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298-02-2

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298-02-2 Usage

Description

Different sources of media describe the Description of 298-02-2 differently. You can refer to the following data:
1. Phorate is a kind of widely used organophosphate pesticide and acaricide1-2. It is a powerful pesticide effective against insects, mites, and nematodes3. It is a systemic insecticide that acts by inhibiting cholinesterases, enzymes involved in transmitting nerve impulses. However, it is very toxic both for target organisms and for mammals including human1-2. Because of its persistence in soil it is most useful in controlling soil-dwelling nematodes (microscopic roundworms that suck plant roots and transmit disease thereby). It is not recommended for use by the homeowner because it is extremely toxic and persistent3.
2. Phorate is a colorless oil. The water solubility is 50 mg/L (25 ?C). It is miscible with common organic solvents. Log Kow = 3.92. Phorate is relatively unstable to hydrolysis in aqueous media; DT50 values at pH 7 and 9 are 3.2 and 3.9 d, respectively. Phorate is effective against sucking plant pests as a systemic insecticide-acaricide and also has good contact and vapor actions. It is usually formulated as granules. The acute oral LD50 for rats is 1.6–3.7 mg/kg. Inhalation LC50 (1 h) for rats is 0.06–0.011 mg/L air. ADI is 0.5 μg/kg b.w.

Sources

Mahajan, R, et al. "Phorate exposure and incidence of cancer in the agricultural health study. "Environmental Health Perspectives 114.8(2006):1205. https://en.wikipedia.org/wiki/Phorate https://www.britannica.com/science/phorate

Chemical Properties

Phorate is a clear mobile liquid with a skunk-like odor

Uses

Different sources of media describe the Uses of 298-02-2 differently. You can refer to the following data:
1. Phorate is a non-biocumulative organophosphate used as an insecticide and acaricide. Phorate is an inhibitor of acetylcholinesterase and pseudocholinesterase.
2. Insecticide.
3. Phorate is a systemic insecticide used to control sucking and chewing pests in a very wide range of crops. It is also active as a nematicide and has some vapour phase activity.
4. Systemic insecticide for control of mites, chewing and sucking insects in fruits and vegetables, cotton and some ornamentals

General Description

Clear liquid with an objectionable odor. Used as an insecticide and acaricide; Phorate is applied to plants and soil.

Air & Water Reactions

Phorate is incompatible with the following: Water, alkalis [Note: Hydrolyzed in the presence of moisture and by alkalis.] .

Reactivity Profile

Organothiophosphates, such as Phorate, are susceptible to formation of highly toxic and flammable phosphine gas in the presence of strong reducing agents such as hydrides. Partial oxidation by oxidizing agents may result in the release of toxic phosphorus oxides.

Health Hazard

Phorate is one of the more toxic organophosphorus insecticides. It is a cholinesterase inhibitor that acts on the nervous system, and produces toxicity similar to Parathion. The probable oral lethal dose for humans is less than 5 mg/kg, i.e. a taste (less than 7 drops) for a 70 kg (150 lb.) person.

Fire Hazard

Shock can shatter containers, releasing the contents. When heated to decomposition, toxic fumes of sulfur oxides, phosphorus oxides, and nitrogen oxides are emitted. Hydrolyzed in water and alkalies.

Agricultural Uses

Insecticide, Acaricide, Nematicide: Phorate is an organophosphorus insecticide and acaricide used to control a wide variety of sucking and chewing insects, leafhoppers, leafminers, mites, somenematodes, and rootworms. It is used on many crops, including root and field crops such as corn, cotton, coffee, potatoes, sugar beets, beans, peanuts, wheat, some ornamental and herbaceous plants, and bulb. In the U.S., 80% of the annual use of phorate is applied to corn, potatoes and cotton. It is available in granular and emulsifiable concentrate formulations. Phorate has been shown to be responsible for a large number of bird kills and it is extremely toxic to mammals. Not approved for use in EU countries. A U.S. EPA restricted Use Pesticide (RUP). U.S. Maximum Allowable Residue Levels for Phorate (40 CFR 180.206): bean 0.1 ppm; beet, sugar, roots 0.3 ppm; beet, sugar, tops 3 ppm; coffee, bean 0.02 ppm; corn, forage 0.5 ppm; corn, grain 0.1 ppm; corn, sweet, kernel plus 0.1 ppm; cob with husks removed ppm; cotton, undelinted seed 0.05 ppm; hop 0.5 ppm; peanut 0.1 ppm; potato 0.5 ppm; sorghum, grain, grain 0.1 ppm; sorghum, grain, stover 0.1 ppm; soybean 0.1 ppm; sugarcane, cane 0.1 ppm; wheat, grain 0.05 ppm; wheat, hay 1.5 ppm; wheat, straw 0.05 ppm.

