Defend Your Product with STORGARD.® and Relatives

Total Page：16

File Type：pdf, Size：1020Kb

MOTHS STORGARD® II Trap The industry standard for Indianmeal moths Defend Your Product With STORGARD.® and relatives. Disposable, easy-to-assemble STORGARD® Insect Monitoring Systems will give you a definite edge in and replace. your battle against moths. Our full line of products for early detection and monitoring of insects give you all the choices for solutions in your environment – from raw products, manufacturing to finished goods – food services to home pantries. Choose with STORGARD.® SQUEEZE & SNAP® Trap A fast-acting, easy-to-use, non-sticky trap and highly • Early detection effective lure for Indianmeal moths and relatives. • Easy to use – easy to identify and count beetles • Enhances capture rates • Cost-effective THINLINE® Trap A sturdy long-life, high intensity system for ® monitoring moths and beetles when using Lock In Your Investment With STORGARD. the COMBI lure. The Best Moth Monitoring System. Common Name Scientific Name PHEROCON® 1C Trap Almond Moth Cadra cautella A long lasting, highly effective, large capacity Angoumois Grain Moth Sitotroga cerealella global standard trap for monitoring moths. European Grain Moth Nemapogen granelius Indianmeal Moth Plodia interpunctella MICRoDOT™ Trap Mediterranean Flour Moth Ephestia kuehniella For more information call 1-866-785-1313 A reduced amplitude, precision controlled release Raisin Moth Cadra figulilella or visit our website: www.trece.com system for monitoring local populations of moths Tobacco Moth Ephestia elutella and beetles. A sturdy multi-species tuned trap. Webbing Clothes Moth Tineola bisselliella ® INCORPORATED INSECT PHEROMONE & KAIROMONE SYSTEMS The Choice Is Yours. Your Edge – And Ours – Is Knowledge. TRECE, PHEROCON, STORGARD, CIDETRAK and IPM PARTNER are registered trademarks of Trece, Inc., Adair, OK USA • © 2007, Trécé Inc., Adair, OK USA • ® = Registered Trademark of Trécé, Inc., Adair, OK USA • ™ = Trademark of Trécé, Inc., Adair, OK USA.

