DD200848A1 - MEDIUM WITH HERBICIDER, SIKKATIVER AND DEFOLIEREN DERM - Google Patents

Abstract

The invention relates to compositions having herbicidal, siccative and defoliant properties. As active ingredient they contain complex chemical compounds of the anion, cation, neutral and polynuclear complex type.

Description

Agent with herbicidal, siccative and defoliant action Field of application of the invention

The invention relates to novel herbicidal agents for destroying weeds and grass weeds in agricultural, horticultural and forestry crops and their use as a total herbicide, but also relates to agents with defolierenden or siccative properties for use in selected crops to ensure a trouble-free mechanical harvest .

Characteristic of known solution

For crops were developed means by which, depending on the application direction on the one hand undesirable competing plants can be fought with varying degrees of success, on the other hand, however, by the use of suitable preparations for Krautabtötung or leaf debris, for example in potatoes or cotton , which allows the use of modern automated harvesting techniques. These agents are applied individually and in combination as well as in different application rates. The desired elimination of weed competition is often only achieved in conjunction with other agricultural measures and / or by means of spraying. "The level of application concentration and the repeated use of funds or combinations of sprays often brings with it economic problems that are of macroeconomic relevance are. Poor uptake of the active ingredients by the plant,

insufficient internal transport,. Rapid degradation in the soil and / or plant or instability of the compounds can be the cause of high expense, tight, repetitive applications, or inadequate action. "It is known that triazines are used in a large number of crop stands to control predominantly dicotyledonous weeds (GH-PS 329277, 342748, 337019, BP 814948, US-PS 2891855 and others). Derivatives of chloral were recognized as predominantly monocotylic compounds (DD-PS 168548, DD-PS 101276) and used for selective weed control.

Furthermore, it is known that acetanilides have a good activity against weeds, in particular against monocotyledonous species

(US-PS 2863752, DT-PS 1014380).

Object of the invention

The use of new agents and processes pursues the goal of developing active ingredients which have a higher efficiency, possibly also a better lasting effect or also achieve satisfactory effects with lower application rates.

Presentation of the 7th _i the invention

The invention relates for the reasons mentioned to the use of complex chemical compounds as agents with herbicidal, defoliant and / or siccative effect. It has been found that compositions comprising as active ingredient complex chemical compounds of the cation, anion, neutral and polynuclear complex type according to formula 1

s.

with C =

^E f

¹ Me

^y p

formula 1

contain, in which

Y represents a compound with ρ = O to 8, which already has a herbicidal, siccative or defoliant potency and is to be regarded as a ligand according to formula 1,

Z is a further compound with m = 0 to β, which may optionally have plant growth-regulating properties but also fungicidal and other potencies,

X may be the same or different and represents various mono- and multidentate ligands which may be inorganic or organic anions such as acetate, nitrate, halide, thiocyanate, etc. where q = 0 to 6, in the case of anions outside the first coordination sphere q ^{f can} also assume values greater than zero, but not more than 4, which can also be complex according to C,

R can be either Y or Z in the case of active substances or compounds lying outside the first coordination sphere, where i = 0 to 6,

E different solvents, such as water, lower alcohols of the general formula CnH ₂ -, 0H with η = 1 to 5, dimethylformamide, tetrahydrofuran, nitromethane u "a, m _e with f or f * = 0 to 12 characterized

A in the case of anion complexes, the counter cation is preferably alkali and alkaline earth, also ammonium or C, where b = 1 to 4, in the case of cation and neutral complexes also zero,

s specifies the charge of the complex and consequently sets the counter-ion lass according to A or X, where s = 0 to 6,

η is 1 to 4 and, if greater than 1, identifies multicore complexes,

Me characterized diverse monovalent and polyvalent metal cations, which may be the same or different in the case of di- or oligomeric coordination compounds and mainly for Cuj Al, Mn, .Zn, Ni, Mg, Cr, Fe and Mo,

in principle it is to be expected that bound ligands or "assemblies can also isomerize.

