US EPA, Pesticide Product Label, DCEPT CLM PLUS,01/06/2015

Total Page:16

File Type:pdf, Size:1020Kb

US EPA, Pesticide Product Label, DCEPT CLM PLUS,01/06/2015 U.S. ENVIRONMENTAL PROTECTION AGENCY EPA Reg. Number: Date of Issuance: Office of Pesticide Programs Biopesticides and Pollution Prevention Division (751 IP) 80286-23 1/6/2016 1200 Pennsylvania Ave., N.W. (A) Washington, D.C. 20460 NOTICE OF PESTICIDE: Term of Issuance: X Registration ___Reregistration Unconditional (under FIFRA, as amended) Name of Pesticide Product: Dcept CLM Plus Name and Address of Registrant (include ZIP Code): ISCA Technologies, Inc. 1230 Spring Street Riverside, CA 92507 Note: Changes in labeling differing in substance from that accepted in connection with this registration must be submitted to and accepted by the Biopesticides and Pollution Prevention Division prior to use of the label in commerce. In any correspondence on this product, always refer to the above EPA Registration Number. On the basis of information furnished by the registrant, the above named pesticide is hereby registered under the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA or the Act). Registration is in no way to be construed as an endorsement or recommendation of this product by the U.S. Environmental Protection Agency (EPA). In order to protect health and the environment, the Administrator, on his or her motion, may at any time suspend or cancel the registration of a pesticide in accordance with the Act. The acceptance of any name in connection with the registration of a product under the Act is not to be construed as giving the registrant a right to exclusive use of the name or to its use if it has been covered by others. This product is unconditionally registered in accordance with FIFRA section 3(c)(5) provided that you: 1. Submit and/or cite all data required for registration or registration review of your product when the EPA requires all registrants of similar products to submit such data. 2. Submit storage stability and corrosion characteristics (Guidelines 830.6317 and 830.6320) data as these data requirements are not satisfied. A one-year study is required to satisfy these data requirements. You have 18 months from the date of this registration to provide these data to the EPA. Signature of Approving Official: Date: 1/6/2016 Andrew Bryceland, Team Leader Biochemical Pesticides Branch Biopesticides and Pollution Prevention Division (751 IP) Office of Pesticide Programs EPA Form 8570-6 Page 2 of 2 EPA Reg. No. 80286-23 OPP Decision No. 507788 3. Make the following labeling change before yon release this product for shipment: • Revise the EPA Registration Number to read, “EPA Reg. No. 80286-23.” 4. Submit one (1) copy of the final printed labeling for the record before you release this product for shipment. Should you wish to add/retain a reference to your company’s website on your label, then please be aware that the website becomes labeling under FIFRA and is subject to review by the EPA. If the website is false or misleading, the product will be considered to be misbranded and sale or distribution of the product is unlawful under FIFRA section 12(a)(1)(E). 40 CFR § 156.10(a)(5) lists examples of statements the EPA may consider false or misleading. In addition, regardless of whether a website is referenced on your product’s label, claims made on the website may not substantially differ from those claims approved through the registration process. Therefore, should the EPA find or if it is brought to our attention that a website contains false or misleading statements or claims substantially differing from the EPA-approved registration, the website will be referred to the EPA’s Office of Enforcement and Compliance Assurance. Your release for shipment of this product constitutes acceptance of these terms. If these terms are not complied with, this registration will be subject to cancellation in accordance with FIFRA section 6. A stamped copy of the labeling is enclosed for your records. Please also note that the record for this product currently contains the following acceptable Confidential Statement of Formula (CSF): • Basic CSF dated 12/17/2015 Any CSFs other than those listed above are superseded. If you have any questions, please contact Ms. Cheryl Greene of my team by phone at (703) 308-0352 or via email at [email protected]. Sincerely, Andrew Bryceland, Team Leader Biochemical Pesticides Branch Biopesticides and Pollution Prevention Division (7511P) Office of Pesticide Programs Enclosure Dcept CLM™ MASTER Label EPA Reg. No. 80286-21 SUB-LABEL #1: For Commercial Use SUB_LABEL#2: For Residential Use ACCEPTED 01/06/2016 Uri<Ser Hie Federal Insecticide. Fuiigicidy and Rodei’ikide Acl as amencted, lor tin.: iMsticide registered uivder £PA Reg. No. 80286-23 CLM Plus For Mating Disruption of Citrus Leafminer (Phyllocnistis citrella) ACTIVE INGREDIENT: Citrus Leafminer Pheromone (Z,Z,E)-7,11,13-Hexadecatrienal 1.20% OTHER INGREDIENTS: 98.80% TOTAL: 100.00% Net Contents: 1500 dispensers. ERA Reg. No. 80286-XX Batch No.: EPA Est. No. 80286-CA-004 6 mg active ingredient per dispenser KEEP OUT OF REACH OF CHILDREN CAUTION HAZARDS TO HUMANS AND DOMESTIC ANIMALS: Harmful if swallowed. Wash thoroughly with soap and water after handling and before eating, drinking, chewing gum, using tobacco or using tfie toilet. Harmful if absorbed through skin. Avoid contact with skin, eyes or clothing. Remove and wash contaminated clothing before reuse. Causes moderate eye irritation. Avoid contact with eyes or clothing.