Difethialone* - Generation

Total Page:16

File Type:pdf, Size:1020Kb

Difethialone* - Generation 2700 Geary Boulevard/San Francisco, CA 94118 – (415) 922-1666 PESTICIDE DISCLOSURE NOTICE Crane Pest Control has dedicated itself to providing pest control protection with the maximum degree of safety to the public and the environment. We were early subscribers to the concept of integrated urban pest management, seeking pest control methods which do not rely primarily upon the use of pesticides to achieve an acceptable level of protection from pests. However, insecticides, rodenticides, and other agents are still a component of most pest control programs. We recommend that you carefully read the following information now required by law. “State law requires that you be given the following information: CAUTION – PESTICIDES ARE TOXIC CHEMICALS. Structural Pest Control Companies are registered and regulated by the Structural Pest Control Board and apply pesticides which are registered and approved for use by the California Department of Pesticide Regulation and United States Environmental Protection Agency. Registration is granted when the state finds that based on existing scientific evidence there are no appreciable risks if proper use conditions are followed or that the risks are outweighed by the benefits. The degree of risk depends upon the degree of exposure, so exposure should be minimized.” “If within 24 hours following application you experience symptoms similar to common seasonal illness comparable to the flu, contact your physician or poison control center (800-523-2222) and your pest control company immediately.” “For further information, contact any of the following: Crane Pest Control (415-922-1666) or appropriate agency listed on the reverse side. The pesticides utilized on your property are specifically listed on a receipt form left after each application. For your information, they come from the following list: (Active ingredients are underlined, and common insecticide names follow.) Service is performed after an inspection and as necessary. Refer to service contract for covered pests. INSECTICIDES: Abamectin B1 – Avert Dry Flowable/Advance/Avert Roach Gel Bait. Acephate - Orthene. Bifenthrin – Talstar G/Talstar One. Boric Acid – Borid/MRF 2000/Perma Dust. Cyfluthrin – Cy- Kick/Tempo D/Tempo Ultra SC/Tempo Ultra WP. Cypermethrin – Demon WP. Deltamethrin – Delta Dust/Deltagard G/Suspend SC/Intruder HPX 20. Fipronil – Maxforce FC/Maxforce Ant Killer Bait Gel/Termidor/Maxforce FC Select. Hydramethylon – Maxforce/Maxforce G/Siege Gel. Hydroprene – Gentrol/Gentrol Point Source/Gentrol Aerosol. Lambda-Dyhalothrin – Demand CS. Methomyl,(Z)-9- Tricosene – Golden Malrin. Methoprene – Precor/Pharorid. Methoprene, Permethrin – Precor 2000. Orthoboric Acid – Niban G/Drax/Drax PF/Advance Liquid Ant Bait/NutraBait. Propoxur – Baygon 2% Bait/250 Propoxur. Pyrethrins, Silicon Dioxide – Diatect. Pyrethrins, Piperonyl Butoxide – Kicker/ExciteR. Pyrethrins, Piperonyl Butoxide (Technical) – P.I. Pyrethrins, Piperonyl Butoxide (Technical), Amorphous Silica Gel, Petroleum Distillate – Drione/Tri Die. Pyrethrins, Piperonyl Butoxide (Technical), N-Octyl Bicycloheptene Dicarboximide – Microcare/Clear Zone. Pyrethrins, Piperonyl Butoxide, N-Octyl Bicycloheptene Dicarboximide, Petroleum Distillate – Purge III/ULD BP100/ULD BP 300. Sodium