The application of the gowns according to the invention is preferably carried out in the preparation or application forms customary for herbicides, sikkants and defoliants, such as solutions, emulsions, suspensions, concentrates, dusts or granules, etc. These formulations are prepared using the customary auxiliaries, such as solvents The agents according to the invention can be combined with other suitable herbicides or agrochemicals for widening their spectrum of action and for achieving additional synergistic or selective effects, Surprisingly, it has been found that the complex-chemical fixation of active ingredients achieves the following advantages can:

- Change in the lipophilic behavior of drugs for the purpose of improved uptake or * transport to or in the plant

- Achieving synergism by fixing various suitable ligands in the complex - Reduction of the active ingredient content

- Stabilization of highly effective but unstable compounds

- Development of new, hitherto unknown applications or effectiveness.

Some of the compounds tested for their effect according to the invention, including their physical data, are listed in Table 1.

The following examples illustrate the invention without limiting it.

In pot experiments, using a bottom of medium sorption capacity with a water capacity of 60 %, the herbicidal effect of various metal complex compounds in pre- and post-emergence application compared to a

2324

0 _. 5 6 - 10 11 - 20 21 - 40 41 - 60 61 - 80 81 - 90 91 - 95 96 -100

Standard tested «The application of the complexes was carried out in acetone solution and other suitable solvents immediately after the sowing of the weeds (VA) as well as on 14 days growing stocks (NA). The following key was used to assess the herbicidal potency:

Boniturnote damage strength Weed be sat ζ %

1 destroyed

8th .

9 undamaged

The credit score was determined on the 30th day after the application.

example 1

Comparison of the active ingredient 2,4-bis- (isopropylamino) -6-methyl-mercapto-s-triazine (protometry) with complex chemical compounds according to the invention (see Tables 2 and 3)

From Table 2 shows that at an application rate of 0.7 kg AS / ha, the tested compounds have the same, but in part also an improved effect on the standard Prometryn »Even clearer are the advantages of the inventive compositions, if, as in Table 3, the application rates by about half to 0.375 te! AS / ha can be reduced "Here, compounds 2, 14, 15 and 17 prove to be significantly superior to the test standard Prometryn and, on average, show the same or better control success achieved with 0.7 kg AS / ha for Prometryn.

Example 2

Comparison of the active ingredient 2-chloro-4,6-bis (ethylamino) -s ~

ϋύ, _Cijj. ^ _ν * _ / J - ^ -ii * - _i_ j.- y Hi _ι_ υ ~ J. -_ * - »- ι -.Qh_i Ο '*' ^Λΐ ^ ^w " * ^tJ ^ ^iJ " -ti. W "* * j"'J- ^ - ^ O U'wiiixü ^ Lx> - jj

Compounds (see Table 4)

The results show that a new quality in the herbicidal treatment is achieved by complex-chemical fixation. The herbicidal effect in the Ifachauf procedure is significantly better than simazine * The possibility of successful use of complex chemical compounds with the ligand simazine in ITac frequently run procedure is clearly confirmed.

Example 3

Comparison of the active ingredient 2-chloro-4-ethylamino-6-isopropyl-amino-s-triazine (atrazine) with complex chemical compounds according to the invention (see Table 5)

The results make it clear that with complex-chemically fixed compounds at the same application rates a better effect on the comparison product or with lower application rates an equally good effect can be achieved.

Example 4

In small plot trials, the following preparations were pre-emergence tested on a soil of average sorption capacity by comparison. The visual score covered the coverage of monocotyledonous and dicotyledonous weeds (see Table 6)

It can be seen from the results that the degree of coverage in the plots treated with complex-chemically fixed products increases more slowly, therefore the control result is more sustainable than with the same application rates Prometryn »The example proves that a depot effect can be achieved by a complex-chemical fixation of herbicidally active substances.