______________________________ PERSONAL PROTECTIVE EQUIPMENT (PPE): Applicators and handlers must wear long-sleeved shirts and long pants, socks, shoes and waterproof gloves. Follow the manufacturer’s instructions for cleaning and maintaining PPE. If no such instructions are available for washables, use detergent and hot water. Keep and wash PPE separately from other laundry.___________ _ __________________________________________ USER SAFETY RECOMMENDATIONS: Users should remove clothing and PPE immediately if pesticide gets inside, then wash thoroughly and put on clean clothing. Users should remove PPE immediately after handling this product. Wash the outside of gloves before removing and as soon as possible, wash thoroughly and change into clean clothing._________________________________________________________________ ENVIRONMENTAL HAZARDS: For terrestrial uses; Do not apply directly to water or to areas where surface water is present or to intertidal areas below the mean high watermark. Do not contaminate water when disposing of equipment washwater or rinsate. ISCA Technologies, Inc. 1230 Spring St., Riverside, CA, 92507 951-686-5008 [email protected] DIRECTIONS FOR USE It is a violation of Federal law to use this product in a manner inconsistent with its labeling._________ _____________ GENERAL INSTRUCTIONS______________________ MODE OF Dcept CLM uses the pheromone of the citrus leafminer {Phyllocnistis citrella) to disrupt ACTION adult moth mating, which reduces larval damage to crops. TARGET PEST & Dcept CLM is for use on all agricultural crops and non-agricultural plants and trees where SITES__________ the citrus leafminer is detected. AREA-WIDE The mating disruption strategy for pest control works best with large acreages where the CONTROL & IPM ratio of exposed borders to overall area treated is relatively small and in area-wide control programs. Monitor for pests on a regular basis so that timely intervention with another application of Dcept CLM, insecticides or other control measures is possible. Fortifying control area borders with either 20% more Dcept CLM or the periodic reapplication of CLM Plus product along exposed borders, especially around suspected moth entry points will For Mating Disruption of Citrus Leafminer (Phyllocnistis citrella) minimize the influx of mated females from surrounding areas.______________ _______ MONITORING & Monitor the target pest with pheromone-baited traps, such as the ISCAIure” Citrella For Commercial Use TIMING OF pheromone lure and ISCA delta trap monitoring system. Place monitoring traps in the ACTIVE INGREDIENT: APPLICATION treated area before applying Dcept CLM to determine the infestation level. Continue monitoring throughout the season to evaluate the efficacy and longevity of the application. Citrus Leafminer Pheromone Consult a qualified pest control advisor or ISCA Technologies to determine the proper (Z,Z,E)-7,11,13-Hexadecatrienal 1.20% timing for application. Supplementary control measures are advised if the pest population densities are above threshold levels. For best results, apply Dcept CLM as early in the OTHER INGREDIENTS:_________ 98.80% season as possible. TOTAL: FORMULATION & 100.00% PREPARATION Dcept CLM is a hand-applied dispenser that is supplied ready for immediate use. Net Contents: 1500 dispensers. EPAReg. No. 80286-XX FOR USE________ Batch No.:__________ EPA Est. No. 80286-CA-004 APPLICATION Dcept CLM is applied manually. Always consult a qualified pest control 6 mg active ingredient per dispenser METHOD________ advisor or ISCA Technologies to ensure optimum application of product is achieved. PLACEMENT Dcept CLM should be attached securely to lateral branches within the tree canopy. For KEEP OUT OF REACH OF CHILDREN best results, apply in the upper third of the canopy. Do not let Dcept CLM contact fruit. APPLICATION The application rate for Dcept CLM is 50-500 dispensers per acre. Do not exceed 150 CAUTION RATE grams active ingredient (25,000 dispensers) per acre per year. Consult a qualified pest control advisor or ISCA Technologies for the precise rate of application, as it will vary I lUNARY STATEMEN^^^^^^B^^^^B lulation and field conditions. HAZARDS TO HUMANSAND DOMESTIC ANIMALS: Harmful if swallowed. Wash thoroughly with soap and water after handling and before eating, drinking, chewing gum, using tobacco or using the toilet. Harmful if Do not contaminate water, food or feed by storage and disposal. absorbed through skin. Avoid contact with skin, eyes or clothing. Remove and wash contaminated clothing before reuse. Causes moderate eye irritation. Avoid contact with eyes or clothing.______________________________ STORAGE Store Dcept CLM in an air-tight container and keep refrigerated. If refrigeration is not available, store product in a cool dry place, out of direct sunlight.
