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Cypermethrin
International Environmental Health Criteria 82 Cypermethrin Published under the joint sponsorship of the United Nations Environment Programme, the International Labour Organisation, and the World Health Organization WORLD HEALTH ORGANIZATION GENEVA 1989 Other titles available in the ENVIRONMENTAL HEALTH CRITERIA series include: 1. Mercury 2. Polychlorinated Biphenyls and Terphenyls 3. Lead 4. Oxides of Nitrogen 5. Nitrates, Nitrites, and N-Nitroso Compounds 6. Principles and Methods for Evaluating the Toxicity of Chemicals, Part 1 7. Photochemical Oxidants 8. Sulfur Oxides and Suspended Particulate Matter 9. DDT and its Derivatives 10. Carbon Disulfide 11. Mycotoxins 12. Noise 13. Carbon Monoxide 14. Ultraviolet Radiation 15. Tin and Organotin Compounds 16. Radiofrequency and Microwaves 17. Manganese 18. Arsenic 19. Hydrogen Sulfide 20. Selected Petroleum Products 21. Chlorine and Hydrogen Chloride 22. Ultrasound 23. Lasers and Optical Radiation 24. Titanium 25. Selected Radionuclides 26. Styrene 27. Guidelines on Studies in Environmental Epidemiology 28. Acrylonitrile 29. 2,4-Dichlorophenoxyacetic Acid (2,4-D) 30. Principles for Evaluating Health Risks to Progeny Associated with Exposure to Chemicals during Pregnancy 31. Tetrachloroethylene 32. Methylene Chloride 33. Epichlorohydrin 34. Chlordane 35. Extremely Low Frequency (ELF) Fields 36. Fluorine and Fluorides 37. Aquatic (Marine and Freshwater) Biotoxins 38. Heptachlor 39. Paraquat and Diquat 40. Endosulfan 41. Quintozene 42. Tecnazene 43. Chlordecone 44. Mirex continued on p. 156 -
Chem7988.Pdf
This article was originally published in a journal published by Elsevier, and the attached copy is provided by Elsevier for the author’s benefit and for the benefit of the author’s institution, for non-commercial research and educational use including without limitation use in instruction at your institution, sending it to specific colleagues that you know, and providing a copy to your institution’s administrator. All other uses, reproduction and distribution, including without limitation commercial reprints, selling or licensing copies or access, or posting on open internet sites, your personal or institution’s website or repository, are prohibited. For exceptions, permission may be sought for such use through Elsevier’s permissions site at: http://www.elsevier.com/locate/permissionusematerial Chemosphere 67 (2007) 2184–2191 www.elsevier.com/locate/chemosphere Assessment of pesticide contamination in three Mississippi Delta oxbow lakes using Hyalella azteca M.T. Moore *, R.E. Lizotte Jr., S.S. Knight, S. Smith Jr., C.M. Cooper USDA-ARS National Sedimentation Laboratory, P.O. Box 1157, Oxford, MS 38655, United States Received 8 September 2006; received in revised form 27 November 2006; accepted 8 December 2006 Available online 26 January 2007 Abstract Three oxbow lakes in northwestern Mississippi, USA, an area of intensive agriculture, were assessed for biological impairment from historic and current-use pesticide contamination using the amphipod, Hyalella azteca. Surface water and sediment samples from three sites in each lake were collected from Deep Hollow, Beasley, and Thighman Lakes from September 2000 to February 2001. Samples were analyzed for 17 historic and current-use pesticides and selected metabolites. -
Carpenter Ants and Control in Homes Page 1 of 6
Carpenter Ants and Control in Homes Page 1 of 6 Carpenter Ants and Control in Homes Fact Sheet No. 31 Revised May 2000 Dr. Jay B Karren, Extension Entomologist Alan H. Roe, Insect Diagnostician Introduction Carpenter ants are members of the insect order Hymenoptera, which includes bees, wasps, sawflies, and other ants. Carpenter ants can be occasional pests in the home and are noted particularly for the damage they can cause when nesting in wood. In Utah they are more of a nuisance rather than a major structural pest. Carpenter ants, along with a number of other ant species, utilize cavities in wood, particularly stumps and logs in decayed condition, as nesting sites. They are most abundant in forests and can be easily found under loose bark of dead trees, stumps, or fallen logs. Homeowners may bring them into their homes when they transport infested