,ηη HOCHTejib h, προπ3-BOJIbHO, 0KCHH30KCa30JI HJIH HMa3aJIHJI. 14. ΚΟΜΠΟ 3HĪ1HH ποπ.Ι, OTJioaionļaHCH ΤΘΜ, ^το HaKOflHTCH b βη,ιι,θ cnocoČHoro pacTeKaTbcn KOHijeHTpaTa, co^epJKa-mero aKTHBHbie ηηγρθ,π,ηθητη no nn.I-,6 hjih 7, noBepxHOCTHO-aKTHB--Hbie cpe^CTBa, no MeHbmeft Mepe I jkhakhm HOCHTejib h, np0M3B0JibH0, 0KCHH30KCa30JI HJIH HMa3aJIHJI. 15. ΚθΜΠ03ΗΕζΗΗ ΠΟΠ.Ι, OTJIH^aiOUļaHCH T6M, HTO HaxoAHTCH b BHfle 8Myjibrnpyiomero KOHiļeHTpaTa, co,iiep?Kamero aK-τμβηβιθ HHrpeflneHTbi no nn.I hjih 6, no μθηβιπθΜ Mepe ojjho noBepx-HocTHO-aKTHBHoe Be^ecTBO, no MeHbiueft Mepe ο,ιιηη jKHflKnfi HOCHTejib H, np0H3B0JIbH0, 0KCHH30KCa3OJI HJIH HMa3aJIHJI. 16. Κομπο3ηε1ηη ποπ.ΙΟ, ο τ ji h n a b Dļ a fl C fl TeM, *ίΤ0 KOHiļeHTpaiļHH aKTHBHoro HHrpeflHeHTa cocTaBJineT 0,1-99,9 Bec.%, cnHTafl Ha očiijHft Bec κομπο3ηι;ημ. 17. ΚθΜΠθ3ΗφίΗ non.IO, OTJiHnaioiiiaHCfl τθμ, hto KOHLļeHTparļHfl aKTHBHoro HHrpeflHeHTa cocTaBJineT 0,1-80 Bec.%, cnHTan Ha οδιη,ΗΗ Bec κομπο3ηΙ1ΗΗ.
    18. Cnocoč dopbdbi c 3ačoJieBaHKflMH οθμηη , OTJiHnaio-m η h c η τθμ, ητο Ha ceMH, nopaiKeHHoe ρο,ηοτΒβΗΗΟβ eMy (5o-jie3Hb» HāHocHT θφφβκτΗΒΗΟ fleiiCTByioii{ee KOJiHtiecTBo ,n;e3nH$eiīHpyio-meii Κ0ΜΠ03ΗΙ1ΗΗ ΠΟ ΠΠ.1,6 HJIH 7. Πο flOBepeHHOCTH LV 10153 ΡΕΦΕΡΑΤ ripeflJiojKeHa κομπο3ηι1ΗΗ pfla βββΗΗφβκφΐΗ οθμηη , BKJHo^aioinaH (A) -1 - (2,4-ΑΗΧΛθρφβΗΗ ji ) -4-αημ6τη ji-2- (1,2,4-Tpna3 ojī- I -hji ) -1 -πβΗτβΗ-3-ο;ι b KOJiimecTBe He μθηθθ 50 Bec.% (-) - (E) -2,4-flHXJiop$eHti ji ) -4,4-βΗΜθτιυϊ-2- (1,2,4-Tpna3 oji- I-m) --I-neHTeH-3-ojia h (B) no ΜβΗΒΐπθΗ Mepe I 6eH3HMH^,a30Ji THO$aHaTHuK (foraraijHfl h HeodH3aTeJibHo coflepHcamafl (C) 0,0-AHMeTHJi-0-(2,6-flMXJiop-4-MeTHJi$eHHJi) $oc$opoTnoaT h/hjih ( ) I-3THJI-1,4^^^0-6,7-MeTMJieH,n1HOKCn—4—okco—3-xhhojimh Kap(5oHOByio Knc;iOTy hjih ee coji&amp;, npoab JiHiomaH BbicoKoe CHHepre-TH^iecKoe npeAOTBpamaFomee fleftCTBue Ha pa3Jm^Hbie 3a6ojieBaHHH οθμηη , pflHOBpeMeHHO očJiaflaeT ιπκροκηΜ npOTHBorpHdKOBHM οπβκτροΜ .ņeRctbhh h noKa3HBaeT ycTotaBoe npe^npeflHTejibHoe αθμοτβμθ b OTHOIIieHHH rpHČKOB, yCTOifaHBbīX K OČbTCHblM fle3HH$eiiHpyi0mHM cpefl- CTBaM. LV 10153 KOMPOZĪCIJA SEKLU DEZINFICĒŠANAI IzPdtdro.iuma formula 1 . Kompozīcija sēklu dezinficēšanai, kas atšķiras ar to, ka satur kā aktīvās sastāvdaļas: (A) (E)-1-(2,4-dihlorfenil)-4,4-dimetil—2-(1,2,4-triazol-1 -il)-1 -pentēn-3-olu ne mazāk kā 50 svara % un (B) vismaz vienu benzimīdazol-tiofenāta fungicīdu svara attiecībās (A):(E) = 1-50:1-50. .2. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka (A) satur ne mazāk kā 80% enantiomēra (-)-(E)-1-(2,4-dihlorfenil)-4,4--dimetil-2-(1,2,4-triazol-1-il)-1-pentēn-1-olu.