Tetraborate, Decahydrate – Terro Ant Killer II. Sulfluramid – Advance Dual Choice Ant Bait. 3- Phenoxybenzyl D-CIS and Trans 2, 2-Dimetyl-3 (2-Methyl Propenyl) Cyclopropanecarboxylate, Isopropyl Alcohol, Didecyl Dimethyl Ammonium Chloride, Dimethyl Benzyl Ammonium Chloride – Steri-Fab. Pyrethrins, Cyfluthrin, Technical Piperonyl Butoxide – Pro Control Plus. Diazinon – Knox-Out/TKO. Imidacloprid – Pre-Empt/Maxforce Fly Bait. Iron Phosphate – Sluggo. d-Trans Allethrin, Phenothrin – Wasp Freeze. Borax – Advance 388B. d-Limonene – Orange Guard. Chlorfenapyr – Phantom. ________________________________________________________________ RODENTICIDES: Bromadiolone* - Contrac/Maki. AVICIDES: 4-Amino-Pyridine – Avitrol. Chlorphacinone-Liphadione – Rozol/Gopher Getter Type I. LARVICIDES: Methoprene – Pre-Strike. Diphacinone* - Answer Gopher Bait. Cholcalciferol – Quintox. Bacillus Thuringiensis Berliner – Mosquito Difethialone* - Generation. Zinc Phosphide – Z.P. Tracking Dunks. Powder/Rodent Bait AG. Strychnine – Gopher Getter II. FUMIGANT: Aluminum Phosphide - Warfarin – Mole Gel. Fumitoxin. (* = Anticoagulant rodenticides) Continued on reverse side. 3/04 Form N3916 For regulatory information: Structural Pest Control Board (1-800-PEST-188; 1418 Howe Avenue, Suite 18, Sacramento, CA 95825-3204) For health questions: CALIFORNIA COUNTY HEALTH DEPARTMENTS Alameda County (510) 267-8000 Nevada County (530) 582-7884 Amador County (209) 223-6439 Placer County (530) 889-4000 Berkeley (510) 981-5100 Plumas/Sierra County (530) 283-6337 Butte County (530) 538-7581 Sacramento County (916) 875-8440 Colusa County (530) 458-0380 San Benito County (831) 637-5367 Contra Costa County (925) 646-5225 San Francisco County (415) 554-2770 El Dorado County (530) 621-5300 San Joaquin County (209) 468-3420 Fresno County (559) 445-3357 San Mateo County (650) 363-4305 Lassen County (530) 251-8333 Santa Clara County (408) 918-3400 Marin County (415) 499-3696 Santa Cruz County (831) 454-2022 Merced County (209) 381-1100 Solano County (707) 421-6765 Monterey County (831) 755-4505 Sonoma County (707) 565-4700 Napa County (707) 253-4471 Sutter County (530) 822-7327 Yolo County (530) 666-8646 For application information: CALIFORNIA COUNTY AGRICULTURAL COMMISSIONERS Alameda County (510) 670-5232 Plumas/Sierra County (530) 283-6365 Amador County (209) 223-6487 Sacramento County (916) 875-6603 Butte County (530) 538-7381 San Benito County (831) 637-5344 Calaveras County (209) 754-6504 San Francisco County (415) 285-5010 Colusa County (530) 458-0580 San Joaquin County (209) 468-3300 Contra Costa County (925) 646-5250 San Luis Obispo County (805) 781-5910 El Dorado County (530) 621-5520 San Mateo County (650) 363-4700 Fresno County (559) 456-7510 Santa Clara County (408) 918-4600 Kings County (559) 582-3211 Santa Cruz County (831) 763-8080 Lake County (707) 263-0217 Shasta County (530) 224-4949 Lassen County (530) 251-8110 Solano County (707) 421-7465 Marin County (415) 499-6700 Sonoma County (707) 565-2371 Mendocino County (707) 463-4208 Stanislaus County (209) 525-4730 Merced County (209) 385-7431 Sutter County (530) 822-7500 Monterey County (831) 759-7325 Tulare County (559) 685-3323 Napa County (707) 253-4357 Yolo County (530) 666-8140 Nevada County (530) 273-2648 Yuba County (530) 741-6484 Placer County (530) 889-7372 Rev. 03/04 ** SEE REVERSE SIDE FOR ADDITIONAL INFORMATION **.
