Herbicide 2 page

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Herbicide

Carbamate herbicides Benzene herbicides Diphenyl ether herbicides Other herbicides Urea herbicides Triazine herbicides Amide herbicides Sulfonylurea herbicides Herbicide Intermediate Herbicide antidote

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Herbicide means chemical used for removing weed crop but generally harmless. The most widely used,and important herbicide is organic herbicide , herbicide using is an important measure of modern agricultural chemistry.

The late 19th century, when preventing European grape downy mildew , it is found that Bordeaux mixture can hurt some of cruciferous weeds without harming the cereal crops.
In late 19th century ,France, Germany, the United States also found the herbicidal effect of sulfuric acid and copper sulfate and used it for wheat weeding, which is the beginning of farmland chemical weeding . In 1932 ,organic selective herbicide chemox pe was found,and then it entered into the organic chemistry herbicide period. Early 1940s ,there was chemical synthesis of 2,4-D, and it was used for field weeding, it has high biological activity, strong selectivity, broad herbicide spectrum , the herbicidal effect is very obvious, under the influence of 2,4-D , the development of organic herbicide industry is significantly rapid .In 19 50s, a variety of types of organic herbicides had been developed , the main varieties such as propham of carbamates, chlorpropham; thiocarbamates of EPTC, vernolate, pebulate; simazine of s-Triazimnes , atrazine and the like; chloramben of benzoic acid; diuronof substituted ureas herbicides and the like. In 1959, the American Chemical weeding area had reached 21 million hectares. Since the 1960s, in the development of the new varieties of pesticides , herbicides have the largest number , such as trifluralin of dinitroanilines ; propanil of amides, alachlor, triallate of thiocarbamates , molinate , benthiocarb; diphenyl ether types such as herbicide nitrofen, chlornitrofen etc., and pesticide for soil treatment is focused on . A large number of highly efficient,and strongly selective herbicides emergence, causes changes in farming and cultivation system. In the 1970s, the United States put forward the concept of integrated weed management system (IWMS), but the core remains the chemical weed control. In 1971 ,Monsanto synthesized Glyphosate, which has a broad herbicide spectrum , and has no environmental pollution,this is a major breakthrough in organic phosphine herbicide. Coupled with a variety of new formulations and the use of new technology emergence, the herbicidal effect is greatly improved.

Herbicides can remove the weeds on crops and are harmless or little impact ,the mechanism is very complex, it is generally believed that there are three mechanisms:
① the use of different physiological characteristics that weeds and crops have on certain drugs . Such as simazine which can be used for weed control in corn, because corn has containsdetoxification substance which can break down simazine , as far as absorption is not too much, it will not affect their growth. But cornfield weeds do not have these detoxifying substances, small amounts of simazine can easily kill them to achieve the purpose of weeding.
② use different opportunities that drugs contact or stick all kinds of plant bodies. Such as kerosene which is destuctive agent able to kill various plants, but the onion leaves are conical upright, outside there are waxy, ejected droplets could not stick, spraying kerosene agents can be used in onion weed . Usually narrow leaf accepts less drugs than wide leaf , erect leaf is less affected by drug than the cross leaf, deep-rooted plant accepts less drugs than shallow-rooted plant.
③use different ability to absorb agents of plants. various plants have different epidermal conservation organizations, extent of absorbing agents sprayed on the skin varies. Thick waxy in cuticle makes it difficult for agents to penetrate ,the plants will not be hurt.

Herbicide mechanisms of action are different, but in general ,it is to have restraining obstructing or interfering effect on the plant physiological and biochemical processes, such as respiration, photosynthesis, living matter synthesis ,so they can not grow normally and death is caused . In recent years, various poisoning mechanism s are being extensively studied to produce more efficient, low toxicity, strong selection of new herbicides. Internationally herbicides account for 40% of the total amount of pesticides, China is only 10 to 20%. The use of herbicides should pay attention to accurate knowledge of the concentration, dose and administration period, otherwise it would cause serious crop injury, abnormal growth of the crop, and even withering death. Some species are fish, shellfish toxic; when they are used as a soil treatment ,they will affect the soil microbial reproduction. Long-term use of one kind of herbicides can also cause harm grass resistance and so on.

Chemical herbicides application leads to great social and economic benefits, but also produces different degrees of injury for some of the crops (especially in recent years the development of applications such as ultra-efficient herbicide sulfonylurea causes injury to afterreap crop ) and changes of weed populations, resulting in varying degrees of economic losses. To this end, the domestic researches and develops new varieties, while strengthens the research and development of the herbicide compound formulation.Among 1996.8 - 1997.7 90 patents related to herbicide applications in China, there are more than 80 patents on herbicide compound. In addition, herbicide antidotes, synergists, herbicide mechanism of action, selectivity principle and rational use of technologies are being carried out in-depth research.