Example 5

Each of the following preparations was tested in the same way as in Example 4 using the buffing procedure * (see Table 7).

The example proves that an equally good or even better herbicidal action is achieved by a complex chemical fixation herbicidal active ingredients with lower application rates of active substance,

Example 6

Comparison of the Active Ingredient Dichloroalcohol (DCU) with Complex Chemical Compounds According to the Invention in the Preemergence Process (see Table 8)

Clearly, despite lower DCU share in the complex better effect evident »

table connection

Srap,

10 11 12 13 14 15 16

,OH

'[(Y ^ ₄ -Zn- (HCS) ₂ ] χCH ₃ OH

.J-Zn- (HCS) T χ 2 CH.0H ¹ . -> j

₁ Y ₁ χ 2 CH ₃ OH

-Zn- (HCS) ₃ ] χ (Y ₁ O ₂ χ 2 CH ₃ OH

χ 2 CH ₃ OH

Zn- (ETCS) J χ Y ₁ χ 2 CH ₃ OH

Mr

^) - Zn- (HCS) J χ (Y,) _ο χ 2 CH.OH ₁ ) -Zn- (HCS) ₃ ] χ CY ₁ J ₃ ^χ 2 CH ₃ OH

χ 2 CH ₃ OH

₁ Y ₁ χ 2 CH ₃ OH

CH ₃ OH

Ha [(Y ^ -Zn- (HCS) ₃ ] χ (Y ^ ₂

Ha [(Y ₁ O-Zn- (HCS) ₃ ] χ (Y-,) ₃ x 2 CH ₃ OH

K ₂ [(Y ₂ -Zn- (HCS) ₄ ] 2 CH ₃ OH

K ₂ [(Y ₂ -Zn- (HCS) ₄ ] χ Y ₁ χ 2 CH ₃ OH

K ₂ . [(Y ₁ ) -Zn- (HCS) ₄ ] χ (Y ₁ ) ₂ χ 2 CH ₃ OH K ₂ [(Y ₂ -Zn- (HCS) ₄ ] χ (Y ₁ J ₃ χ 2 CH ₃ OH

Ha ₂ [(Y ₁ ) -Zn- (HCS) ₄ ] 2 CH ₃ OH

[(Y ₁ ) -Zn- (HCS) ₄ ] χ Y ₁ χ 2 CH ₃ OH

Haha,

χ 2 CH ₃ OH

4J) 'U

106 ⁰ C

108 ⁰ C.

127 ⁰ C

83 ⁰ C

103 ⁰ C

104 ⁰ C.

71 ⁰ C

81 ⁰ C

135 ⁰ C

136 ⁰ C

114 ⁰ C

81 ⁰ C

106 ⁰ C 95 ⁰ C

100 ⁰ C 94 ⁰ C

130 ⁰ C

104 ⁰ C.

105 ⁰ C

Table 1 (porting 1)

connection

Snip,

NT "- I /" ν Λ n. " /" Ί \ τ ^ <ο "\ I -, ^ v ¹ N -

XiCi.p j ^ j. * / "~ £ Jii ^ · ^ J-IlOU J Λ j -Λ. V ¹ I / O - * -

K ₂ [Zn (IMCS) ₄ ] χ (Y ₂ ) χCH ₃ OH

K ₂ [Zn (IMCS) ₄ ] χ. (Y ₂ ) ₂ χ. 2 CH ₃ OH

K ₂ [Zn (ITCS) ₄ ] χ (Y ₂ ) 3 ^χ CH ₃ OH

K [Zn (IMCS) ₃ ] χ (Y ₂ )