Trade name

AASTAR?[C]; AC 3911?; AGRIMET?; AMERICAN CYANAMID 3,911?; EL 3911?; EXPERIMENTAL INSECTICIDE 3911?; GEOMET?; GRAMTOX?; GRANUTOX?; L 11/6?; METAPHOR?; PHORATE-10G?; PHORIL?; RAMPART?; TERRACLOR?; TERRATHION GRANULES?; THIMENOX?; THIMET?; THEMET?; UMET?; VEGFRU?; VERGFRU FORATOX?

Safety Profile

Poison by ingestion and sh contact routes. Experimental reproductive effects. Mutation data reported. A cholinesterase irhbitor. When heated to decomposition it emits toxic fumes of POx and SOx. See also PARATHION

Potential Exposure

Those engaged in the manufacture, formulation and application of this systemic and contact insecticide and acaricide. It is also used as a soil insecticide.

Carcinogenicity

When dogs were given phorate via capsules at doses of 0.005, 0.01, 0.05, or 0.25 mg/kg/day for 1 year, slight body tremors, marginal inhibition of body weight gain, and RBC and brain cholinesterase inhibition occurred in males given 0.25 mg/kg/day . No evidence of carcinogenicity occurred in rats given diets that contained 0, 1, 3, or 6 ppm phorate (equal to about 0, 0.05, 0.15, or 0.3 mg/kg/day) for 2 years . Erythrocyte and brain cholinesterase inhibition occurred at exposures of 3 and 6 ppm. No evidence of carcinogenicity or other adverse effects occurred in mice given diets that contained 0, 1, 3, or 6 ppm phorate (equal to about 0, 0.15, 0.45, and 0.9 mg/kg/day) for 78 weeks, other than a slight decrease in body weight gain in females that were fed 6 ppm .

Environmental Fate

Biological. [14C]Phorate degraded in a model ecosystem consisting of soil, plants and water (Lichtenstein et al., 1974). Under both non-percolating and percolating water conditions, 12% of the applied amount migrated downward as the corresponding sulfone and sulfoxide. Phorate was absorbed in the roots of corn and was transformed primarily to the sulfone with trace amounts of the sulfoxide. Translocation of radioactive insecticide to the leaves was also observed but the major products were identified as phoratoxon sulfone and phoratoxon sulfoxide (Lichtenstein et al., 1974)From the first-order biotic and abiotic rate constants of phorate in estuarine water and sediment/water systems, the estimated biodegradation half-lives were 1.1–1.6 and 0.7–1.6 days, respectively (Walker et al., 1988)Soil. The corresponding sulfoxide and sulfone and their phosphorothioate analogs are major soil metabolites (Lichtenstein et al., 1974). The phosphorothioate analogs may hydrolyze forming dithio-, thio- and orthophosphoric acids (Hartley and KiddPhorate was moderately persistent in soil. Way and Scopes (1968) reported residues comprised 10% of applied dosage 540 days after application. The reported half-life in soil is 82 days (Jury et al., 1987) and 68 days in a sandy soil (Way and Scopes, 1968). The half-lives for phorate in soil incubated in the laboratory under aerobic conditions ranged from 7 to 82.5 days with an average half-life of 75 days (Getzin and Chapman, 1960; Getzin and Shark, 1970). Approximately three days after applying phorate to a sandy soil, 41% was lost to volatilization (Burns, 1971)Plant. Oat plants were grown in two soils treated with [14C]phorate. Most of the residues remained bound to the soil. Less than 2% of the applied [14C]phorate was recovered from the oat leaves. The major residues in soil were phorate and the corr