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Structure:
Chemical Name:: 2-Amino-2,3-dimethylbutyramide
CAS:: 40963-14-2
MF:: C6H14N2O

Structure:
Chemical Name:: Pyridat
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MF:: C19H23ClN2O2S

Structure:
Chemical Name:: Methyl 3-aminosulfonylthiophene-2-carboxylate
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MF:: C6H7NO4S2

Structure:
Chemical Name:: Trifloxysulfuron
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MF:: C14H14F3N5O6S

Structure:
Chemical Name:: BARBAN
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MF:: C11H9Cl2NO2

Structure:
Chemical Name:: Foramsulfuron
CAS:: 173159-57-4
MF:: C17H20N6O7S

Structure:
Chemical Name:: Mesosulfuron-methyl
CAS:: 208465-21-8
MF:: C17H21N5O9S2

Structure:
Chemical Name:: 5-AMINO-3-METHYL-1H-PYRAZOLE-4-CARBOXYLIC ACID ETHYL ESTER
CAS:: 23286-70-6
MF:: C7H11N3O2

Structure:
Chemical Name:: 2-AMINO-4-METHYLAMINO-6-ETHOXY-1,3,5-TRIAZINE
CAS:: 62096-63-3
MF:: C6H11N5O

Structure:
Chemical Name:: Chloromethyl ethyl ether
CAS:: 3188-13-4
MF:: C3H7ClO

Structure:
Chemical Name:: 2-CHLORO-5-NITROBENZENESULFONIC ACID
CAS:: 96-73-1
MF:: C6H4ClNO5S

Structure:
Chemical Name:: Penoxsulam
CAS:: 219714-96-2
MF:: C16H14F5N5O5S

Structure:
Chemical Name:: DIMETHAMETRYN
CAS:: 22936-75-0
MF:: C11H21N5S

Structure:
Chemical Name:: 3,5-DIPHENYLPYRAZOLE
CAS:: 1145-01-3
MF:: C15H12N2

Structure:
Chemical Name:: FENOXAPROP-ETHYL
CAS:: 66441-23-4
MF:: C18H16ClNO5

Structure:
Chemical Name:: Methyl benzoate
CAS:: 93-58-3
MF:: C8H8O2

Structure:
Chemical Name:: 6-Ethyl-o-toluidine
CAS:: 24549-06-2
MF:: C9H13N

Structure:
Chemical Name:: Prosulfuron
CAS:: 94125-34-5
MF:: C15H16F3N5O4S

Structure:
Chemical Name:: BENSULIDE
CAS:: 741-58-2
MF:: C14H24NO4PS3

Structure:
Chemical Name:: 2,4-Dihydro-5-methoxy-4-methyl-3H-1,2,4-triazol-3-one
CAS:: 135302-13-5
MF:: C4H7N3O2

Structure:
Chemical Name:: 2,4-DICHLORO-1-(2-PROPYNYLOXY)BENZENE
CAS:: 17061-90-4
MF:: C9H6Cl2O

Structure:
Chemical Name:: KARBUTILATE
CAS:: 4849-32-5
MF:: C14H21N3O3

Structure:
Chemical Name:: Methyl 2-(4-((3-chloro-5-(trifluoromethyl)-2-pyridinyl)oxy)phenoxy)propanoate
CAS:: 69806-40-2
MF:: C16H13ClF3NO4

Chemical Name:: ATRAZINE SOLUTION 100UG/ML IN T-BUTYLMETHYL ETHER 1ML

Structure:
Chemical Name:: Procarbazone sodium
CAS:: 181274-15-7
MF:: C15H17N4NaO7S

Structure:
Chemical Name:: DIPROPETRYN
CAS:: 4147-51-7
MF:: C11H21N5S

Structure:
Chemical Name:: TRIETAZINE
CAS:: 1912-26-1
MF:: C9H16ClN5

Structure:
Chemical Name:: FLUCHLORALIN
CAS:: 33245-39-5
MF:: C12H13ClF3N3O4

Structure:
Chemical Name:: 1,5-dibromo-2,4-diiodobenzene
CAS:: 96843-23-1
MF:: C6H2Br2I2

Structure:
Chemical Name:: Beflubutamid-M
CAS:: 113614-09-8
MF:: C18H17F4NO2

Structure:
Chemical Name:: IMAZAMETHABENZ-METHYL
CAS:: 81405-85-8
MF:: C16H20N2O3