Recommended publications
  • First Evidence of Anticoagulant Rodenticides in Fish in German
    Environmental Science and Pollution Research https://doi.org/10.1007/s11356-018-1385-8 ADVANCEMENTS IN CHEMICAL METHODS FOR ENVIRONMENTAL RESEARCH First evidence of anticoagulant rodenticides in fish and suspended particulate matter: spatial and temporal distribution in German freshwater aquatic systems Matthias Kotthoff1 & Heinz Rüdel2 & Heinrich Jürling1 & Kevin Severin1 & Stephan Hennecke1 & Anton Friesen3 & Jan Koschorreck3 Received: 27 September 2017 /Accepted: 24 January 2018 # The Author(s) 2018. This article is an open access publication Abstract Anticoagulant rodenticides (ARs) have been used for decades for rodent control worldwide. Research on the exposure of the environment and accumulation of these active substances in biota has been focused on terrestrial food webs, but few data are available on the impact of ARs on aquatic systems and water organisms. To fill this gap, we analyzed liver samples of bream (Abramis brama) and co-located suspended particulate matter (SPM) from the German Environmental Specimen Bank (ESB). An appropriate method was developed for the determination of eight different ARs, including first- and second-generation ARs, in fish liver and SPM. Applying this method to bream liver samples from 17 and 18 sampling locations of the years 2011 and 2015, respectively, five ARs were found at levels above limits of quantifications (LOQs, 0.2 to 2 μgkg−1). For 2015, brodifacoum was detected in 88% of the samples with a maximum concentration of 12.5 μgkg−1. Moreover, difenacoum, bromadiolone, difethialone, and flocoumafen were detected in some samples above LOQ. In contrast, no first generation AR was detected in the ESB samples. In SPM, only bromadiolone could be detected in 56% of the samples at levels up to 9.24 μgkg−1.A temporal trend analysis of bream liver from two sampling locations over a period of up to 23 years revealed a significant trend for brodifacoum at one of the sampling locations.
    [Show full text]
  • Pharmacokinetics of Anticoagulant Rodenticides in Target and Non-Target Organisms Katherine Horak U.S
    University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln USDA National Wildlife Research Center - Staff U.S. Department of Agriculture: Animal and Plant Publications Health Inspection Service 2018 Pharmacokinetics of Anticoagulant Rodenticides in Target and Non-target Organisms Katherine Horak U.S. Department of Agriculture, katherine.e.horak@aphis.usda.gov Penny M. Fisher Landcare Research Brian M. Hopkins Landcare Research Follow this and additional works at: https://digitalcommons.unl.edu/icwdm_usdanwrc Part of the Life Sciences Commons Horak, Katherine; Fisher, Penny M.; and Hopkins, Brian M., "Pharmacokinetics of Anticoagulant Rodenticides in Target and Non- target Organisms" (2018). USDA National Wildlife Research Center - Staff Publications. 2091. https://digitalcommons.unl.edu/icwdm_usdanwrc/2091 This Article is brought to you for free and open access by the U.S. Department of Agriculture: Animal and Plant Health Inspection Service at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in USDA National Wildlife Research Center - Staff ubP lications by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. Chapter 4 Pharmacokinetics of Anticoagulant Rodenticides in Target and Non-target Organisms Katherine E. Horak, Penny M. Fisher, and Brian Hopkins 1 Introduction The concentration of a compound at the site of action is a determinant of its toxicity. This principle is affected by a variety of factors including the chemical properties of the compound (pKa, lipophilicity, molecular size), receptor binding affinity, route of exposure, and physiological properties of the organism. Many compounds have to undergo chemical changes, biotransformation, into more toxic or less toxic forms. Because of all of these variables, predicting toxic effects and performing risk assess- ments of compounds based solely on dose are less accurate than those that include data on absorption, distribution, metabolism (biotransformation), and excretion of the compound.