Metabolic pathway

Phorate is metabolised by an analogous route to that of disulfoton. The principal route of phorate metabolism in all media is activation via oxidation of the thioether group to the sulfoxide (rapid) and sulfone (slower). Thioether oxidation occurs preferentially to oxidative desulfuration of the P=S group to the oxon, which is usually only present in trace amounts, and there is good evidence that the sulfoxide and sulfone oxons arise via phorate sulfoxide and sulfone rather than phorate oxon. The more polar thiooxidised metabolites are translocated in plants and are responsible for the compound’s systemic action. Of all phorate’s metabolites, phorate oxon sulfone is the most active inhibitor of acetylcholinesterase (Bowman and Casida, 1957). Degradative metabolism occurs via oxidative dealkylation of the phosphorodithioate group or hydrolysis of the oxon.

Metabolism

The metabolic routes of phorate are essentially the same in plants, animals, and soils, involving the oxidation of the sulfide group into the sulfoxide then sulfone, and oxidative desulfuration to the corresponding oxons, followed by hydrolysis to diethyl hydrogen phosphorodithioate, phosphorothioate, and phosphate. Phorate protects plants for a relatively long time because of the persistency of the sulfoxide metabolite in plants and in soils. DT50 in soil is 2–14 d.

Shipping

UN3018 Organophosphorus pesticides, liquid, toxic, Hazard Class: 6.1; Labels: 6.1-Poisonous materials. UN2783 Organophosphorus pesticides, solid, toxic, Hazard Class: 6.1; Labels: 6.1-Poisonous material. UN2810 Toxic liquids, organic, n.o.s., Hazard Class: 6.1; Labels: 6.1-Poisonous materials, Technical Name Required.

Degradation

Phorate in aqueous solution is hydrolysed and degraded by light. The half-lives at pH 7 and 9 were 3.2 and 3.9 days, respectively (PM). When exposed to sunlight or UV light phorate was apparently oxidised to products which were more active inhibitors of acetylcholinesterase than phorate or its sulfoxide (Bowman and Casida, 1957). Although not specifically identified these photolysis products were likely to be the thiooxidised phorate oxon.

Incompatibilities

Water, alkalis. Hydrolyzed in the presence of moisture and by alkalis; may produce toxic oxides of phosphorus and sulfur. Strong oxidizers may cause release of toxic phosphorus oxides. Organophosphates, in the presence of strong reducing agents such as hydrides, may form highly toxic and flammable phosphine gas. Keep away from alkaline materials.

Waste Disposal

In accordance with 40CFR165, follow recommendations for the disposal of pesticides and pesticide containers. Must be disposed properly by following package label directions or by contacting your local or federal environmental control agency, or by contacting your regional EPA office. Consult with environmental regulatory agencies for guidance on acceptable disposal practices. Generators of waste containing this contaminant (≥100 kg/mo) must conform with EPA regulations governing storage, transportation, treatment, and waste disposal.

Check Digit Verification of cas no

The CAS Registry Mumber 298-02-2 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 2,9 and 8 respectively; the second part has 2 digits, 0 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 298-02:
(5*2)+(4*9)+(3*8)+(2*0)+(1*2)=72
72 % 10 = 2
So 298-02-2 is a valid CAS Registry Number.
InChI:InChI=1/C7H17O2PS3/c1-4-8-10(11,9-5-2)13-7-12-6-3/h4-7H2,1-3H3

298-02-2SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 13, 2017

Revision Date: Aug 13, 2017

1.Identification

1.1 GHS Product identifier

Product name phorate

1.2 Other means of identification

Product number -
Other names Geomet

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only. Insecticide
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:298-02-2 SDS

298-02-2Relevant articles and documents

Macrocyclic plant acaricides

-

, (2008/06/13)

Compounds of the formula I STR1 in which either R is methyl and there is a double bond in the 9,10-position, or in which R is hydrogen and there is a single bond in the 9,10-position, are highly active against Acarina which damage plants.