  3. 3. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka (A) satur būtībā tīru enantiomēru (-)-(E)-1-(2,4-dihlorfenil)-4,4-dime-til-2-(1,2,4-triazol-1-il)-1-pentēn-1-olu.
  4. 4. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka sastāvdaļa (B) satur vismaz vienu vielu no sekojošas izvēles grupas: me-til-1 -(butilkarbamoil)-benzimīdazol-2-il-karbamāts, 2-(4-tiazolil)-benzimīdazols, metil-benzimīdazol-2-il-karbamāts, 2-(2-furil)benz-irnīdazols, 1,2-bis(3-metoksikarbonil-2-tioureīdo)benzols un metil--1 - (2-oikloheksenilkarbamoil )-2-bezimīdazolkarbarnāts.
  5. 5. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka satur sastāvdaļas (A) un (B) svara attiecībās (A):(B) = 1-20:1-20.
  6. 6. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka papildus satur (C) 0,0-dimetil-0-(2,6-dihlor-4-metilfenil)tiofosfātu.
  7. 7. Kompozīcijā atbilstoši 1.p., kas atšķiras ar to, ka papildus satur (C) 0,0-dimetil-0-(2,6-dihlor-4-metilfenil)tiofosfātu un/vai (D) 1-etil-1,4-dihidro-6,7-metilēndioksi-4-oksohinolīnkarbon-skābi vai tās sāli. ζ
  8. 8. Kompozīcija atbilstoši 6.p., kas atšķiras ar to, ka satur (A), (B) un (0) svara attiecībās (A):(B):(C) = 1-50:1-50:0--50.
  9. 9. Kompozīcija atbilstoši 7.p., kas atšķiras ar to, ka satur (A), (B), (0) un (D) svara attiecībās (A):(B):(0):(D) 1-50:1-50:0-50:0-50.
  10. 10. Kompozīcija atbilstoši 7.p., kas atšķiras ar to, ka satur (A), (B), (0) un (D) svara attiecībās (A):(B):(C):(D) 1-20:1-20:1-20:1-20.
  11. 11. Kompozīcija atbilstoši 1., 6. un 7.p., kas atšķiras ar to, ka papildus satur vismaz vienu inertu nesēju.
  12. 12. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir smalka pulvera (dusta) veidā, . kurš satur aktīvās sastāvdaļas saskaņā ar 1., 6. un 7. p., vismaz vienu cietu inertu nesēju un pēc paēizvēles oksiizoksazolu vai imazalilu.
  13. 13. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir slapināma pulvera veidā, kurš satur aktīvās sastāvdaļas saskaņā ar 1., 6.. un 7.p., slapinātāju, disperģētāju, vismaz vienu inertu nesēju un pēc pašizvēles oksiizoksazolu vai imazalilu.