Recommended publications
  • Forest Health Technology Enterprise Team
    Forest Health Technology Enterprise Team TECHNOLOGY TRANSFER Mating Disruption A REVIEW OF THE USE OF MATING DISRUPTION TO MANAGE GYPSY MOTH, LYMANTRIA DISPAR (L.) KEVIN THORPE, RICHARD REARDON, KSENIA TCHESLAVSKAIA, DONNA LEONARD, AND VICTOR MASTRO FHTET-2006-13 U.S. Department Forest Forest Health Technology September 2006 of Agriculture Service Enterprise Team—Morgantown he Forest Health Technology Enterprise Team (FHTET) was created in 1995 Tby the Deputy Chief for State and Private Forestry, USDA, Forest Service, to develop and deliver technologies to protect and improve the health of American forests. This book was published by FHTET as part of the technology transfer series. http://www.fs.fed.us/foresthealth/technology/ Cover photos, clockwise from top left: aircraft-mounted pod for dispensing Disrupt II flakes, tethered gypsy moth female, scanning electron micrograph of 3M MEC-GM microcapsule formulation, male gypsy moth, Disrupt II flakes, removing gypsy moth egg mass from modified delta trap mating station. Information about pesticides appears in this publication. Publication of this information does not constitute endorsement or recommendation by the U.S. Department of Agriculture, nor does it imply that all uses discussed have been registered. Use of most pesticides is regulated by State and Federal law. Applicable regulations must be obtained from appropriate regulatory agencies. CAUTION: Pesticides can be injurious to humans, domestic animals, desirable plants, and fish or other wildlife if not handled or applied properly. Use all pesticides selectively and carefully. Follow recommended practices given on the label for use and disposal of pesticides and pesticide containers. The use of trade, firm, or corporation names in this publication is for information only and does not constitute an endorsement by the U.S.
    [Show full text]
  • Combined Effects of Mating Disruption, Insecticides, and the Sterile Insect
    insects Article Combined Effects of Mating Disruption, Insecticides, and the Sterile Insect Technique on Cydia pomonella in New Zealand Rachael M. Horner 1,* , Peter L. Lo 2, David J. Rogers 2, James T. S. Walker 2 and David Maxwell Suckling 1,3 1 The New Zealand Institute for Plant and Food Research Limited, Private Bag 4704, Christchurch 8140, New Zealand; [email protected] 2 The New Zealand Institute for Plant and Food Research Limited, Havelock North 4157, New Zealand; [email protected] (P.L.L.); [email protected] (D.J.R.); [email protected] (J.T.S.W.) 3 School of Biological Sciences, University of Auckland, Auckland 1072, New Zealand * Correspondence: [email protected]; Tel.: +64-3-940-3934 Received: 21 October 2020; Accepted: 25 November 2020; Published: 27 November 2020 Simple Summary: Codling moth is a major pest of apples, and was accidentally introduced into New Zealand over 150 years ago. Many countries that New Zealand exports apples to do not have codling moth present and they want to keep it out. Therefore, apple growers must heavily control codling moth populations on their orchards. Currently, the main control tactics are insecticide applications and mating disruption, which uses the moth’s own sex pheromone to make the males unable to find females to mate. We aimed to supplement these tactics with the sterile insect technique (SIT) to further suppress the codling moth on orchards. SIT involves mass rearing and sterilizing codling moth and then releasing them onto orchards where they mate with wild insects resulting in no offspring.