logs from forests to use as firewood. Description Carpenter ants include species that are among the largest ants found in the United States. They are social insects with a complex and well-defined caste system. The worker ants are sterile females and may occur in different sizes (majors and minors). Members of the reproductive caste (fertile males and females) are usually winged prior to mating. All ants develop from eggs deposited by a fertilized female (queen). The eggs hatch into grub-like larvae (immatures) which are fed and cared for by the workers. When fully grown, the larvae spin a cocoon and enter the pupal stage. The pupal stage is a period of transformation from the larva to adult. -
Historical Perspectives on Apple Production: Fruit Tree Pest Management, Regulation and New Insecticidal Chemistries
Historical Perspectives on Apple Production: Fruit Tree Pest Management, Regulation and New Insecticidal Chemistries. Peter Jentsch Extension Associate Department of Entomology Cornell University's Hudson Valley Lab 3357 Rt. 9W; PO box 727 Highland, NY 12528 email: [email protected] Phone 845-691-7151 Mobile: 845-417-7465 http://www.nysaes.cornell.edu/ent/faculty/jentsch/ 2 Historical Perspectives on Fruit Production: Fruit Tree Pest Management, Regulation and New Chemistries. by Peter Jentsch I. Historical Use of Pesticides in Apple Production Overview of Apple Production and Pest Management Prior to 1940 Synthetic Pesticide Development and Use II. Influences Changing the Pest Management Profile in Apple Production Chemical Residues in Early Insect Management Historical Chemical Regulation Recent Regulation Developments Changing Pest Management Food Quality Protection Act of 1996 The Science Behind The Methodology Pesticide Revisions – Requirements For New Registrations III. Resistance of Insect Pests to Insecticides Resistance Pest Management Strategies IV. Reduced Risk Chemistries: New Modes of Action and the Insecticide Treadmill Fermentation Microbial Products Bt’s, Abamectins, Spinosads Juvenile Hormone Analogs Formamidines, Juvenile Hormone Analogs And Mimics Insect Growth Regulators Azadirachtin, Thiadiazine Neonicotinyls Major Reduced Risk Materials: Carboxamides, Carboxylic Acid Esters, Granulosis Viruses, Diphenyloxazolines, Insecticidal Soaps, Benzoyl Urea Growth Regulators, Tetronic Acids, Oxadiazenes , Particle Films, Phenoxypyrazoles, Pyridazinones, Spinosads, Tetrazines , Organotins, Quinolines. 3 I Historical Use of Pesticides in Apple Production Overview of Apple Production and Pest Management Prior to 1940 The apple has a rather ominous origin. Its inception is framed in the biblical text regarding the genesis of mankind. The backdrop appears to be the turbulent setting of what many scholars believe to be present day Iraq. -
Follow-Up Studies After Withdrawal of Deltamethrin Spraying Against Anopheles Culicifacies and Malaria Incidence
Journal of the American Mosquito contror Association, 2o(4):424-42g,2004 Copyright @ 2OO4 by the American Mosquito Control Association, Inc. FOLLOW-UP STUDIES AFTER WITHDRAWAL OF DELTAMETHRIN SPRAYING AGAINST ANOPHELES CULICIFACIES AND MALARIA INCIDENCE MUSHARRAF ALI ANSARI eNo RAMA KRISHNA RAZDAN Malaria Research Centre (ICMR), 2}-Madhuban, Delhi_ll0 092, India ABSTRACT. Follow-up studies were carried out from 1989 to 1998 after withdrawal of deltamethrin indoor spraying to evaluate the-recovery rate of a population of Anopheles culicifacies resistant to dichlorodiphenyltri- chloroethane (DDT) and hexachlorocyclohexane (HCH) in selected villages in Uttar pradesh State, I;dia. The study revealed 82.4-96.5Ea reduction in adult density of An. culicifacies and 72.7-967o reduction in malaria incidence in the area sprayed with deltamethrin at 20 mg/m, as compared to a control area sprayed with HCH, for 5 successive years even after withdrawal of deltamethrin spray. The impact was very clear when the annual falciparum incidence was compared with that of the control area. The vector population gradually started re- covering after 5 years. However, the slide falciparum rate remained below 4 even after 10 years of withdrawal of spraying. The study revealed that indoor residual spraying of deltamethrin would be cost-effective, at least in areas where malaria is transmitted by An. culicifacies, which is primarily a zoophilic species and associated with malaria epidemics. In view of this, a review of the insecticide policy and strategy of vector control is urgently needed because of the possible risks associated with the presence of nonbiodegradable insecticide in the environment, as well as to minimize the costs of operation and to enhance the useful life of insecticides. -