  14. 14. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir izplūst spējīga koncentrāta veidā, kurš satur aktīvās sastāvdaļas saskaņā ar 1., 6. un 7.p., virsmasaktīvas vielas, vismaz vienu šķidru nesēju un pēc pašizvēles oksiizoksazolu vai imazalilu.
  15. 15. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir emulģē jarna koncentrāta veidā, kurš satur aktīvās sastāvdaļas saskaņā ar 1. un 6.p., vismaz vienu virsmasaktīvu vielu, mazākais vienu šķidru nesēju un pēc pašizvēles oksiizoksazolu vai imazalolu.
  16. 16. Kompozīcija atbilstoši 10.p., kas atšķiras ar to, ka aktīvo sastāvdaļu koncentrācija ir 0,1-99,9 svara %, rēķinot uz kompozīcijas kopējo svaru.
  17. 17. Kompozīcija atbilstoši 10.p., kas atšķiras ar to, ka aktīvo sastāvdaļu koncentrācija ir 0,1-80 svara %, rēķinot uz kompozīcijas kopējo svaru.
    18. Paņēmiens sēklu slimību apkarošanai, kas atšķiras ar to, ka sēklu, kura inficēta ar iedzimtu slimību, apstrādā ar efektīvas iedarbības dezinficējošu kompozīciju atbilstoši 1., 6. un 7.p. LV 10153 KOMPOZĪCIJA seklu dezinficēšanai Kopsavilkums Ieteikta kompozīcija sēklu dezinficēšanai, kas satur (A) (E)-1“(2,4-dihlorfenil)-4,4-dimetil-2-(1,2,4-triazol~1--il)-1-pentēn-3-olu ne mazāk kā 50 svara %, (E)-1 - (2,4-dihlorf enil )-4,4-dimetil-2- (1,2,4-triazol--1 &quot;il)-1 -pentēn-3-olu un (B) vismaz vienu benzimīdazola-tiofanāta fungicīdu un neobligāti satur (0) 0,O-dimetil-O-(2,6-dihlor-4-metilfenil)tiofosfātu un/vai (1) ) 1-etil--1,4-dihidro~6,7-metilēndioksi-4-okBO-3-hinolīnkar-bonskabi vai tās sāli. Kompozīcija uzrada augstu sinergisku aizsargājošu iedarbību uz sēklām pret dažādām slimībām, vienlaicīgu plaša spektra pretsēnīšu iedarbību un stabilu profilaktisku iedarbību uz sēnītēm, kas ir izturīgas pret parastajiem dezinfekcijas līdzekļiem. L V 10153 Izgudrojuma formula 1 . Kompozīcija sēklu dezinficēšanai, kas atšķiras ar to, ka satur kā aktīvās sastāvdaļas: (A) (E)--1 - (2,4-dih.lorfenil )-4,4-dimetil-2- (1 ,2,4-triazol-1 -il)-1 -pentēn-3-olu ne mazāk kā 50 svara % un (B) vismaz vienu benzimīdazol-tiofenāta fungicīdu .svara attiecībās (A):(B) = 1-50:1-50. 2. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka (A) satur ne mazāk kā 80% enantiomēra (-)-(E)-1-(2,4-dihlorfenil)-4,4--dirnetil-2- (1,2,4--triazol-1 -il )-1 -pentēn-1 -olu. 3. Kompozīcija atbilstoši 1.p., kas atšķiras ar' to, ka (A) satur būtībā tīru enantnomēru (-)-(E)-1-(2,4-dihlorfenil)-4,4-dime-til-2-(1,2,4-triazol-1-il)-1-pentēn-1-olu. 4. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka sastāvdaļa (B) satur vismaz vienu vielu no sekojošas izvēles grupas: me-til-1 -(but.ilkarbamoil )~benzimīdazol-2-il~karbamāts, 2-(4-tiazolil)-benzimīdazols, metil-benzimīdazol-2-il-karbamāts, 2-(2-furil)benz-imīdazols, 1,2-bis(3-metoksikarbonil-2-tioureīdo)benzols un metil--1 - (2-oikloh.eksenilkarbamoil )-2-bezimīdazolkarbamāts. 5. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka satur sastāvdaļas (Λ) un (B) svara attiecībās (A):(B) = 1-20:1-20. 6. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka papildus satur (0) 0,0-dimetil-0-(2,6-dihlor-4-metilfenil)tiofosfātu. 7. Kompozīcija atbilstoši 1.p·, kas atšķiras ar to, ka papildus satur (0) 0,0-dimeti.l-0-(2,6-dihlor-4-metilfenil)tiofosfātu un/vai (D) 1-etil-1,4-dihidro-5,7-metilēndioksi-4-oksohinolīnkarbon- skābi. vai tās sāli. 8. Kompozīcija atbilstoši 6.p., kas atšķiras ar to, ka satur (Λ), (13) un (0) svara attiecībās (A):(B):(0) = 1-50:1-50:0--50. 9. Kompozīcija atbilstoši 7.p., kas atšķiras ar to, ka satur (Λ), (B), (0) un (B) svara attiecībās (A): (B): (C): (D) = 1-50:1-50:0 50:0-50. 10. Kompozīcija atbilstoši 7.p., kas atšķiras ar to, ka satur (A), (13), (0) un (D) svara attiecībās (A): (B): (0): (I)) 1-20:1-20:1-20:1-20. 11. Kompozīcija atbilstoši 1., 6. un 7.p., kas atšķiras ar to, ka papildus satur vismaz vienu inertu nesēju. 12. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir smalka pulvera (dusta) veida, kurš satur aktīvas sastavdaļas saskaņā ar 1., 6. un 7. p., vismaz vienu cietu inertu nesēju un pēc paš.izvēles oksiizoksazolu vai imazalilu. 13. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir slapināma pulvera veidā, kurš satur aktīvās sastāvdaļas saskaņā ār 1., 6.. un 7.p., slapinātāju, disperjētāju, vismaz vienu inertu nesēju un pēc pašizvēiles oksiizoksazolu vai imazalilu. 14. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir izplūst spējīga Koncentrāta veidā, kurš satur aktīvās sastāvdaļas saskaņā ar 1., 6. un 7.p., virsmasaktīvas vielas, vismaz vienu šķidru nesēju un pec j*ašizveles oksiizoksazolu vai imazalilu. 15. Kompozīcija atbilstoši 1.p., kas atšķiras ar to, ka ir emaljējama koncentrāta veidā, kurš satin· aktīvās sastāvdaļas saskaņā ar 1. un 6.p., vismaz vienu virsmasaktīvu vielu, mazākais vienu šķidru nesēju un pēc pašizvēles oksiizoksazolu vai iinazalolu. 16. Kompozīcija atbilstoši 10.p., kas atšķiras ar to, ka aktīvo sastāvdaļu koncentrācija ir 0,1-99,9 svara %, rēķinot uz kompozīcijas kopē·jo svaru. s atšķiras ar to, ka aktīvo %, rēķinot uz kompozīcijas 17. Kompozīcija atbilstoši 10.p., ka sastāvdaļu koncentrācija ir 0,1-80 svara kopējo svaru.
  18. 18. Paņēmiens sēklu slimību apkarošanai, kas atšķiras ar to, ka sēklu, kura inficēta ar iedzimtu slimību, apstrādā ar efektīvas 6. un 7.p. iedarbības dezinficej o š u kompozīciju atbilstoši 1 ·,
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CN1027032C (zh) 1994-12-21
LV10153A (lv) 1994-10-20
CN87107330A (zh) 1988-06-22
AU8135387A (en) 1988-06-16
HUT45853A (en) 1988-09-28
KR880006983A (ko) 1988-08-26
LT3661B (en) 1996-01-25
US4940722A (en) 1990-07-10
KR950009516B1 (ko) 1995-08-23
EP0274839A1 (en) 1988-07-20
LTIP900A (en) 1995-03-27
AU603620B2 (en) 1990-11-22
DK646487D0 (da) 1987-12-09
EG18546A (en) 1993-06-30
DK646487A (da) 1988-06-11
RU2011347C1 (ru) 1994-04-30
ZA879260B (en) 1988-06-09
NZ222767A (en) 1991-03-26

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