    [Show full text]
  • Citrus Leafminer, Phyllocnistis Citrella Stainton (Insecta: Lepidoptera: Phyllocnistinae)1 J
    EENY038 Citrus Leafminer, Phyllocnistis citrella Stainton (Insecta: Lepidoptera: Phyllocnistinae)1 J. B. Heppner and Thomas R. Fasulo2 Introduction Homestead, Florida, other parts of Dade county, and in Broward and Collier counties. Since then, it has spread The citrus leafminer (CLM), Phyllocnistis citrella Stainton, to all Florida citrus counties. By 1994, it has spread to is a potentially serious pest of citrus and related Rutaceae, Alabama, Louisiana and Texas (Nagamine and Heu 2003). and some related ornamental plants (Beattie 1989, Clausen By 1995, the citrus leafminer was discovered in Central 1933, Kalshoven 1981). CLM was previously intercepted in America, western Mexico, and several Caribbean islands the USA in 1914 (ports not noted) on citrus and Atalantia (Jones 2001). In 2000, it arrived in southern California horticulture stock imports from the Philippines (Sasscer from Mexico (Grafton-Cardwell et al. 2009), and was first 1915). In 1993, when it was finally discovered in Florida, it detected in Hawaii on Oahu, spreading to Kauai and Maui was a new record for Florida, the continental United States, in 2001 and Molokai and Hawaii (the Big Island) in 2002 and the Western Hemisphere. (Nagamine and Heu 2003) Distribution Description A widespread Asian species (Clausen 1931, 1933, CAB Adults of the CLM are minute moths with a 4 mm 1970), described from Calcutta, India (Stainton 1856), wingspread. It has white and silvery iridescent scales on CLM is known from East Africa — Sudan to Yemen the forewings, with several black and tan markings, plus (Badawy 1967), through southern Asia — Saudi Arabia a black spot on each wingtip. The hind wings and body to India (Fletcher 1920) and Indonesia (Kalshoven 1981), are white, with long fringe scales extending from the north to Hong Kong and China, Philippines (Sasscer 1915), hindwing margins.
    [Show full text]
  • Management of Navel Orangeworm (Lepidoptera: Pyralidae) Using Four
    applyparastyle "fig//caption/p[1]" parastyle "FigCapt" Copyedited by: OUP F&R "All rights reserved. For permissions, please e-mail" (CopyrightLine) "^nAll rights reserved. For permissions, please e-mail" (CopyrightLine) Journal of Economic Entomology, XX(XX), 2021, 1–10 doi: 10.1093/jee/toaa297 Horticultural Entomology Research Management of Navel Orangeworm (Lepidoptera: Downloaded from https://academic.oup.com/jee/advance-article/doi/10.1093/jee/toaa297/6063470 by ESA Member Access user on 21 January 2021 Pyralidae) Using Four Commercial Mating Disruption Systems in California Almonds David R. Haviland,1,5, Jhalendra P. Rijal,2 Stephanie M. Rill,1 Bradley S. Higbee,3 Charles S. Burks,4, and Chelsea A. Gordon1 1University of California Cooperative Extension, Kern County, 1031 South Mount Vernon, Bakersfield, CA 93307,2 University of California Statewide Integrated Pest Management Program, 3800 Cornucopia Way #A, Modesto, CA 95358, 3Trece Inc., P.O. Box 129, Adair, OK 74330, 4USDA, Agricultural Research Service, San Joaquin Valley Agricultural Sciences Center, 9611 South Riverbend Ave, Parlier, CA 93648, and 5Corresponding author, e-mail: [email protected] Disclaimer: Mention of trade names or commercial products in this publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture. USDA is an equal opportunity provider and employer. Subject Editor: Jana Lee Received 14 July 2020; Editorial decision 25 November 2020 Abstract The navel orangeworm, Amyelois transitella (Walker), is the most significant pest of California almonds. Direct feeding on the kernel by the larvae causes reductions in salable crop, crop quality, and exportability.