Efficacy of Imazapic/Imazapyr and Other Herbicides in Mixtures for The
Efficacy of imazapic/imazapyr and other herbicides in mixtures for the control of Digitaria insularis prior to soybean sowing Efectividad de imazapic/imazapyr y otros herbicidas en mezclas para el control de Digitaria insularis en pre-siembra de soya Alfredo Junior Paiola Albrecht1, Leandro Paiola Albrecht1, André Felipe Moreira Silva²*, Romulo Augusto Ramos³, Everson Pedro Zeny³, Juliano Bortoluzzi Lorenzetti4, Maikon Tiago Yamada Danilussi4, and Arthur Arrobas Martins Barroso4 ABSTRACT RESUMEN Herbicide mixtures, use of multiple sites of action, and other Las mezclas entre herbicidas, el uso de múltiples sitios de acción weed management practices are necessary to avoid cases of y otras prácticas de manejo de malezas son necesarias para biotype resistance. The aim of this study was to evaluate the evitar otros casos de resistencia de biotipos. El objetivo de este efficiency of imazapic/imazapyr and other herbicides in mix- estudio fue evaluar la eficiencia de imazapic/imazapyr y otros tures to control Digitaria insularis at burndown before soybean herbicidas en mezclas para controlar Digitaria insularis en la sowing. This field research was conducted in Umuarama, State desecación antes de la siembra de soya. Esta investigación de of Parana (PR), Brazil, in the 2018/19 soybean season. The ex- campo se realizó en Umuarama, Estado de Paraná (PR), Brasil, periment was conducted in a randomized block experimental en la cosecha de soya de 2018/19. El experimento se realizó en design with four replicates and 11 treatments composed of the un diseño experimental de bloques al azar, con cuatro repe- application of glyphosate, clethodim, haloxyfop, imazapic/ ticiones y 11 tratamientos, compuestos por la aplicación de imazapyr, glufosinate, 2,4-dichlorophenoxyacetic acid (2,4-D), glifosato, cletodim, haloxifop, imazapic/imazapir, glufosinato, dicamba, triclopyr, and saflufenacil, in mixtures. -
US EPA, Pesticide Product Label, EVERCIDE ESFENVALERATE 6.4
II UNITED STATES ENVIRONMENTAL PROTECTION AGENCY WASHINGTON, D.C. 20460 OFFICE OF CHEMICAL SAFETY AND POLLUTION PREVENTION DEC 1 6 2011 Mr. Thomas A. Lennan McLaughlin Gormley King Company 8810 Tenth Avenue North Minneapolis, MN 55427-4319 Subject: Notification per PRN 98-10 EPA Registration No.: 1021 -1815 Evercide® Esfenvalerate 6.4% CS Date of Submission: November 14, 2011 Dear Mr. Lennan: The Agency is in receipt of your Application for Pesticide Notification under Pesticide Registration Notice (PRN) 98-10 for the abovementioned product. The Registration Division (RD) has conducted a review of this request and finds that the action(s) requested fall within the scope of PRN 98-10. The label submitted with the application has been stamped "Notification" and will be placed in our records. If you have any questions regarding this action, please contact Olga Odiott at (703)308-9369. Sincerely, Mark Stfarez Product Manager 13 Insecticide Branch Registration Division (7505P) f Please read instructions before completing form Form /ed. OMB No. 2070-0060. Approval expires 05-31-98 United States Reregistration OPP Identifier Number Environmental Protection Agency Amendment Washington, DC 20460 Other Application for Pesticide Reregistration - Section I 1. Company/Product Number 2. EPA Product Manager 3. Proposed Classification 1021-1815 Richard Gebken 4. Company/Product (Name) PM# I None D Restricted EVERCIDE® Esfenvalerate 6.4% CS 10 5. Name and Address of Applicant (Include Zip Code) 6. Expedited Review. In accordance with FIFRA Section 3(c)(3)(b)(i), my MCLAUGHLIN GORMLEY KING COMPANY product is similar or identical in composition and labeling to: 8810 TENTH AVENUE NORTH MINNEAPOLIS, MN 55427 EPA Reg. -
Weed Management with Diclosulam in Peanut (Arachis Hypogaea)1