cr

χ (Y ₂ ) ₂

₃ CH ₃ OH

[(Y ₃ ) ₄ -Ζη- (IMCS) ₂ ] χ 2 CH ₃ OH K [(Y ₃ ) -Zn- (IMCS) ₃ ] χCH ₃ OH Κ ₂ [(Y ₃ ) Zn- (IMCS) ₄ ] χ CH ₃ OH Κ ₂ [(Y ₃ ) 2-Zn- (ECS) ₄ ] χ CH ₃ OH K ₂ [(Y ₃ ) ₃ -Ζη- (IMCS) ₄ ] IMH ₄ [(Y ₃ O ₂ -Zn- (IMCS) ₃ ] χCH ₃ OH (1MH ₄ ) ₂ [(Y ₃ ) -Zn- (1MCS) ₄ ] x CH ₃ OH (MH ₄ ) ₂ [(Y ₃ ) ₂ -Ζη- (IMCS ) ₄ ] χCH ₃ OH (1MH ₄ ) ₂ [(Y ₃ ) ₃ -Zn- (NCS) ₄ ]

κ [(Yg) ₂ -Zn- (IMCS) ₃ ] χCH ₃ OH HH ₄ [(Y ₄ ) -Zn- (IMCS) ₃ ] ¥ a [(Y ₄ ) -Zn- (IMCS) ₃ ] K [ (Y ₄ ) -Zn- (1MCS) ₃ ], -QΟU

123 ⁰ C 132 ⁰ C 148 ⁰ C 12 O ⁰ C 152 ⁰ C (Z) 112 ⁰ C

187

199 ⁰ C 177 ⁰ C 2 07 ⁰ G-208 ⁰ C 89 ⁰ C 56 ⁰ C 58 ⁰ C 62 ⁰ C

, Ο,

j ι

183 ⁰ C 53 ⁰ C 7O ⁰ C 60 ⁰ C

Table 1 (port setting 2)

Verbinduno:

mp "

43 44 45 46 47 48 49 50

,

Γ (Y, K-Zn

\ - ^ CL

[(Y ₄ ) 2-Zn-Br ₂

[(Yj) ₂ -ZXi-Cl ₂ ] [(Yg) ₂ -Co-Cl ₂ ]

[0o (Y _? ) ₂ (THP) ₂ I [

χ 2 CH ₃ OH

Br ₂ J x 4 CH ₃ OH

[Mn (Y ₇ ) ₂ (ICS) ₂ I χ 2 THP

[Zn (Y ₄ ) JsO ₄ [Zn (Y ₄ ) J (CH ₃ COO)

SO ⁰ O

145 ⁰ C

Over 26O ⁰ C (Z) 220 ⁰ C 569 ⁰ C

301 ⁰ C.

365 ⁰ C.

323 ⁰ C (Z)

341 ⁰ C (Z) 36O ⁰ C 202-206 ⁰ C

over 210 ⁰ C (Z)

over 210 ⁰ C (Z)

173 ° C

Γ- = 2,4-bis (isopropylamino) -6-methylmercapto-s-triazine (Prometryn)

Γ ₂ = 2-chloro-4-ethylamino-6-isopropylamino-s-triazine (atrazine): = 2-chloro-4,6-bis (ethylamino) -s-triazine (simazine)

=. Dichloralharnstoff

= U-phenyl-1-isopropyl-chloroacetamide (propachlor)

Table 1 (Continued 3)

Yg =] \ i- (phosphonomethyl) glycine (G-lyphosate) Yj = methyl isothiocyanate

γ = U-phenylthiocarbamic acid ethyl ester Y = H-Cp-bromophenyl) -Ή'-dimethylmethane

Table 2: Herbicidal effect of chemical compounds according to the invention before and after emergence application of 0.7 kg AS / ha in comparison with the prometry (Boniturnoten)