    [Show full text]
  • Use of Pheromones in IPM Thomas C
    P1: aaa 9780521875950c21 cuuk358/Radcliffe ISBN: 978 0 521 87595 0 Top: 0.29637in Gutter: 0.79034in August 6, 2008 14:55 Chapter 21 Use of pheromones in IPM Thomas C. Baker During the past 68 years that have elapsed since ing crop damage after conducting experiments in the identification of the first insect pheromone which disruptant dispenser dosages and deploy- (Butenandt, 1959) there has been a bourgeoning ment densities have been varied. A mating dis- of basic and applied research that has resulted ruption system may work successfully from a bio- in an amazingly diverse and effective use of logical standpoint, but at the commercial level it pheromones in IPM. Other behavior-modifying may be too costly or not sufficiently user-friendly semiochemicals have had more limited success compared to standard practices, and the system on a commercial level, although much research is will have been judged to “fail” at this level. It is continuing to try to find new ways to make such important to distinguish between failure in the chemicals as host plant volatiles more useful in commercial arena versus biological failure of the IPM settings as attractants or deterrents. mating disruption system itself. Although pheromones have established them- selves in IPM systems, most end-users and even applied researchers do not realize how much work 21.1 Monitoring established goes into identifying and optimizing pheromone populations blends so that they become highly species-specific and optimally attractive to the target species so that they can be used to the best effect. Research The most widespread use of pheromones has to determine the most effective pheromone blend been for monitoring endemic pest species’ compositions and dispenser dosages for monitor- adult populations.
    [Show full text]
  • Suppression of Mating by Blackheaded Fireworm (Lepidoptera: Tortricidae) in Wisconsin Cranberry Marshes by Using Mstrsrmdevices1
    Suppression of Mating by Blackheaded Fireworm (Lepidoptera: Tortricidae) in Wisconsin Cranberry Marshes by Using MSTRSrMDevices1 Henry Y. Fadamiro,2 Allard A. Coss6,3 Timothy Dittl,4 and Thomas C. Baker Department of Entomology, Iowa State University, Ames, Iowa 50011 USA J Agric Entomol 15(4):377-386 (October 1998) ABSTRACT We conducted a study to optimize the deployment of our controlled pheromone release system called metered semiochemical timed release system (MSTRSTM)and to measure its impact on male blackheaded fireworm, Rhopobota naevana (Hubner) (Lepidoptera: Tortricidae) The deployment pattern and pheromone emission rate of the MSTRS devices were adjusted to give optimal mating disruption in the widely dispersed cranberry (Vaccinium macrocarpon Aiton) beds from a perimeter only pattern of deployment During the first flight, disruption of pheromone source location averaged 98, 98, and 40% in the first, second, and third grower sites, respectively During the second flight, disruption averaged 88% in the first grower site and 86% in the second and third grower sites More importantly, high levels of mating disruption were achieved, as measured by the frequency of mating by captured free-flying females About 24 and 15% fewer second-generation blackheaded fireworm females mated in the MSTRVM-treatedbeds in the first and second grower sites, respectively, compared with the check plots In the first grower site, the mean number of matings, as measured by the numbers of deposited spermatophores, per female captured during the second flight was 0 75 in the MSTRST"beds and 18in untreated beds Number of matings per female in the second grower site averaged 10 in the MSTRSTb'-treatedbeds and 148 in the untreated beds.
    [Show full text]
  • Gypsy Moth (Lymantria Dispar )
    Invasive Species Management and Control: Gypsy moth (Lymantria dispar) 1.0 INTEGRATED MANAGEMENT 2.0 PREVENTATIVE MEASURES 3.0 PREDICTION OF SPREAD 4.0 MONITORING OF IMPACT 5.0 PHYSICAL CONTROL 6.0 CHEMICAL CONTROL 7.0 BIOLOGICAL CONTROL 8.0 BREEDING RESISTANT TREES 1.0 INTEGRATED MANAGEMENT “To address the economic and environmental impacts caused by the expanding range of the gypsy moth infestation, a national strategy was developed to manage gypsy moth populations along the leading edge of the infestation. The goal of this USDA Forest Service project, known as the ‘Slow the Spread of the Gypsy Moth’ (STS) program, is to intensively monitor populations along the leading edge and apply treatments such that the rate of expansion of the infested area is reduced by 50%. These goals are achieved through the use of a sophisticated Internet-based data management system and a decision algorithm to aid in decision making (Tobin et al., 2004). The STS program was pilot tested in 1993, became fully implemented in 2000, and currently includes 10 states and nearly 40 million ha (Sharov et al., 2002a)” (Tobin et al. 2007). More information is available in the gypsy moth Slow the Spread (STS) website and factsheet. 2.0 PREVENTATIVE MEASURES Landscapes may be protected from the gypsy moth in many different ways. The forest can be altered to prevent outbreaks. High-risk forests can be harvested before outbreaks occur to prevent some economic loss. Thinning stands of medium to high quality can increase the vigor of surviving trees, reducing the risk of major outbreak.
