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Restricted Use Product Summary Report
Page 1 of 17 Restricted Use Product Summary Report (January 19, 2016) Percent Active Registration # Name Company # Company Name Active Ingredient(s) Ingredient 4‐152 BONIDE ORCHARD MOUSE BAIT 4 BONIDE PRODUCTS, INC. 2 Zinc phosphide (Zn3P2) 70‐223 RIGO EXOTHERM TERMIL 70 VALUE GARDENS SUPPLY, LLC 20 Chlorothalonil 100‐497 AATREX 4L HERBICIDE 100 SYNGENTA CROP PROTECTION, LLC 42.6 Atrazine 100‐585 AATREX NINE‐O HERBICIDE 100 SYNGENTA CROP PROTECTION, LLC 88.2 Atrazine 100‐669 CURACRON 8E INSECTICIDE‐MITICIDE 100 SYNGENTA CROP PROTECTION, LLC 73 Profenofos 100‐817 BICEP II MAGNUM HERBICIDE 100 SYNGENTA CROP PROTECTION, LLC 33; 26.1 Atrazine; S‐Metolachlor 100‐827 BICEP LITE II MAGNUM HERBICIDE 100 SYNGENTA CROP PROTECTION, LLC 28.1; 35.8 Atrazine; S‐Metolachlor 100‐886 BICEP MAGNUM 100 SYNGENTA CROP PROTECTION, LLC 33.7; 26.1 Atrazine; S‐Metolachlor 100‐898 AGRI‐MEK 0.15 EC MITICIDE/INSECTICIDE 100 SYNGENTA CROP PROTECTION, LLC 2 Abamectin 100‐903 DENIM INSECTICIDE 100 SYNGENTA CROP PROTECTION, LLC 2.15 Emamectin benzoate 100‐904 PROCLAIM INSECTICIDE 100 SYNGENTA CROP PROTECTION, LLC 5 Emamectin benzoate 100‐998 KARATE 1EC 100 SYNGENTA CROP PROTECTION, LLC 13.1 lambda‐Cyhalothrin 100‐1075 FORCE 3G INSECTICIDE 100 SYNGENTA CROP PROTECTION, LLC 3 Tefluthrin Acetochlor; Carbamothioic acid, dipropyl‐ 100‐1083 DOUBLEPLAY SELECTIVE HERBICIDE 100 SYNGENTA CROP PROTECTION, LLC 16.9; 67.8 , S‐ethyl ester 100‐1086 KARATE EC‐W INSECTICIDE 100 SYNGENTA CROP PROTECTION, LLC 13.1 lambda‐Cyhalothrin 100‐1088 SCIMITAR GC INSECTICIDE 100 SYNGENTA CROP PROTECTION, -
2,4-Dichlorophenoxyacetic Acid
2,4-Dichlorophenoxyacetic acid 2,4-Dichlorophenoxyacetic acid IUPAC (2,4-dichlorophenoxy)acetic acid name 2,4-D Other hedonal names trinoxol Identifiers CAS [94-75-7] number SMILES OC(COC1=CC=C(Cl)C=C1Cl)=O ChemSpider 1441 ID Properties Molecular C H Cl O formula 8 6 2 3 Molar mass 221.04 g mol−1 Appearance white to yellow powder Melting point 140.5 °C (413.5 K) Boiling 160 °C (0.4 mm Hg) point Solubility in 900 mg/L (25 °C) water Related compounds Related 2,4,5-T, Dichlorprop compounds Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) 2,4-Dichlorophenoxyacetic acid (2,4-D) is a common systemic herbicide used in the control of broadleaf weeds. It is the most widely used herbicide in the world, and the third most commonly used in North America.[1] 2,4-D is also an important synthetic auxin, often used in laboratories for plant research and as a supplement in plant cell culture media such as MS medium. History 2,4-D was developed during World War II by a British team at Rothamsted Experimental Station, under the leadership of Judah Hirsch Quastel, aiming to increase crop yields for a nation at war.[citation needed] When it was commercially released in 1946, it became the first successful selective herbicide and allowed for greatly enhanced weed control in wheat, maize (corn), rice, and similar cereal grass crop, because it only kills dicots, leaving behind monocots. Mechanism of herbicide action 2,4-D is a synthetic auxin, which is a class of plant growth regulators. -
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. -
Herbicide Mode of Action Table High Resistance Risk