weed Prometryn VA NA 1 Connection 2 VA NA 1 Connection 14 VA NA 1 Connection 15 VA NA 1 Compound 17 VA NA ₍ 1 Stellaria media 1 1 1 1 1 1 1 1 1 1 Senecio vulgaris 2 1 1 1 1 1 1 1 1 1 Anthemis arvensis 1 1 1 1 . 1 Ϊ 1 1 1 1 Agrostemma githago 3 1 1 1 1 2 1 .1 1 CVI Lamium purpureum 3 2 1 1 1 1 1 1 1 1 Chenopodium album 2 2 1 1 CVJ 1 2 1 , 2 1 , Polygonum lapathifolium 1 VJL 1 2 2 1 1 2 1 1 Thlaspi arvense   8th 1 3 1 3 1 3 1 3 1 Spergula arvensis 1 3 1 2 1 1 1 1 1 1 Apera spica-venti 2 VJL 2 2 2 2 1 2 2 2 Poa annua 5 2 3 2 2 1 1 1 2 2 Setaria glauca 8th 3 2 1 1 2 1 2 1 P Bromus secalinus 8th 1 4 T 3 2 2 1 3 P Echinochloa crus-galli 8th 2 CV) 3 1

Herbicidal Effect of Chemical Compounds According to the Invention on Pre- and Na c Frequency "Application of 0.375 kg AS / ha in Comparison to Prometryn (Boniturnotes)

_ΤΤιλ1 ~ +. +. 'Prometryn connection connection connection connection

unKrau L> ar "c P ^" ^ p- ^ * ->

VA IA VA NA VA NA VA WA VA HA

Stellaria media 3 1 2 1 2 1 1 1 1 I Senecio vulgaris 4 1 2 1 2 2 ul 1 2 O Anthemis arvensis 1 1 1 1 2 1 1 1 1 -i Agrostemma githago 4 1 1 1 2 1 2 1 5 1 Lamium purpureum 4 1 1 1 2 2 2 2 2 , Chenopodium album ul ul CVI 3 2 2 3 2 2 Polygonum lapathifolium 7 1 2 1 1 1 3 1 1 -; Thiaspi arvense 7 ul 7 2 ul 3 7 2 7 # · J 'J Spergula arvensis 2 1 1 1 1 1 1 1 1 ; 1 Apera spica-venti 5 4 3 2 CVI 1 2 1 2 1 Poa annua 6 ul 3 2 2 3 2 2 2 Setaria glauca 8th 8th ' 6 2 3 2 1 2 ul 2 Bromus secalinus 8th 7 7 3 4 2 6 2 6 .? Echinochloa crus-galli 8th 4 7 2 3 2 3 2 3 2

Table 4: Herbicidal action of compounds according to the invention in comparison with post-emergence simazine (credit score)

weed kg AS / ha Stellaria media simazine Connection 29 Connection 36 Connection 38 Senecio vulgaris 0.06. 0.06 0.06 0.06 Anthemis arvensis 4 1 1 1 Agrostemma githago 4 1 1 1 Galium aparine 5 1 1 1 Chenopodium album 7 5 2 1 Polygonum lapathifolium 9 9 9 9 Thlaspi arvense 1 T 1 1 Spergula arvensis 1 1 1 1 Apera spica-venti 1 1 1 1 Poa annua 4 1 1 1 Setaria glauca 9 1 1 1 Bromus secalinus 2 1 1 1 Echinochloa crus-galli 4 1 1 2 7 9 6 9 9 4 6 6

Table 5: Herbicidal action of compounds according to the invention in comparison with atrazine in the post-emergence procedure (credit score)

kg AS / ha Stellaria media atrazine 0.01 connection connection connection connection weed Senecio vulgaria 1 23 26 27 24 Antherhemis arvensis 0.05 1 0.05 0.05 0.05 0.05 Agrostemma githago 1 1 1 1 3 1 Ghenopodium album 1 1 1 1 1 1 Polygonum lapathifolium 2 1 1 1 1 3 Thiaspi arvense 2 1 i 1 1 1 4 Spergula arvensis 7 1 2 3 2 2 Galium aparine 1 1 1 1 1 1 Apera spica-venti 2 9: 1 1 1 1 Poa annua 1 1 1 1 1 1 Setaria glauca 9 1 , 9 3 6 9 Bromus secalinus 3 2 1 2 1 1 Echinochloa crus-galli 6 9 1 3 2 1 6 4 1 3 3 1 9   6 9 9 6 5 2 3 3 2