Structure:
Chemical Name:: Fluometuron
CAS:: 2164-17-2
MF:: C10H11F3N2O

Structure:
Chemical Name:: TERBUMETON
CAS:: 33693-04-8
MF:: C10H19N5O

Structure:
Chemical Name:: 5-Methoxymethyl-2,3-pyridinedicarboxylic acid
CAS:: 143382-03-0
MF:: C9H9NO5

Structure:
Chemical Name:: Quinclorac
CAS:: 84087-01-4
MF:: C10H5Cl2NO2

Structure:
Chemical Name:: ETHIDIMURON
CAS:: 30043-49-3
MF:: C7H12N4O3S2

Structure:
Chemical Name:: Prodiamine
CAS:: 29091-21-2
MF:: C13H17F3N4O4

Structure:
Chemical Name:: Mesotrione
CAS:: 104206-82-8
MF:: C14H13NO7S

Structure:
Chemical Name:: 2-Amino-2,3-dimethylbutyronitrile
CAS:: 13893-53-3
MF:: C6H12N2

Structure:
Chemical Name:: DIMEFURON
CAS:: 34205-21-5
MF:: C15H19ClN4O3

Structure:
Chemical Name:: chlorazine
CAS:: 580-48-3
MF:: C11H20ClN5

Structure:
Chemical Name:: Diuron
CAS:: 330-54-1
MF:: C9H10Cl2N2O

Structure:
Chemical Name:: DESMETRYN
CAS:: 1014-69-3
MF:: C8H15N5S

Structure:
Chemical Name:: tefuryltrione
CAS:: 473278-76-1
MF:: C20H23ClO7S

Structure:
Chemical Name:: metamifop
CAS:: 256412-89-2
MF:: C23H18ClFN2O4

Structure:
Chemical Name:: propyrisulfuron
CAS:: 570415-88-2
MF:: C16H18ClN7O5S

Structure:
Chemical Name:: Pyrithiobac-sodium
CAS:: 123343-16-8
MF:: C13H10ClN2NaO4S

Structure:
Chemical Name:: Isopropylidene(3-methylcyclopentadienyl)(9-fluorenyl)zirconium dichloride
CAS:: 133190-48-4
MF:: C22H22Cl2Zr

Structure:
Chemical Name:: Glufosinate-P
CAS:: 35597-44-5
MF:: C5H12NO4P

Structure:
Chemical Name:: ATRAZINE-DESETHYL
CAS:: 6190-65-4
MF:: C6H10ClN5

Structure:
Chemical Name:: GLYPHOSATE-N-METHYL
CAS:: 24569-83-3
MF:: C4H10NO5P

Structure:
Chemical Name:: Lancotrione
CAS:: 1486617-21-3
MF:: C19H21ClO8S

Structure:
Chemical Name:: Cyclopyranil
CAS:: 1651191-47-7
MF:: C15H17ClN6

Structure:
Chemical Name:: 2-CHLOROBENZENESULFONYL ISOCYANATE
CAS:: 64900-65-8
MF:: C7H4ClNO3S

Structure:
Chemical Name:: BUTAFENACIL
CAS:: 134605-64-4
MF:: C20H18ClF3N2O6

Structure:
Chemical Name:: 1,3-Dichloropropene
CAS:: 542-75-6
MF:: C3H4Cl2

Structure:
Chemical Name:: ISOXABEN
CAS:: 82558-50-7
MF:: C18H24N2O4

Structure:
Chemical Name:: BUTURON
CAS:: 3766-60-7
MF:: C12H13ClN2O

Structure:
Chemical Name:: Fluazifop-butyl
CAS:: 69806-50-4
MF:: C19H20F3NO4

Structure:
Chemical Name:: CHLORBROMURON
CAS:: 13360-45-7
MF:: C9H10BrClN2O2

Structure:
Chemical Name:: FLUORODIFEN
CAS:: 15457-05-3
MF:: C13H7F3N2O5

Structure:
Chemical Name:: Dicamba
CAS:: 1918-00-9
MF:: C8H6Cl2O3

Structure:
Chemical Name:: Ethyl 2,4-dichlorophenoxyacetate
CAS:: 533-23-3
MF:: C10H10Cl2O3

Structure:
Chemical Name:: PIPEROPHOS
CAS:: 24151-93-7
MF:: C14H28NO3PS2

Structure:
Chemical Name:: Ethalfluralin
CAS:: 55283-68-6
MF:: C13H14F3N3O4

Structure:
Chemical Name:: SECBUMETON
CAS:: 26259-45-0
MF:: C10H19N5O

Structure:
Chemical Name:: MCPA SODIUM
CAS:: 3653-48-3
MF:: C9H10ClNaO3

Structure:
Chemical Name:: 1-(2-Chloroethoxy)propane
CAS:: 42149-74-6
MF:: C5H11ClO