    [Show full text]
  • RRAC Guidelines on Anticoagulant Rodenticide Resistance Management Editor: Rodenticide Resistance Action Committee (RRAC) of Croplife International Aim
    RRAC guidelines on Anticoagulant Rodenticide Resistance Management Editor: Rodenticide Resistance Action Committee (RRAC) of CropLife International Aim This document provides guidance to advisors, national authorities, professionals, practitioners and others on the nature of anticoagulant resistance in rodents, the identification of anticoagulant resistance, strategies for rodenticide application that will avoid the development of resistance and the management of resistance where it occurs. The Rodenticide Resistance Action Committee (RRAC) is a working group within the framework of CropLife International. Participating companies include: Bayer CropScience, BASF, LiphaTech S. A., PelGar, Rentokil Initial, Syngenta and Zapi. Senior technical specialists, with specific expertise in rodenticides, represent their companies on this committee. The RRAC is grateful to the following co-authors: Stefan Endepols, Alan Buckle, Charlie Eason, Hans-Joachim Pelz, Adrian Meyer, Philippe Berny, Kristof Baert and Colin Prescott. Photos provided by Stefan Endepols. Contents 1. Introduction ............................................................................................................................................................................................................. 2 2. Classification and history of rodenticide compounds ..............................................................................................3 3. Mode of action of anticoagulant rodenticides, resistance mechanisms, and resistance mutations ......................................................................................................6
    [Show full text]
  • Justification for the Renewal of the Approvals for the Anticoagulant
    Justification for the renewal of the approvals for the anticoagulant rodenticides brodifacoum, bromadiolone, chlorophacinone, coumatetralyl, difenacoum, difethialone, flocoumafen and warfarin Rodent control is essential, and in many cases a legal requirement, to prevent disease transmission, consumption and contamination of food and feedingstuffs, structural damage and to remove social abhorrence. Currently, the anticoagulant rodenticides (also referred to as AVKs) are the dominant and most effective substances for rodent control. Therefore, the current AVK active substances approved for PT 14 will continue to be essential for efficient and effective rodent control in order to maintain good public hygiene and protect public health. The original evaluations for first approval at EU level recognised the need of the AVKs. The corresponding Assessment Reports for the AVKs acknowledged this when they concluded that: According to the Annex I inclusion criteria referred to in Article 10 of the Directive and TNsG on Annex I inclusion, AVKs should not be included in Annex I. However, in the decision making also benefits of using the active substance in the biocidal products have to be considered (Paragraph 96 in Annex VI of the Directive). It is concluded that AVKs are needed as rodenticides for human hygiene and public health reasons. In this exceptional case the benefit should take precedence over the risks and AVKs should be included in Annex I. [The text above is a generalised extract based on the conclusions of the Assessment Reports of the AVKs] All of the AVKs meet one of the exclusion criteria under Article 5(1) of the Biocidal Products Regulation (BPR), which prohibits their approval unless one or more of the derogations provided for in Article 5(2) are met.
    [Show full text]
  • Prohibited and Restricted Pesticides List Fair Trade USA® Agricultural Production Standard Version 1.1.0
    Version 1.1.0 Prohibited and Restricted Pesticides List Fair Trade USA® Agricultural Production Standard Version 1.1.0 Introduction Through the implementation of our standards, Fair Trade USA aims to promote sustainable livelihoods and safe working conditions, protection of the environment, and strong, transparent supply chains.. Our standards work to limit negative impacts on communities and the environment. All pesticides can be potentially hazardous to human health and the environment, both on the farm and in the community. They can negatively affect the long-term sustainability of agricultural livelihoods. The Fair Trade USA Agricultural Production Standard (APS) seeks to minimize these risks from pesticides by restricting the use of highly hazardous pesticides and enhancing the implementation of risk mitigation practices for lower risk pesticides. This approach allows greater flexibility for producers, while balancing controls on impacts to human and environmental health. This document lists the pesticides that are prohibited or restricted in the production of Fair Trade CertifiedTM products, as required in Objective 4.4.2 of the APS. It also includes additional rules for the use of restricted pesticides. Purpose The purpose of this document is to outline the rules which prohibit or restrict the use of hazardous pesticides in the production of Fair Trade Certified agricultural products. Scope • The Prohibited and Restricted Pesticides List (PRPL) applies to all crops certified against the Fair Trade USA Agricultural Production Standard (APS). • Restrictions outlined in this list apply to active ingredients in any pesticide used by parties included in the scope of the Certificate while handling Fair Trade Certified products.