Herbicide Mode of Action Table High resistance risk Chemical family Active constituent (first registered trade name) GROUP 1 Inhibition of acetyl co-enzyme A carboxylase (ACC’ase inhibitors) clodinafop (Topik®), cyhalofop (Agixa®*, Barnstorm®), diclofop (Cheetah® Gold* Decision®*, Hoegrass®), Aryloxyphenoxy- fenoxaprop (Cheetah®, Gold*, Wildcat®), fluazifop propionates (FOPs) (Fusilade®), haloxyfop (Verdict®), propaquizafop (Shogun®), quizalofop (Targa®) Cyclohexanediones (DIMs) butroxydim (Factor®*), clethodim (Select®), profoxydim (Aura®), sethoxydim (Cheetah® Gold*, Decision®*), tralkoxydim (Achieve®) Phenylpyrazoles (DENs) pinoxaden (Axial®) GROUP 2 Inhibition of acetolactate synthase (ALS inhibitors), acetohydroxyacid synthase (AHAS) Imidazolinones (IMIs) imazamox (Intervix®*, Raptor®), imazapic (Bobcat I-Maxx®*, Flame®, Midas®*, OnDuty®*), imazapyr (Arsenal Xpress®*, Intervix®*, Lightning®*, Midas®* OnDuty®*), imazethapyr (Lightning®*, Spinnaker®) Pyrimidinyl–thio- bispyribac (Nominee®), pyrithiobac (Staple®) benzoates Sulfonylureas (SUs) azimsulfuron (Gulliver®), bensulfuron (Londax®), chlorsulfuron (Glean®), ethoxysulfuron (Hero®), foramsulfuron (Tribute®), halosulfuron (Sempra®), iodosulfuron (Hussar®), mesosulfuron (Atlantis®), metsulfuron (Ally®, Harmony®* M, Stinger®*, Trounce®*, Ultimate Brushweed®* Herbicide), prosulfuron (Casper®*), rimsulfuron (Titus®), sulfometuron (Oust®, Eucmix Pre Plant®*, Trimac Plus®*), sulfosulfuron (Monza®), thifensulfuron (Harmony®* M), triasulfuron (Logran®, Logran® B-Power®*), tribenuron (Express®), -
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. -
Aminopyralid Ecological Risk Assessment Final
Aminopyralid Ecological Risk Assessment Final U.S. Department of the Interior Bureau of Land Management Washington, D.C. December 2015 EXECUTIVE SUMMARY EXECUTIVE SUMMARY The United States Department of the Interior (USDOI) Bureau of Land Management (BLM) administers about 247.9 million acres in 17 western states in the continental United States (U.S.) and Alaska. One of the BLM’s highest priorities is to promote ecosystem health, and one of the greatest obstacles to achieving this goal is the rapid expansion of invasive plants (including noxious weeds and other plants not native to an area) across public lands. These invasive plants can dominate and often cause permanent damage to natural plant communities. If not eradicated or controlled, invasive plants will jeopardize the health of public lands and the activities that occur on them. Herbicides are one method employed by the BLM to control these plants. In 2007, the BLM published the Vegetation Treatments Using Herbicides on Bureau of Land Management Lands in 17 Western States Programmatic Environmental Impact Statement (17-States PEIS). The Record of Decision (ROD) for the 17-States PEIS allowed the BLM to use 18 herbicide active ingredients available for a full range of vegetation treatments in 17 western states. In the ROD, the BLM also identified a protocol for identifying, evaluating, and using new herbicide active ingredients. Under the protocol, the BLM would not be allowed to use a new herbicide active ingredient until the agency 1) assessed the hazards and risks from using the new herbicide active ingredient, and 2) prepared an Environmental Impact Statement (EIS) under the National Environmental Policy Act to assess the impacts of using new herbicide active ingredient on the natural, cultural, and social environment. -
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. -
INDEX to PESTICIDE TYPES and FAMILIES and PART 180 TOLERANCE INFORMATION of PESTICIDE CHEMICALS in FOOD and FEED COMMODITIES
US Environmental Protection Agency Office of Pesticide Programs INDEX to PESTICIDE TYPES and FAMILIES and PART 180 TOLERANCE INFORMATION of PESTICIDE CHEMICALS in FOOD and FEED COMMODITIES Note: Pesticide tolerance information is updated in the Code of Federal Regulations on a weekly basis. EPA plans to update these indexes biannually. These indexes are current as of the date indicated in the pdf file. For the latest information on pesticide tolerances, please check the electronic Code of Federal Regulations (eCFR) at http://www.access.gpo.gov/nara/cfr/waisidx_07/40cfrv23_07.html 1 40 CFR Type Family Common name CAS Number PC code 180.163 Acaricide bridged diphenyl Dicofol (1,1-Bis(chlorophenyl)-2,2,2-trichloroethanol) 