Structure:
Chemical Name:: ISOMETHIOZIN
CAS:: 57052-04-7
MF:: C12H20N4OS

Structure:
Chemical Name:: Isopropyl 2,4-dichlorophenoxyacetate
CAS:: 94-11-1
MF:: C11H12Cl2O3

Structure:
Chemical Name:: Atrazine
CAS:: 1912-24-9
MF:: C8H14ClN5

Structure:
Chemical Name:: Ethylbutylamine
CAS:: 13360-63-9
MF:: C6H15N

Structure:
Chemical Name:: 3-ETHYLSULFONYL-2-PYRIDINESULFONAMIDE
CAS:: 117671-01-9
MF:: C7H10N2O4S2

Structure:
Chemical Name:: N-methylbenzothiazol-2-amine
CAS:: 16954-69-1
MF:: C8H8N2S

Structure:
Chemical Name:: CHLOROXURON
CAS:: 1982-47-4
MF:: C15H15ClN2O2

Structure:
Chemical Name:: 2-PROPOXYETHANOL
CAS:: 2807-30-9
MF:: C5H12O2

Structure:
Chemical Name:: Triclopyr 2-butoxyethyl ester
CAS:: 64700-56-7
MF:: C13H16Cl3NO4

Structure:
Chemical Name:: Sodium methylarsonate
CAS:: 2163-80-6
MF:: CH4AsO3.Na

Structure:
Chemical Name:: NITRALIN
CAS:: 4726-14-1
MF:: C13H19N3O6S

Structure:
Chemical Name:: NORFLURAZON
CAS:: 27314-13-2
MF:: C12H9ClF3N3O

Structure:
Chemical Name:: Glyphosate
CAS:: 1071-83-6
MF:: C3H8NO5P

Structure:
Chemical Name:: Disodium methylarsonate
CAS:: 144-21-8
MF:: CH3AsO3·2Na

Structure:
Chemical Name:: SULFALLATE
CAS:: 95-06-7
MF:: C8H14ClNS2

Structure:
Chemical Name:: PROFLURALIN
CAS:: 26399-36-0
MF:: C14H16F3N3O4

Structure:
Chemical Name:: DINOTERB ACETATE
CAS:: 3204-27-1
MF:: C12H14N2O6

Structure:
Chemical Name:: CYCLOXYDIM
CAS:: 101205-02-1
MF:: C17H27NO3S

Structure:
Chemical Name:: BENFURESATE
CAS:: 68505-69-1
MF:: C12H16O4S

Structure:
Chemical Name:: FLAMPROP-M-ISOPROPYL
CAS:: 57973-67-8
MF:: C19H19ClFNO3

Structure:
Chemical Name:: FLAMPROP-METHYL
CAS:: 52756-25-9
MF:: C17H15ClFNO3

Structure:
Chemical Name:: ISOCARBAMID
CAS:: 30979-48-7
MF:: C8H15N3O2

Structure:
Chemical Name:: 2,2-DICHLOROPROPIONIC ACID SODIUM SALT
CAS:: 127-20-8
MF:: C3H3Cl2NaO2

Structure:
Chemical Name:: NITROFEN
CAS:: 1836-75-5
MF:: C12H7Cl2NO3

Structure:
Chemical Name:: FLUAZIFOP
CAS:: 69335-91-7
MF:: C15H12F3NO4

Structure:
Chemical Name:: Flucarbazone sodium
CAS:: 181274-17-9
MF:: C12H12F3N4NaO6S

Structure:
Chemical Name:: Monolinuron
CAS:: 1746-81-2
MF:: C9H11ClN2O2

Structure:
Chemical Name:: DIMETHACHLOR
CAS:: 50563-36-5
MF:: C13H18ClNO2

Structure:
Chemical Name:: ATRAZINE-DESISOPROPYL
CAS:: 1007-28-9
MF:: C5H8ClN5

Structure:
Chemical Name:: PICLORAM METHYL ESTER
CAS:: 14143-55-6
MF:: C7H5Cl3N2O2

Structure:
Chemical Name:: Diquat dibromide monohydrate
CAS:: 6385-62-2
MF:: C12H14BrN2O+

Structure:
Chemical Name:: METOXURON
CAS:: 19937-59-8
MF:: C10H13ClN2O2