    [Show full text]
  • Insect Mating Disruption – an Alternative Pest Management
    Insect Mating Disruption – An Alternative Pest Management Strategy for Long Island Tree Fruit Orchards Faruque Zaman1, Laurie McBride2, Shannon Moran2, and Daniel Gilrein3 1 Cornell Cooperative Extension of Suffolk Co., Riverhead, NY 11901 2 Agricultural Stewardship Program, Cornell Cooperative Extension of Suffolk Co., Riverhead, NY 11901 3 Cornell Cooperative Extension of Suffolk Co., Riverhead, NY 11901 est management is a vital part of tree fruit production on pyrethroid insecticides. Due to groundwater concerns, some Long Island, NY, where pesticides are used for the control newer pesticides are restricted from use on L.I. These issues have of various pests including oriental fruit moth (OFM) elevated interest in alternative management methods, including P and codling moth insect mating disruption (MD). The technology uses synthetically (CM). Analysis produced sex pheromone dispensers placed out in the orchard, to Due to groundwater concerns, some “ of recent (2012– release a “cloud” of pheromone that prevents males from orient- newer pesticides are restricted from 2013) pesticide ing to a particular female. Unmated females fail to reproduce; use on Long Island. These issues a p p l i c a t i o n over time, the pest population and crop damage decrease, often have elevated interest in alternative records in tree to negligible levels. management methods, including fruit orchards Used in other states and regions of NY (Joshi 2008; Agnello insect mating disruption.” r e v e a l s m o s t 2009; Breth 2010), MD had been used only minimally in L.I. i n s e c t i c i d e orchards until around 2013, when Lea Loizos, Technician with applications were the Cornell Cooperative Extension of Suffolk County Agriculture driven by these Stewardship Program, began working with growers to expand two insects.
    [Show full text]
  • Comparison of Mating Disruption and Insecticide Application for Control of Peachtree Borer and Lesser Peachtree Borer (Lepidoptera: Sesiidae) in Peach
    insects Article Comparison of Mating Disruption and Insecticide Application for Control of Peachtree Borer and Lesser Peachtree Borer (Lepidoptera: Sesiidae) in Peach Daniel L. Frank 1,2,*, Stephen Starcher 3 and Rakesh S. Chandran 2 1 Department of Entomology, College of Agriculture and Life Sciences, Virginia Tech, Blacksburg, VA 24061, USA 2 Extension Service, Agriculture and Natural Resources Unit, West Virginia University, Morgantown, WV 26506, USA; [email protected] 3 Division of Applied Sciences, Potomac State College, Keyser, WV 26726, USA; [email protected] * Correspondence: [email protected]; Tel.: +1-540-231-6543 Received: 24 August 2020; Accepted: 23 September 2020; Published: 25 September 2020 Simple Summary: The peachtree borer and lesser peachtree borer are destructive insect pests of peach and other stone fruit. Damage is caused by larval feeding on the vascular cambium, which reduces tree health and vigor and can lead to tree death. The traditional method to control these pests is with directed trunk sprays of the organophosphate insecticide, chlorpyrifos. However, the ongoing review of pesticide tolerances mandated by the United States Environmental Protection Agency (US-EPA) makes the option of future long-term use of chlorpyrifos uncertain. Mating disruption is an alternative method of control that uses synthetic sex pheromones to disrupt male mate-finding behavior and prevent mating. We conducted field studies to compare the efficacy of mating disruption and application of chlorpyrifos insecticide for control of this pest complex. Although our data indicated that mating disruption can provide growers with an effective non-chemical alternative to chlorpyrifos trunk sprays, several variables may affect its long-term success in West Virginia peach orchards; most notably the presence of high population densities of the pest species, problems with maintaining adequate pheromone coverage in orchards, and the need for area-wide implementation.