115-32-2 10501 180.198 Acaricide phosphonate Trichlorfon 52-68-6 57901 180.259 Acaricide sulfite ester Propargite 2312-35-8 97601 180.446 Acaricide tetrazine Clofentezine 74115-24-5 125501 180.448 Acaricide thiazolidine Hexythiazox 78587-05-0 128849 180.517 Acaricide phenylpyrazole Fipronil 120068-37-3 129121 180.566 Acaricide pyrazole Fenpyroximate 134098-61-6 129131 180.572 Acaricide carbazate Bifenazate 149877-41-8 586 180.593 Acaricide unclassified Etoxazole 153233-91-1 107091 180.599 Acaricide unclassified Acequinocyl 57960-19-7 6329 180.341 Acaricide, fungicide dinitrophenol Dinocap (2, 4-Dinitro-6-octylphenyl crotonate and 2,6-dinitro-4- 39300-45-3 36001 octylphenyl crotonate} 180.111 Acaricide, insecticide organophosphorus Malathion 121-75-5 57701 180.182 Acaricide, insecticide cyclodiene Endosulfan 115-29-7 79401 -
2017 Weed Control-Pasture and Range-SDSU
iGrow.org 2017 Weed Control Pasture and Range Paul O. Johnson | SDSU Extension Weed Science Coordinator David Vos | SDSU Ag Research Manager Jill Alms | SDSU Ag Research Manager Leon J. Wrage | SDSU Distinguished Professor Emeritus Department of Agronomy, Horticulture and Plant Science College of Agriculture & Biological Sciences | agronomy Table of Contents Accurate (metsulfuron) . 13 Latigo (dicamba+2,4-D) . 5 Amber (triasulfuron) . 14 Milestone (aminopyralid) . 8 Banvel (dicamba) . 4 Opensight (aminopyralid+metsulfuron) . 9 Brash (dicamba+2,4-D) . 5 Overdrive (dicamba+diflufenzopyr) . 6 Brush-Rhap (dicamba+2,4-D) . 5 Paraquat (paraquat) . 17 Capstone (aminopyralid+triclopyr) . 10 Para-Shot (paraquat) . 17 Chaparral (aminopyralid+metsulfuron) . 9 Parazone (paraquat) . 17 Chisum (metsulfuron+chlorsulfuron) . 13 PastureGard HL (triclopyr+fluroxypyr) . 11 Cimarron Max (metsulfuron+dicamba + 2,4-D) . 13 Plateau (imazapic) . 12, 16 Cimarron Plus (metsulfuron+chlorsulfuron) . 13 QuinStar (quinclorac) . 15 Cimarron Xtra (metsulfuron+chlorsulfuron) . 14 RangeStar (dicamba+2,4-D) . 5 Clarity (dicamba) . 4 Rave (triasulfuron+dicamba) . .15 Clash (dicamba) . 4 Remedy Ultra (triclopyr) . .11 Clean Slate (clopyralid) . 10 Rifle (dicamba) . 4 Comet (fluroxypyr) . 11 Rifle-D(dicamba+2,4-D) . 5 Commando (clopyralid+2,4-D) . 10 Scorch (dicamba+2,4-D+fluroxypyr) . 6 Crossbow, Crossbow L (triclopyr+2,4-D) . 11 Spike (tebuthiuron) . 15 Crossroad (triclopyr+2,4-D) . 11 Spur (clopyralid) . 10 Curtail (clopyralid+2,4-D) . 10 Sterling Blue (dicamba) . 4 Cutback (clopyralid+2,4-D) . 10. Surmount (picloram+fluroxypyr) . 8 Cyclone (paraquat) . 17 Stinger (clopyralid) . 10 Detail (saflufenacil) . 12 Telar (chlorsulfuron) . 14 Detonate (dicamba) . 4 Tie Down (triasulfuron+dicamba) . 15 Devour (paraquat) . 17 Tordon (picloram) . 6 Diablo (dicamba) . -
Insecticide Recommendations for Arkansas Peanuts
PEAnut InSECt COntROl Restricted Minimum days Entry From last Interval Application Insect Insecticide Formulation/Acre lb ai/Acre Acres/Gallon Application/Comments (hours) to Harvest thrips acephate 0.375-0.75 DO NOT graze or feed vines treated with 24 14 Orthene 97 6-12 oz Orthene. (of digging) Treat with foliar insecticides when gamma-cyhalothrin (R) 0.01-0.015 24 14 25% of newly emerged Prolex/Declare 1.25 CS 1.02-1.54 oz 83-125 leaflets show damage imidacloprid In-furrow application/ 12 14 from thrips. Admire Pro 4.6F 7-10.5 fl oz lambda-cyhalothrin (R) 0.02-0.03 DO NOT graze or feed vines treated with 24 14 Warrior II 2.08 CS 1.28-1.92 oz 66.6-100 Warrior. (See Generic Insecticides) phorate (R) DO NOT apply more than 7.5 lb/acre. DO 48 90 Thimet 20 G 5.5 oz/1,000 ft of row NOT graze or feed treated hay or forage to livestock. threecornered beta-cyfluthrin (R) 0.014-0.019 12 14 Alfalfa Hopper Baythroid XL 1 EC 1.8-2.4 oz 53.3-71 bifenthrin (R) 0.033-0.1 DO NOT graze or feed treated hay or forage 12 14 Brigade 2 EC 2.1-6.4 oz 20-60 to livestock. (See Generic Insecticides) carbaryl 1 DO NOT apply during bloom. 12 14 Sevin XLR or 4 F 1 qt 4 Sevin 80 S 1.25 lb esfenvalerate (R) 0.015-0.03 DO NOT graze or feed treated hay or forage 12 21 Asana XL 0.66 EC 2.9-5.8 oz 22-44 to livestock. -
