成人免费xx,国产又黄又湿又刺激不卡网站,成人性视频app菠萝网站,色天天天天

Herbicide

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.

Click on the specific product, view the latest prices of the products, information, serving information
Structure Chemical Name CAS MF
NAPROANILIDE NAPROANILIDE 52570-16-8 C19H17NO2
MCPA-BUTOXYETHYL ESTER MCPA-BUTOXYETHYL ESTER 19480-43-4 C15H21ClO4
DICAMBA METHYL ESTER DICAMBA METHYL ESTER 6597-78-0 C9H8Cl2O3
CYPRAZINE CYPRAZINE 22936-86-3 C9H14ClN5
DINOSEB METHYL ETHER DINOSEB METHYL ETHER 6099-79-2 C11H14N2O5
MCPB METHYL ESTER MCPB METHYL ESTER 57153-18-1 C12H15ClO3
Metribuzin Metribuzin 21087-64-9 C8H14N4OS
1,2,2,3-TETRACHLOROPROPANE 1,2,2,3-TETRACHLOROPROPANE 13116-53-5 C3H4Cl4
FLURTAMONE FLURTAMONE 96525-23-4 C18H14F3NO2
PYROXSULAM PYROXSULAM 422556-08-9 C14H13F3N6O5S
Bentazone Bentazone 25057-89-0 C10H12N2O3S
2,4-D ETHANOLAMINE SALT 2,4-D ETHANOLAMINE SALT 3599-58-4 C10H13Cl2NO4
Thifensulfuron methyl Thifensulfuron methyl 79277-27-3 C12H13N5O6S2
Chlorsulfuron Chlorsulfuron 64902-72-3 C12H12ClN5O4S
METHOPROTRYNE METHOPROTRYNE 841-06-5 C11H21N5OS
1,2,3-TRICHLOROPROPENE 1,2,3-TRICHLOROPROPENE 96-19-5 C3H3Cl3
ATRAZINE-DESETHYL-2-HYDROXY ATRAZINE-DESETHYL-2-HYDROXY 19988-24-0 C6H11N5O
Chlorimuron-ethyl Chlorimuron-ethyl 90982-32-4 C15H15ClN4O6S
Bispyribac-sodium Bispyribac-sodium 125401-92-5 C19H17N4NaO8
PENTACHLOROPHENOL 13C6 PENTACHLOROPHENOL 13C6 85380-74-1 C6HCl5O
Isoproturon Isoproturon 34123-59-6 C12H18N2O
Prometryn Prometryn 7287-19-6 C10H19N5S
2-(4-((3-Chloro-5-(trifluoromethyl)-2-pyridinyl)oxy)phenoxy)-propanoic acid methyl ester 2-(4-((3-Chloro-5-(trifluoromethyl)-2-pyridinyl)oxy)phenoxy)-propanoic acid methyl ester 72619-32-0 C16H13ClF3NO4
Fluazifop-P-butyl Fluazifop-P-butyl 79241-46-6 C19H20F3NO4
Acifluorfen Acifluorfen 50594-66-6 C14H7ClF3NO5
DIFENOXURON DIFENOXURON 14214-32-5 C16H18N2O3
Metamitron Metamitron 41394-05-2 C10H10N4O
2-(1-Naphthalenyloxy)propanoic acid 2-(1-Naphthalenyloxy)propanoic acid 13949-67-2 C13H12O3
FOSAMINE AMMONIUM FOSAMINE AMMONIUM 25954-13-6 C3H11N2O4P
Trifluralin Trifluralin 1582-09-8 C13H16F3N3O4
FLAMPROP-ISOPROPYL FLAMPROP-ISOPROPYL 52756-22-6 C19H19ClFNO3
Bensulfuron methyl Bensulfuron methyl 83055-99-6 C16H18N4O7S
Machette Machette 23184-66-9 C17H26ClNO2
Nicosulfuron Nicosulfuron 111991-09-4 C15H18N6O6S
Rimsulfuron Rimsulfuron 122931-48-0 C14H17N5O7S2
Asulam Asulam 3337-71-1 C8H10N2O4S
Lactofen Lactofen 77501-63-4 C19H15ClF3NO7
Simazine Simazine 122-34-9 C7H12ClN5
Acetochlor Acetochlor 34256-82-1 C14H20ClNO2
Eradicane Eradicane 759-94-4 C9H19NOS
Diflufenican Diflufenican 83164-33-4 C19H11F5N2O2
Clethodim Clethodim 99129-21-2 C17H26ClNO3S
Pretilachlor Pretilachlor 51218-49-6 C17H26ClNO2
1,1,2,3-TETRACHLOROPROPANE 1,1,2,3-TETRACHLOROPROPANE 18495-30-2 C3H4Cl4
PYRAZOXYFEN PYRAZOXYFEN 71561-11-0 C20H16Cl2N2O3
N,N-Diethyl-2-chloropropionamide N,N-Diethyl-2-chloropropionamide 54333-75-4 C7H14ClNO
Diethyl 2,3-dichlorobutanedioate Diethyl 2,3-dichlorobutanedioate 62243-26-9 C8H12Cl2O4
Oxadiazon Oxadiazon 19666-30-9 C15H18Cl2N2O3
Tribenuron methyl Tribenuron methyl 101200-48-0 C15H17N5O6S