    [Show full text]
  • Integrated Pest Management the PAMS Approach
    Integrated Pest Management The PAMS Approach Specific Integrated Pest Management (IPM) tactics suppression activities. are selected to match crop/pest/environment scenarios. Records should be kept Each site should have in place a management of pest incidence and strategy for Prevention, Avoidance, Monitoring and distribution for each Suppression (PAMS) of pest populations. field or site to help plan The Natural Resources Conservation Service crop rotation selection (NRCS) uses PAMS as core strategies in the 595 and other suppressive Integrated Pest Management Practice standard. Growers actions. enrolled in the Environmental Quality Incentives Program (EQIP) for pest management are required to Avoidance have a site-specific IPM plan. The IPM plan uses these Avoidance may be PAMS strategies to identify a specific course of action practiced when pest to control pests in the cropping system. populations exist in a field or site but the Prevention impact of the pest on Prevention is the practice of keeping a pest the crop can be avoided population from infesting a field or site and should through cultural be the first line of defense. It includes tactics such practices. Avoidance as: using pest-free seeds and transplants; preventing tactics include: crop weeds from rotation such that the reproducing; crop of choice is not irrigation a host for the pest; Suction traps monitor scheduling to choosing cultivars with soybean aphids as they avoid situations genetic resistance to migrate between alternate conducive pests; using trap crops hosts and soybean plants. to disease or pheromone traps; development; choosing cultivars with maturity dates that may allow cleaning tillage harvest before pest populations develop; fertilization and harvesting programs to promote rapid crop development; or not equipment Abandoned orchards often harbor planting certain areas of fields where pest populations pests that can be difficult to control.
    [Show full text]
  • Mating Disruption: What Is It and How Does It Work?
    1 MATING DISRUPTION: WHAT IS IT AND HOW DOES IT WORK? Sheila Fitzpatrick Pacific Agri-Food Research Centre Agriculture & Agri-Food Canada 6947 # 7 Hwy, P.O. Box 1000, Agassiz British Columbia, Canada VOM 1AO Introduction Mating disruption is an insect management technique that prevents male insects from finding females. The technique is constructed from the following “building blocks”: an understanding of communication and attraction between male and female insects; identification and synthesis of the sex attractant odor, called a pheromone, normally produced by female insects; and a way of releasing synthetic pheromone into the environment in quantities sufficient to prevent male insects from locating sexually receptive females. I will first explain the pheromone-based mate-location behavior that is interrupted by mating disruption. I will then go on to explain how synthetic pheromone is released into an area, and how the pheromone interferes with mate location. From there, I’ll describe the implementation of mating disruption for control of the blackheaded fireworm in cranberries, and show some of the data from field tests. I hope to leave you with an understanding of this technique, and also to emphasize that this is “knowledge-based” technology. Finding a Mate: How Pheromones are Used by Moth Pests When a female moth emerges from her pupal case, she has two or three predetermined missions. The first is to crawl away from the pupal case, climb onto something vertical, expand her wings and allow her soft body parts to harden. During this period of several hours, she is unable to fly and therefore quite vulnerable to predators.
    [Show full text]
  • Relationship Between Efficacy of Mating Disruption and Gypsy Moth
    INTERNATIONAL JOURNAL OF PEST MANAGEMENT, 2018 https://doi.org/10.1080/09670874.2018.1455116 Relationship between efficacy of mating disruption and gypsy moth density Ksenia S. Onufrievaa, Andrea D. Hickmana, Donna S. Leonardb and Patrick C. Tobinc aDepartment of Entomology, Virginia Tech, Blacksburg, VA, USA; bUSDA Forest Service, Forest Health Protection, Asheville, NC, USA; cSchool of Environmental and Forest Sciences, University of Washington, Seattle, WA, USA ABSTRACT ARTICLE HISTORY Mating disruption tactics involve the deployment of pheromones to interfere with mate finding Received 18 December 2017 behaviors in insect populations. This management strategy is the dominant one used against Accepted 12 March 2018 expanding gypsy moth populations in the United States, and historically it has been assumed KEYWORDS to be most effective against low-density populations. Operationally, mating disruption is used Lymantria dispar; mating in areas where the season-long trap catch is <30 males/trap, however the maximum disruption; pheromone; population density at which mating disruption is effective remains unknown. We analysed disparlure; population historical gypsy moth mating disruption treatment data from 2000 to 2010, and used this density information to guide the mating disruption field studies conducted from 2012 to 2015 against artificially-created populations of various densities, from 0 to 116 males/trap/day. We observed that mating disruption tactics at a dose of 15 g AI/ha were effective against gypsy moth populations with a season-long trap catch of at least 115 males/trap. This research highlights the utility of mating disruption in higher gypsy moth densities than what is currently recommended in management programs.
    [Show full text]