    [Show full text]
  • Recommended Classification of Pesticides by Hazard and Guidelines to Classification 2019 Theinternational Programme on Chemical Safety (IPCS) Was Established in 1980
    The WHO Recommended Classi cation of Pesticides by Hazard and Guidelines to Classi cation 2019 cation Hazard of Pesticides by and Guidelines to Classi The WHO Recommended Classi The WHO Recommended Classi cation of Pesticides by Hazard and Guidelines to Classi cation 2019 The WHO Recommended Classification of Pesticides by Hazard and Guidelines to Classification 2019 TheInternational Programme on Chemical Safety (IPCS) was established in 1980. The overall objectives of the IPCS are to establish the scientific basis for assessment of the risk to human health and the environment from exposure to chemicals, through international peer review processes, as a prerequisite for the promotion of chemical safety, and to provide technical assistance in strengthening national capacities for the sound management of chemicals. This publication was developed in the IOMC context. The contents do not necessarily reflect the views or stated policies of individual IOMC Participating Organizations. The Inter-Organization Programme for the Sound Management of Chemicals (IOMC) was established in 1995 following recommendations made by the 1992 UN Conference on Environment and Development to strengthen cooperation and increase international coordination in the field of chemical safety. The Participating Organizations are: FAO, ILO, UNDP, UNEP, UNIDO, UNITAR, WHO, World Bank and OECD. The purpose of the IOMC is to promote coordination of the policies and activities pursued by the Participating Organizations, jointly or separately, to achieve the sound management of chemicals in relation to human health and the environment. WHO recommended classification of pesticides by hazard and guidelines to classification, 2019 edition ISBN 978-92-4-000566-2 (electronic version) ISBN 978-92-4-000567-9 (print version) ISSN 1684-1042 © World Health Organization 2020 Some rights reserved.
    [Show full text]
  • Safety Data Sheets Canadian Products Pest Management Division SDS Safetyfirststrike Data® • Resolv Sheets® ® ® Canadiangeneration • Bluemax Productstm • Maki
    Safety Data Sheets Canadian Products Pest Management Division SDS SafetyFirstStrike Data® • Resolv Sheets® ® ® CanadianGeneration • BlueMax ProductsTM • Maki Pest Management Division Table of Contents Click on the icon to return to this page. FirstStrike® Soft Bait Resolv® Soft Bait Generation® Mini Blocks Generation® Pellets Generation® Rodenticide Pellets Mini Place Packs Generation® BlueMax Rodenticide Mini Blocks Maki® Mini Blocks with Bitrex® ® Maki Bulk Rodenticide Pellets For the most up-to-date SDS information on these products, visit http://www.liphatech.com/pest_management/canadian-products From there, you can sign up for RSS feeds which will automatically notify you when Safety Data Sheets get updated. Revised 6/2015 Lit. # 2051 Individual protection measures: Wear wear long-sleeved shirt and long pants, shoes plus socks when handling this product. Wear chemical-resistant SAFETY DATA SHEET gloves when handling product and disposing of dead rodents, unconsumed Section 1: Identification bait and empty containers. Avoid contact with eyes, skin or clothing. Wash hands before eating, drinking, chewing gum, using tobacco or using the toilet. Product identifier: FirstStrike® Soft Bait Wash skin thoroughly with soap and water after handling. Wash contaminated Other identifier(s): Registration No. 29503 Pest Control Products Act clothing, separately from other laundry, with soap and hot water before reuse. Uses or restrictions: Only to be used by certified pest control operators, farmers and persons authorized in government- Section
    [Show full text]
  • Special Edition Poison Control 07 Spring.Indd
    WILDLIFE CARE OF VENTURA COUNTY RESCUE ~ REHABILITATION ~ RELEASE OF INJURED AND ORPHANED WILD ANIMALS www.wildlifecareofventura.org P.O. Box 941476 Simi Valley, CA 93065 Hotline 805-498-2794 SPECIAL EDITION Bobcat (2005) POISON CONTROL Hit by a car also had mange, Admitted - from Disease Epidemic in Local Bobcats Northridge. Could Be Linked to Secondary Poisoning Diet: Rodents For the past ten years the Santa Monica Mountains National Park Service has been studying carnivores in and around the Santa Monica Mountains and the Rodents Thousand Oaks area suburbs. We have studied mountain lions, bobcats, and coyotes Rodents using radio telemetry collars, remote cameras, and scat (animal feces) surveys. Dur- Rabbit, birds + ing this time we have tagged 176 bobcats, 128 coyotes, and 8 mountain lions. The smaller animals goal of these studies is to look at the affects of urbanization and habitat fragmentation on the distribution and abundance of these species. Urbanization can impose many new obstacles and challenges on wildlife, especially for animals with large food and space requirements such as mammalian carnivores. Specifi cally we have looked at issues such as habitat loss, movement barriers and sources of mortality. We have found that bobcats are present in many of the remaining habitat frag- ments throughout Thousand Oaks and the surrounding communities, and prior to 2002 they had relatively high survival rates in these areas. However in the spring of 2002 we witnessed the start of a disease epidemic in bobcats and their numbers decreased dramatically in the following months. Animals were dying with severe mange infections, a disease caused by microscopic mites in the skin.