5-(aminosulfonyl)-3-chloro-1-methyl-1H- pyrazol 5-(aminosulfonyl)-3-chloro-1-methyl-1H- pyrazol 100784-27-8 C6H8ClN3O4S
FENOXAPROP FENOXAPROP 95617-09-7 C16H12ClNO5
4-[(6-Chloro-1,3-benzoxazol-2-yl)oxy]phenol 4-[(6-Chloro-1,3-benzoxazol-2-yl)oxy]phenol 70217-01-5 C13H8ClNO3
Metolachlor Metolachlor 51218-45-2 C15H22ClNO2
TERBUTOL TERBUTOL 1918-11-2 C17H27NO2
N-CHLOROACETYL-2,6-DIETHYLANILINE N-CHLOROACETYL-2,6-DIETHYLANILINE 6967-29-9 C12H16ClNO
Simetryne Simetryne 1014-70-6 C8H15N5S
Propanil Propanil 709-98-8 C9H9Cl2NO
DIMEPIPERATE DIMEPIPERATE 61432-55-1 C15H21NOS
CHLOROMETHYL ISO-PROPYL ETHER CHLOROMETHYL ISO-PROPYL ETHER 3587-58-4 C4H9ClO
DIPHENAMID DIPHENAMID 957-51-7 C16H17NO
IODOMETHANE-13C-D3 IODOMETHANE-13C-D3 20710-47-8 CD3I
Oxyfluorfen Oxyfluorfen 42874-03-3 C15H11ClF3NO4
Triallate Triallate 2303-17-5 C10H16Cl3NOS
Cinmethylin Cinmethylin 87818-31-3 C18H26O2
CAFENSTROLE CAFENSTROLE 125306-83-4 C16H22N4O3S
Alachlor Alachlor 15972-60-8 C14H20ClNO2
2-HYDROXY-N-METHYL-N-PHENYL-ACETAMIDE 2-HYDROXY-N-METHYL-N-PHENYL-ACETAMIDE 42404-09-1 C9H11NO2
Ametryn Ametryn 834-12-8 C9H17N5S
Sulfometuron-methyl Sulfometuron-methyl 74222-97-2 C15H16N4O5S
(2,4-dichloro-5-isopropoxyphenyl)hydrazine (2,4-dichloro-5-isopropoxyphenyl)hydrazine 40178-22-1 C9H12Cl2N2O
carfentrazone-ethyl carfentrazone-ethyl 128621-72-7 C13H10Cl2F3N3O3
Cinosulfuron Cinosulfuron 94593-91-6 C15H19N5O7S
Metazachlor Metazachlor 67129-08-2 C14H16ClN3O
Bifenox Bifenox 42576-02-3 C14H9Cl2NO5
DIALLATE DIALLATE 2303-16-4 C10H17Cl2NOS
MEDINOTERB ACETATE MEDINOTERB ACETATE 2487-01-6 C13H16N2O6
PENTACHLOROPHENOL-UL-14C PENTACHLOROPHENOL-UL-14C 67471-28-7 C6HCl5O
Diquat dibromide Diquat dibromide 85-00-7 C12H12Br2N2
Difenzoquat Difenzoquat 49866-87-7 C17H17N2+
Butyl 2,4-dichlorophenoxyacetate Butyl 2,4-dichlorophenoxyacetate 94-80-4 C12H14Cl2O3
CHLOROMETHYL BUTYL ETHER CHLOROMETHYL BUTYL ETHER 2351-69-1 C5H11ClO
Pyrazosulfuron-ethyl Pyrazosulfuron-ethyl 93697-74-6 C14H18N6O7S
Anilofos Anilofos 64249-01-0 C13H19ClNO3PS2
Pyribenzoxim Pyribenzoxim 168088-61-7 C32H27N5O8
2-(Methoxymethyl)-2-propenal 2-(Methoxymethyl)-2-propenal 137032-88-3 C5H8O2
Paraquat Paraquat 4685-14-7 C12H14N2+2
N-Acetyl-N-(4-chloro-2-nitrophenyl)acetamide N-Acetyl-N-(4-chloro-2-nitrophenyl)acetamide 156499-65-9 C10H9ClN2O4
Phenmedipham Phenmedipham 13684-63-4 C16H16N2O4
Imazethapyr Imazethapyr 81335-77-5 C15H19N3O3
Bensulfuron Bensulfuron 99283-01-9 C15H16N4O7S
Methabenzthiazuron Methabenzthiazuron 18691-97-9 C10H11N3OS
METSULFURON METHYL METSULFURON METHYL 74223-64-6 C14H15N5O6S
Fomesafen Fomesafen 72178-02-0 C15H10ClF3N2O6S
DYMRON DYMRON 42609-52-9 C17H20N2O
Chlorotoluron Chlorotoluron 15545-48-9 C10H13ClN2O
Diclofop Diclofop 40843-25-2 C15H12Cl2O4
METOSULAM METOSULAM 139528-85-1 C14H13Cl2N5O4S
Napropamide Napropamide 15299-99-7 C17H21NO2
Propachlor Propachlor 1918-16-7 C11H14ClNO
2,4-Dichlorophenoxybutyric acid 2,4-Dichlorophenoxybutyric acid 94-82-6 C10H10Cl2O3
HomePage | Member Companies | Advertising | Contact us | Previous WebSite | MSDS | CAS Index | CAS DataBase
Copyright © 2016 ChemicalBook All rights reserved.