Aminopyralid Toxicity and Fate for Application to Sensitive Areas of Rights-Of-Way
Summary of Aminopyralid Toxicity and Fate for Application to Sensitive Areas of Rights-of-Way The following summary addresses use of the herbicide aminopyralid in Sensitive Areas of Rights-of-Way in Massachusetts. The review was jointly conducted by the Massachusetts Department of Environmental Protection (MassDEP) Office of Research and Standards (ORS) and the Massachusetts Department of Agricultural Resources (DAR) in accordance with the cooperative agreement issued between the two agencies in 1987 and updated in 2011 pursuant to the provisions of Section 4(1)(E) of 333 CMR 11.00 Rights-of-Way Management Regulations. The conclusions summarized in this memo are based upon several sources of information, including a comprehensive review of this herbicide by the USDA Forest Service (Durkin 2007), scientific documents contained in the US Environmental Protection Agency (EPA) docket of information for aminopyralid to support pesticide registration decisions and the results of literature searches for recent pertinent studies on this chemical. As aminopyralid is a relatively new product, very little primary information was found in the literature that was pertinent to the scope of this review and therefore the review was primarily based on information provided by the secondary summary documents described above. The purpose of this review is to ascertain the suitability of this product for use within sensitive areas of rights-of-way, based upon consideration of available information on the potential toxicity of the active ingredient aminopyralid as well as its fate and transport in the environment. Aminopyralid (2-pyridine carboxylic acid, 4-amino-3,6-dichloro-2-pyridine carboxylic acid) is a pyridine carboxylic acid herbicide manufactured by Dow AgroSciences LLC (DAS) for use in controlling annual and perennial broadleaf weeds. -
Weed Control in Winter Crops 2019
Weed control in winter crops 2019 NSW DPI MANAGEMENT GUIDE Greg Brooke and Colin McMaster www.dpi.nsw.gov.au New Axial Xtra. Local trial results show the new AXIAL XTRA formulation with an advanced built in adjuvant, delivers improved activity on Wild Oats, Phalaris and Ryegrass, with the same trusted crop safety. Speak to your advisor about AXIAL XTRA today. UP TO 30% CASHBACK agriclime.syngenta.com.au Partner of Visit syngenta.com.au Syngenta Australia Pty Ltd, Level 1, 2-4 Lyonpark Road, Macquarie Park NSW 2113. ABN 33 002 933 717. ® Registered trademark of Syngenta Group Company. *A maximum of 30% cash back may be payable. Please visit agriclime.syngenta.com for full terms and conditions. Axial Xtra is a registered trademark of a Syngenta Group Company. AD 19-038. Weed control in winter crops 2019 Greg Brooke Colin McMaster Research and Development Research and Development Agronomist, Trangie Agronomist, Orange NSW Department of Primary Industries NSW Department of Primary Industries [email protected] [email protected] More consistent control than Trifluralin + Triallate, at less than $30 a hectare. Consistent ryegrass control at a good honest price. To find out more, talk to your local reseller or visit www.TheHonestAgronomist.com.au UP TO 30% CASHBACK agriclime.syngenta.com.au Partner of Visit syngenta.com.au Syngenta Australia Pty Ltd, Level 1, 2-4 Lyonpark Road, Macquarie Park NSW 2113. ABN 33 002 933 717. ® Registered trademark of Syngenta Group Company. *A maximum of 30% cash back may be payable. Please visit agriclime.syngenta.com for full terms and conditions.