Weed Technology. 2002. Volume 16:724–730 Weed Management with Diclosulam in Peanut (Arachis hypogaea)1 ANDREW J. PRICE, JOHN W. WILCUT, and CHARLES W. SWANN2 Abstract: Field experiments were conducted at three locations in North Carolina in 1998 and 1999 and one location in Virginia in 1998 to evaluate weed management systems in peanut. Treatments consisted of diclosulam alone preemergence (PRE), or diclosulam plus metolachlor PRE alone or followed by (fb) bentazon plus acifluorfen postemergence (POST). These systems were also com pared with commercial standards of metolachlor PRE fb bentazon plus acifluorfen POST or imazapic POST. Our data indicate that diclosulam PRE plus metolachlor PRE in conventional tillage peanut production usually controlled common lambsquarters, common ragweed, prickly sida, and entireleaf morningglory. But control of spurred anoda, goosegrass, ivyleaf morningglory, large crabgrass, and pitted morningglory by this system was inconsistent and may require additional POST herbicide treatments. Systems that included diclosulam plus metolachlor PRE consistently provided high yields and net returns. Nomenclature: Acifluorfen, bentazon, diclosulam, imazapic, metolachlor; common lambsquarters, Chenopodium album L. #3 CHEAL; common ragweed, Ambrosia artemisiifolia L. # AMBEL; enti releaf morningglory, Ipomoea hederacea var. integruiscula Grey # IPOHG; goosegrass, Eleusine indica (L.) Gaertn. # ELEIN; ivyleaf morningglory, Ipomoea hederacea (L.) Jacq # IPOHE; large crabgrass, Digitaria sanguinalis L. Scop. # DIGSA; pitted morningglory, Ipomoea lacunosa L. # IPOLA; prickly sida, Sida spinosa L. # SIDSP; spurred anoda, Anoda cristata L. # ANVCR; peanut, Arachis hypogaea L. ‘NC 10C’, ‘NC 12C’. Additional index words: Economic analysis. Abbreviations: fb, followed by; POST, postemergence; PPI, preplant incorporated; PRE, preemer gence. INTRODUCTION Wilcut and Swann 1990; Wilcut et al. -
U.S. EPA, Pesticides, Label, TEFLUTHRIN TECHNICAL, 7/19
\09-lo\S- 0)-1'1-2, J}!) UNITED STATES ENVIRONMENTAL PROTECTION AGENCY WASHINGTON, D.C. 20460 OFFICE OF PREVENTION, PESTICIDES AND TOXIC SUBSTANCES July 19,2010 Pat Dinnen Syngenta Crop Protection, Inc. P.O. Box 18300 Greensboro, NC 27419 Subject: Label Notification(s) for Pesticide Registration Notice 2007-4 Amending the Storage and Disposal Language Dear Pat Dinnen: The Agency is in receipt of your Application(s) for Pesticide Notification under Pesticide Registration Notice PRN 2007-4 dated June 22,2010 for the following product(s): Fenoxycarb Technical EPA Reg. No.1 00-723 Cypermethrin Technical EPA Reg. No. 100-989 Tefluthrin Technical EPA Reg. No. 100-1015 Lambda-Cyhalothrin Manufacturing CS EPA Reg. No. 100-1107 Lufenuron Techincal EPA Reg. No. 100-1175 Lambda-Cyhalothrin 250 CS MUP EPA Reg. No. 100-1251 Cypermethrin 250EC MUP EPA Reg. No. 100-1301 The Registration Division (RD) has conducted a review of this request for applicability under PRN 2007-4 and finds that the label change(s) requested falls within the scope of PRN-98-10. The label has been date-stamped "Notification" and will be placed in our records. Please be reminded that 40 CFR Part 156. 140(a)(4) requires that a batch code, lot niImber, or other code identifying the batch of the pesticide distributed and sold be placed on nomefillable containers. The code may appear either on the label (and can be added by non-notificationlPR Notice 98-10) or durably marked on the container itself. If you have any questions, please contact Regina Foushee'-Smith at 703-605-0780. -
Guide No. 1 – October 2020 2/12 the CONCEPT and IMPLEMENTATION of CPA GUIDANCE RESIDUE LEVELS
Cooperation Centre for Scientific Research Relative to Tobacco CORESTA GUIDE N° 1 The Concept and Implementation of CPA Guidance Residue Levels October 2020 Agro-Chemical Advisory Committee CORESTA TECHNICAL GUIDE N° 1 Title: The Concept and Implementation of CPA Guidance Residue Levels Status: Valid Note: This document will be periodically reviewed by CORESTA Document history: Date of review Information July 2003 Version 1 GRL for Pyrethrins () and Terbufos corrected. December 2003 CPA terminology corrected. June 2008 Version 2 – GRLs revised and residue definitions added Provisional GRL of 2.00 ppm for Cyfluthrin to replace previous June 2010 GRL of 0.50 ppm July 2013 Version 3 – GRLs revised October 2013 