    [Show full text]
  • Final Report Part 1
    National Wildlife Research Center Wildlife Services Animal and Plant Health Inspection Service United States Department of Agriculture Title: Efficacy of rodenticide baits for the control of black rats, Polynesian rats, and mice. Study Director: William C. Pitt, Supervisory Research Wildlife Biologist, Hilo, HI Sponsor: Hawaii Invasive Species Council 1151 Punchbowl Street, Room 325 Honolulu, HI 96813 Testing Facility: USDA/APHIS/WS National Wildlife Research Center Hawaii Field Station PO Box 10880 Hilo, HI 96721 Executive Summary: 1. We tested the efficacy and palatability of 9 commercial rodenticide formulations on 165 Polynesian rats (Rattus exulans), 160 black rats (R. rattus), and 130 house mice (Mus musculus). 2. Efficacy varied by rodenticide tested and rodent species of interest. On average, rodenticides were more effective against mice than either of the rat species and mice tended to eat more rodenticide bait than laboratory chow. 3. Efficacy was highest for the second generation anticoagulants tested (Havoc® (brodifacoum), Maki® (bromadiolone), and Generation® (difethialone)). However, this varied across products and a first generation rodenticide, Rozol® (chlorophacinone), had similar effectiveness to the second generation anticoagulants. 4. Palatability varied by rodenticide tested and rodent species of interest. Palatability was the lowest for the acute rodenticides. 5. Palatability affected the efficacy of rodenticides. Rodenticides that were not preferred by rodents had lower mortality rates. Rodenticides that were preferred had high mortality rates. 6. Rodenticide products currently registered for use in Hawaii were not as effective as other products on rodents found in Hawaii. Although some of the other products have higher toxicity, some products were highly effective and are considered similar in toxicity to products currently registered.
    [Show full text]
  • Crru Uk Code of Best Practice
    CRRU UK CODE OF BEST PRACTICE Best Practice and Guidance for Rodent Control and the Safe Use of Rodenticides Date Issued – March 2015 This Code of Best Practice is available for download from the CRRU website: www.thinkwildlife.org.uk Printed copies of the Code may be obtained from: http://www.thinkwildlife.org/about-crru/contact-us/ CRRU UK gratefully acknowledges the advice provided by the SGAR Government Oversight Group and the following organisations in the development of this document: Barn Owl Trust Barn Owl Conservation Network British Association for Shooting and Conservation British Pest Control Association Game and Wildlife Conservation Trust National Gamekeepers’ Organisation Natural England National Pest Advisory Panel (CIEH) National Pest Technicians Association Rodenticide Resistance Action Group Royal Society for the Protection of Birds Science and Advice for Scottish Agriculture Scottish Gamekeepers’ Association University of Reading Campaign for Responsible Rodenticide Use UK Registered Office: Crown House 85-89 St George’s Road Leeds West Yorkshire LS1 3BR © Copyright 2015 The text in this document (excluding the CRRU logo) may be reproduced free of charge in any format or medium provided that it is reproduced accurately and not used in a misleading context. The material must be acknowledged as CRRU UK copyright and the title of the document specified. Any enquiries related to the copyright in this document should be addressed to: CRRU UK c/o Killgerm Chemicals Ltd PO Box 2 Ossett WF5 9NA Published by CRRU UK. Printed in the UK. March 2015. CRRU would like to thank Killgerm Group for assistance in producing this booklet.