Table 6: Herbicidal action of compounds according to the invention in comparison to pretometry under field conditions in the pre-emergence method (VA)

product

Boniturtermine

AS / ha ¹⁵ ' ^{8 # 25} · ⁸ · ⁵ " ⁹ · ²⁵ · ⁹ * ¹⁶ · ¹⁰ · DG% ^S DG% ^£ DG% ⁵ DG% * DG % ~

untreated control 0.5 prometryne 0.5 Connection 2 0.5 Connection 16 0.5 Connection 18

8th VJL 65 70 85 3 VJL 25.. 40 50 4 5   20 25 30 3 15 20 20 ₊ VJL 10 VJL 25

DG = coverage of the weeds

Table 7 ' Herbicidal action of compounds according to the invention in comparison to prometry under field conditions in the wake-up method (HA)

product 2 kg AS / ha B ο η i 7.8. BE% ^a turterm 1 RP I] JmOa ^E BE% ^S 25.3. BE% ^3ε prometryne 16 1.0 95 94 90 prometryne 18 0.75 94 92 80 connection _0s 80 97 94 88 connection 0.50 98 97 90 connection 0.60 100 100 100 -

BE = control success against monocotyledonous and dicotyledonous weeds

Table 8: Herbicidal effect of corresponding compounds compared to DCU ₉ based on the effective DCU content

weed

DGU kg AS / ha 7.5 5.0

Connection 44

7.5

x.

5.0 ^x 2.0 ^x

Stellaria media 1 1 6 1 1 1 Senecio vulgaris 1 "1 VJL 1 1 1 Anthemis arvensis 1 3 7 1 1 1 Agrostemma githagö 1 3 6 1 1 1 Lamium purpureum 1 2 7 1 3 3 Ghenopodium album 4;   6 9 3 "4 4 Polygonum lapathifolium 1 6 9 , 1 4 4 Thlaspi arvense 6 7 9 2 8th 7 Spergula arvensis 1 : 4 9 1 1 4 Galium apariiie 5 ^! 9 9 4 8th 7 Apera spica-venti 1 1 1 1 1 1 Poa annua 1. 1 2 1 1 1 Setaria glauca 1 .. , 1 2 1 1 1 Brorau's secalinus 1 2 4 1 2 2 Echinochloa crus-galli 1 1 1 1 1 1

corresponds to the bound DGU in compound 44

Claims (1)