Note for Maleic Hydrazide revised Version 4 – GRLs revised + clarification that scope of GRLs July 2016 applies predominantly to the production of traditional cigarette tobaccos and GAP associated with their cultivation. June 2018 Fluopyram GRL of 5 ppm added to GRL list Version 5 – Nine new CPAs with GRL added to list. November 2019 Revision of GRLs for Chlorantraniliprole and Indoxacarb. Updated web links. October 2020 Version 6 – Flupyradifurone GRL of 21 ppm added to GRL list. CORESTA Guide No. 1 – October 2020 2/12 THE CONCEPT AND IMPLEMENTATION OF CPA GUIDANCE RESIDUE LEVELS Executive Summary • Guidance Residue Levels (GRLs) are in the remit of the Agro-Chemical Advisory Committee (ACAC) of CORESTA. Their development is a joint activity of all ACAC members, who represent the leaf production, processing and manufacturing sectors of the Tobacco Industry. The concept of GRLs and their implementation are described in this guide. • GRLs provide guidance to tobacco growers and assist with interpretation and evaluation of results from analyses of residues of Crop Protection Agents (CPAs*). -
Ants in the Home Fact Sheet No
Ants in the Home Fact Sheet No. 5.518 Insect Series|Home and Garden by W.S. Cranshaw* Almost anywhere in the state one the nest, tend the young and do other Quick Facts travels, ants will be the most common necessary colony duties. Many kinds of insects that can be found in yards, gardens, ants produce workers that are all the • Most ants that are found in fields and forests. Tremendous numbers same size (monomorphic); some, such as homes nest outdoors and of ants normally reside in a typical house field ants, have workers that vary in size enter homes only to search lot, although most lead unobserved lives (polymorphic). for food or water. underground or otherwise out of sight. Each colony contains one or, sometimes, Often it is only when they occur indoors or a few queens (Figure 1). These are fertile • Almost all ants are workers, produce their periodic mating swarms that females that are larger than workers and wingless females that search they come to human attention. dedicated to egg production. The minute for food and maintain the Overall, the activities of ants are quite eggs are taken from the queen and tended colony. beneficial. Many feed on other insects, by the workers. Upon egg hatch, the • A small proportion of an including pest insects. Ant scavenging pale-colored, legless larvae are fed and helps to recycle organic matter and their protected by the workers. When full-grown, ant colony are winged tunneling is useful in aerating and mixing ant larvae produce a smooth silken cocoon reproductive forms. -
California Restricted Materials Requirements (English)
CALIFORNIA RESTRICTED MATERIALS REQUIREMENTS FEDERAL RESTRICTED USE PESTICIDES RESTRICTED USE PESTICIDE A (Included by reference as California Restricted Materials) DUE TO (reason for restricted use classification) Pesticides display the RESTRICTED USE PESTICIDE (RUP) statement on For retail sale to and use only by Certified Applicators or the pesticide container similar to the statement shown here. RUPs require an persons under their direct supervision and only for those RUP statement enclosed in a box, at the top of the front panel of the label. uses covered by the Certified Applicator's certification. Some product labels require a Certified Applicator be “physically present” at the use site. B CALIFORNIA RESTRICTED MATERIALS This section is written in a quick reference format; refer to Title 3, California Code of Regulations (3 CCR) section 6400 for complete text. Acrolein, labeled for use as an aquatic Chlorpyrifos, labeled for the Metam sodium, labeled for the Potassium n-methyldithiocarbamate herbicide production of an agricultural production of agricultural plant (metam-potassium), labeled for the Aldicarb – unregistered commodity commodities production of agricultural plant All dust (except products containing Dazomet, labeled for the production Methamidophos – unregistered commodities only exempt pesticides)** of agricultural plant commodities Methidathion Propanil (3,4-dichloropropionanilide) Aluminum phosphide Dicamba* Methomyl†† Sodium cyanide Any pesticide containing active 2,4-dichlorophenoxyacetic acid Methyl bromide Sodium