    [Show full text]
  • January 27, 2010 Sent Via Fed Ex and Email Lisa Jackson, Administrator United States Environmental Protection Agency Ariel Rios
    January 27, 2010 Sent via Fed Ex and Email Lisa Jackson, Administrator Sam Hamilton, Director United States Environmental Protection Agency United States Fish and Wildlife Service Ariel Rios Building 1849 C Street, NW 1200 Pennsylvania Avenue, NW Washington, DC 20240 Mail Code: 1101A sam_hamilton@fws.gov Washington, DC 20460 jackson.lisap@epa.gov Dr. James W. Balsiger Acting Assistant Administrator for Fisheries Ken Salazar National Oceanographic and Atmospheric Secretary of the Interior Administration 1849 C Street, NW 1315 East-West Highway Washington, DC 20240 Silver Spring, MD 20910 exsec@ios.doi.gov Jim.Balsiger@noaa.gov Gary Locke Secretary of Commerce U.S. Department of Commerce 1401 Constitution Avenue, N.W., Room 5516 Washington, D.C. 20230 TheSec@doc.gov Re: Notice of Violations of the Endangered Species Act Related to the Registration of Pesticides On behalf of the Center for Biological Diversity, I hereby provide notice, pursuant to section 11(g) of the Endangered Species Act (“ESA”), 16 U.S.C. §1540(g)(2)(A)(i), that the Environmental Protection Agency (“EPA”) is in violation of the ESA, 16 U.S.C. § 1521, et seq. Specifically, EPA has failed to satisfy its ESA Section 7 consultation requirements that apply to pesticide registrations and reregistrations. Attached to this Notice of Intent to Sue (“NOI”), as Exhibit A, are charts identifying threatened and endangered species and the registered pesticides whose concentrations in the environment may exceed Levels of Concern (“LOCs”) to those species and/or that are “highly” to “very highly” toxic to those species. The pesticides included in Chart 1 may exceed LOCs for mammals and/or are “highly” to “very highly” toxic to mammals and therefore “may affect” the endangered and threatened mammalian species listed in Chart 1.
    [Show full text]
  • Pesticides Definition
    Pesticides Definition • Pesticides are chemical compounds that are used to kill pests, including insects, rodents, fungi and unwanted plants (weeds). • Pesticides are used in public health to kill vectors of disease, such as mosquitoes, and in agriculture, to kill pests that damage crops. • By their nature, pesticides are potentially toxic to other organisms, including humans, and need to be used safely and disposed of properly. History • Since the prehistoric period, mankind has fought against the pests that cause damage to themselves, animals and plants and play a role in transporting epidemic diseases. • In the early 1940s, many organic compounds with arsenic, sulfur, copper, mercury, fluoride and calcium were used to combat these pests. • After these years, the period of synthetic and contemporary pesticides began and in 1942 DDT and similar organic chlorinated compounds were used, and after the 2nd World War, organic phosphorus compounds were used as herbicides and insecticides. History • Since the 1970s, 30,000 kinds of new compounds have been produced for use as pesticides, and 10,000 of these are used for the same purpose in developed countries. • From the 1970s onwards, the toxic damages of these pesticide species have been understood for humans and compounds such as carbamate group compounds, pyrethroids, which are less harmful examples of pesticides, have been used. • It is not known how pesticides, which have a very important place in the war against pests, will cause problems in the future despite their more effective and targeted use. Use Of Pesticides – Types Of Product Pesticides used in different settings: - Agricultural - Veterinary - Domestic - Institutional Formulations: liquid, gel, paste, chalk, powder, granules, pellets, baits..
    [Show full text]