- 18 Experi on ss pruc h Agents with herbicidal, siccative and defoliant properties characterized in that they complex active compounds of anion, cation, neutral and Mehrkernkomplextyp according to formula 1 in addition to excipients and carriers as active ingredients -w V q ' ~ s with C = 'χ / ^Z m me P. _n formula 1 in which Y represents a compound with ρ = 0 to 8, which already has a herbicidal, siccative or defoliant potency and is to be regarded as a ligand according to formula 1, Z is a further compound with m = 0 to .6, which may optionally have plant growth-regulating properties but also fungicidal and other potencies, X represents the same or different and various mono- and polydentate ligands representing inorganic or organic anions such as acetate, nitrate, halide, thiocyanate, etc. with q = 0 to β, in the case of anions outside the first coordination sphere q ^f also assume values greater than Hull, but at most up to 4, which can also be complex according to C, R is either Y or Z in the case of active substances or compounds lying outside the first coordination sphere, where i = 0 to 6, E various solvents, such as water, lower alcohols of the general formula CnEL <> OH with η = 1 to 5, dimethylformamide, tetrahydrofuran, mtromethane u.a.m. with f or f * = O to 12 characterized A in the case of anion complexes, the counter cation preferably alkali and alkaline earth, also ammonium or C, where b = 1 to 4, in the case of cation and Heutralkomplexen may also be Hull, s specifies the charge of the complex and consequently defines the nature of the counterpart according to A or X, where s = O to 6, η = 1 to 4 and identifies multicore complexes at values greater than 1, Me various monovalent and polyvalent metal cations characterized, which may be identical or different in the case of di- or »oligomeric coordination compounds and mainly for Cu, Al, Mn, Zn, Hi, Mg, Cr, Fe and Mo, which in principle to calculate * that bound ligands or »assemblies can also isomerize, contain, Point 2 Agents having herbicidal properties according to item 1, characterized in that in formula 1 for Y or »Z 1,3,5-triazines of general formula 2a or 2b, Formula 2a in which R _{1 can be} halogen, alkoxy, alkylthio or Ho, R ₂ , R -, - R. and R ₅ = H, methyl, ethyl, propyl, isopropyl, butyl or isobutyl and may be the same or different, in the formula 2b Formula 2b HHMCOR ₃ R ₁ = halogen, alkylamino, arylamines, aryl-substituted alkylamino, alkyl-substituted arylamino, alkoxy, phenoxy, alkylmercapto, arylmercapto, Rp = R-, but also HHUHCOR-, and Ro = alkyl, aralkyl, aryl, heteroyl, which may be present are also substituted, can be stand « Point 3 - Agent having herbicidal properties according to item 1, characterized in that according to formula 1 for Y and Z is a chloro derivative of general formula 3 or 4, OH 0
CCl ₃ -CH-NH-CR "Formula 3 OH σσΐ, -σ-OR. Formula 4 j ι where in formula 3 R is hydrogen, an alkyl group having 1 to 3 C atoms which is optionally completely or partially substituted by Cl, an aryl or an amino group in which a Η atom is optionally substituted by the 1-hydroxy-2, 2,2-trichloroethyl may be substituted, in formula 4, however, R is H or alkyl having 1 to 4 carbon atoms. Point 4 Agent having herbicidal properties according to item 1, characterized in that according to formula 1 Y and / or Z Ureas of the general formula 5 mean Formula 5 wherein X, Xp same or different and represent H, halogen, alkyl of G ₁ - C _4, GF _3, OGH _3, OPh, X = 0, S, and R _1, R _{2 are} identical or different and represent H, OCHO, CH ₃ can stand. Point 5 . , Agent having herbicidal properties according to item 1, characterized in that, corresponding to formula 1, Y and / or Z may be a chloroacetamide of general formula 6, , O \ ti Formula 6 where R ₁ , ₁ , R _{2 is} aryl, optionally substituted aryl, alkyl and alkenyl having a C atom number of 2 to 4 and Al koxyethyl. Point 6 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z corresponding to formula 1 represents a garbamate of general formula 7, X IH-C-YR Formula 7 wherein R is alkyl, alkynyl, having a C number of 1 to 5, X, YO or S and the same or different and R ₁ ,. R ₂ = H, halogen and may be the same or different. 32420 Point 7 Agent having herbicidal properties according to item 1, characterized in that Y and / or S 1 can embody aryloxyalkanoic acid or its anion of general formula 8, Formula .8 wherein IL in the case of η = 1 is methyl or H, in the case of η = to 4 primarily H, R ₂ , R ^, however, H, halogen and alkyl having a C atom number of 1 to 3 and may be the same or different , Point 8 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z represents a carboxamide of the general formula 9, ^R 4. ^R 2 R ₁ -COlTH- £ /) ~ ^R 3 Formula 9 where R. is carboxyl-substituted aryl, but also straight-chain or branched alkyl or alkenyl having a carbon atom number of 1 to 6, R ₂ and R- same or different and for halogen, methyl and H, R ₄ H or R ₂ via a ^ CH = CH-CH = CH grouping can be connected Point 9 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z represents a phenol of general formula 10, Formula 10 wherein R _{1 is} CH, CHO, COOH or a 0- (2,4-Dinitrophenyl> oximrest, Rp and R ^ may be the same or different and is halogen. Point 10 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z are a uritrophenol or its esters corresponding to general formula 11, Formula 11 where R. may be H or -CO-alkyl having a C atom number of up to 4 and Rp is alkyl, branched or straight-chain, having a total C atom number of up to 5 » Point 11 Composition with siccative properties according to item 1, characterized in that Y and / or Z represents a Mtrophenol of the general formula 12, OH ^Ε ΐ "ΝΓ ^β 2 232 42 0 where IL can stand for hydrogen or Uitro, R _? however, is hydrogen or lower alkyl, straight or branched, with G - C--. Point 12 Means according to item 11 characterized in that they have defolating properties. Point 13 Agent with herbicidal properties according to item 1, characterized in that Y and / or Z is a compound of general formula 13, R ₁ O _nn I ¹ li / ^0R 2 P ^ Formula 13 where R is H, formyl or acetyl, R ₂ and R 4 independently of one another represent hydrogen and / or lower alkyl having a C atom number up to 4 and R, hydroxyl or alkoxy or aryloxy Point 14 Agents with herbicidal properties according to point 1 gekenn-. characterized in that Y and / or Z represents a compound of general formula 14, Formula 14 wherein for R _{1 is} lower alkyl having a C atom number up to 6 • - 25 - or cycloalkyl, R is H or halogen, R-, methyl or ethyl, or Rg and R ₃ are linked to one another via a -CH ₂ -CH ₂ -CH ₂ -group * Point 15 Means with. herbicidal properties according to item 1, characterized in that Y and / or Z represents a compound of general formula 15, Formula 15 wherein R _{1 is} H, OCH ₃ , OC ₂ H ₅ , O-GOCH ₃ or -COOCH ₃ , R _{2 is} halogen or Uitro, R _{3 is} halogen, Uitro or CF. ,, R * H or halogen and R ₁ - Uitro or CFo , mean. Point 16 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z represents a compound of general formula 16, R ₁ O HCSR ₃ '· Formula 16 R ₂ _ '. in which R ₁ , R _{2 may be} cyclohexyl, straight-chain and branched alkyl radicals having a C atom number up to 5 and optionally identical or different, R _3, on the other hand, alkyl or optionally halogen-substituted alkenyl having a C atom number up to 5 or a halogen-substituted benzyl radical » 32420 Point 17 Agent with herbicidal properties according to item 1, characterized in that Y and / or Z represents a 3-amino-1,2,4-triazole. Point 18 ' Agent having herbicidal properties according to item 1, characterized in that Y and / or Z represents a compound of general formula 17,:. , Formula 17 NHCOOR ₂ where IL can be H, methyl, ethyl and Rp alkyl. Point 19 Agent having herbicidal properties according to item 1, characterized in that Y and / or Z represents a compound of the general formula 18, Formula 18 in the R _{1 is} a bialkylamino, alkylamino, Gycloalkylamino-, .Alkyl-, optionally also a substituted alkyl, an also substituted aryl, an alkoxy, aryloxy, Alky! mercapto, Arylmercaptorest; Rp is an OCOEHR, grouping with R _fl = aryl, optionally substituted aryl, an ^R 5
_R group with R, R _r = H, alkyl, cycloalkyl, aryl, the 6. ° optionally the same or different, or a COKHRy radical with R ₇ = cycloalkyl, aralkyl, aryl, optionally also substituted aryl, alkyl or halogen-substituted alkyl; and R "= H, alkyl, halogen, alkoxy. Point 20 Agents having herbicidal properties according to item 1, characterized in that Y and / or Z stand for a compound of general formula 19 or 20, "Rr Formula 19 -R, Formula 20 in which R ₁ , R ₀ = 1 \ FH ₀ , OH, alkoxy, alkylmercapto, aryloxy and with R ^? , R ' ^! = H, alkyl and aryl, optionally also .R ' substituted alkyl and aryl, where R. and R ₂ or R ^f and R ^{! f may} be the same or different.