Copy Link

Recommended publications

Attract-And-Kill Methods for Control of Indianmeal Moth
View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by SHAREOK repository ATTRACT-AND-KILL METHODS FOR CONTROL OF INDIANMEAL MOTH, Plodia interpunctella (Hübner) (LEPIDOPTERA: PYRALIDAE), AND COMPARISONS WITH OTHER PHEROMONE-BASED CONTROL METHODS By MANUEL CAMPOS-FIGUEROA Bachelor of Science in Entomology and Plant Pathology Universidad Autónoma Chapingo Chapingo, State of México, México 1996 Master of Science in Entomology Colegio de Postgraduados Montecillos, State of México, México 1999 Submitted to the Faculty of the Graduate College of the Oklahoma State University in partial fulfillment of the requirements for the Degree of DOCTOR OF PHILOSOPHY May, 2009 ATTRACT-AND-KILL METHODS FOR CONTROL OF INDIANMEAL MOTH, Plodia interpunctella (Hübner) (LEPIDOPTERA: PYRALIDAE), AND COMPARISONS WITH OTHER PHEROMONE-BASED CONTROL METHODS Dissertation Approved: Dr. Thomas W. Phillips Dissertation Adviser Dr. Mark E. Payton Dr. Jack W. Dillwith Dr. Brad Kard Dr. A. Gordon Emslie Dean of the Graduate College ii PREFACE I want to extend my gratitude to my major advisor and mentor Dr. Thomas W. Phillips for his time and support given to me during my Ph.D. studies. Also, I appreciate Dr. Phillips for considering me part of your research team. You are an example to follow, a great scientist, a great person and always looking for a solution. I am grateful with Dr. Jack W. Dillwith for being an excellent professor and committee member. Dr. Dillwith has always been very helpful and gave me good suggestions that improved this research. Thank you for being such a great support during all this time.
[Show full text]
4 Biology, Behavior, and Ecology of Insects in Processed Commodities
4 Biology, Behavior, and Ecology of Insects in Processed Commodities Rizana M. Mahroof David W. Hagstrum Most insects found in storage facilities consume Red flour beetle, Tribolium commodities, but some feed on mold growing castaneum (Herbst) on stored products. Others may be predators and parasitoids. Insects that attack relatively dry pro- Red flour beetle adults (Figure 1) are reddish brown. cessed commodities (those with about 10% or more Eggs are oblong and white. Adults show little moisture content at 15 to 42oC) can cause signifi- preference for cracks or crevices as oviposition sites. cant weight losses during storage. Insects occur in Eggshells are coated with a sticky substance that aids flour mills, rice mills, feed mills, food processing in attaching the eggs to surfaces and causes small facilities, breakfast and cereal processing facilities, particles to adhere to them (Arbogast 1991). Larvae farm storages, grain bins, grain elevators, bakeries, are yellowish white with three pair of thoracic legs. warehouses, grocery stores, pet-food stores, herbari- ums, museums, and tobacco curing barns. Economic Typically, there are six to seven larval instars, losses attributed to insects include not only weight depending on temperature and nutrition. Larvae loss of the commodity, but also monitoring and pest move away from light, living concealed in the food. management costs and effects of contamination on Full-grown larvae move to the food surface or seek product trade name reputation. shelter for pupation. Pupae are white and exarate, which means that appendages are not fused to the body. External genitalic characters on pupae can be Life Histories used to differentiate males and females (Good 1936).
[Show full text]
Indianmeal Moth, Plodia Interpunctella (Hübner) (Insecta: Lepidoptera: Pyralidae)1 Thomas R
EENY-026 Indianmeal Moth, Plodia interpunctella (Hübner) (Insecta: Lepidoptera: Pyralidae)1 Thomas R. Fasulo and Marle A. Knox2 Introduction Larvae The Indianmeal moth, Plodia interpunctella (Hübner), is a There are five to seven larval instars. Their color is usually very common household pest, feeding principally on stored off-white, but has been observed to be pink, brown, or food products. In fact, it has been called the most impor- almost greenish, depending on the food source. The mature tant pest of stored products commonly found in American larvae are about 1.27 cm in length. They have five pairs of homes or grocery stores. The larvae are general feeders, well-developed prolegs that help them move considerable which may feed on grain products, seeds, dried fruit, dog distances to pupate. food, and spices. The Indianmeal moth received its com- mon name from the United States where it was found to be a pest of meal made of “Indian corn” or maize. Distribution This insect is found in a wide range of climates in stored products and food storage facilities around the world. It is very common in Florida, where it also lives successfully outdoors. Description Eggs Eggs of the Indianmeal moth appear grayish-white and range in length from 0.3 to 0.5 mm. Eggs are oviposited singly or in clusters, and are generally laid directly on the larval food source. Figure 1. Larva of the Indianmeal moth, Plodia interpunctella (Hübner). Credits: Lyle Buss, UF/IFAS 1. This document is EENY-026, one of a series of the Department of Entomology and Nematology, UF/IFAS Extension.
[Show full text]
Stored Product Pests Department of Entomology
PURDUE EXTENSION E-37-W Stored Product Pests Department of Entomology INSECT PESTS OF HOME STORED FOODS Linda J. Mason and Timothy J. Gibb, Extension Entomologists Many kinds of cereal products and other foods stored GRAIN AND FLOUR BEETLES in kitchen cabinets or elsewhere in the home may become Sometimes collectively called "bran bugs," these infested with insects or other organisms commonly reddish-brown beetles are usually less than 1/8 inch referred to as "pantry pests." Practically all dried food long. Their small, wormlike larvae (growing stages) are products commonly found in the home are susceptible, yellowish-white with brown heads. Larvae of the first four including birdseed and dry pet foods. Pantry pests eat or species illustrated are elongate and tubular; those of the contaminate food, thus making it unfit for humans. They latter two species are somewhat C-shaped in appearance may also be annoying, in that they often leave the infested and appear rather hairy. The larvae are usually found in food and crawl or fly about the house. To eliminate infested material, whereas adult beetles often crawl about infestations, it is necessary to identify the pest and then the kitchen or other areas as well as feed in the infested find and destroy or treat infested materials. Listed and material. illustrated below by groups are the most common pests of stored food products in Indiana. Confused Flour Beetle Cigarette Beetle Drugstore Beetle Red Flour Beetle Saw-Toothed Grain Beetle NOTE: Indicates relative size through this whole publication Insect Pests of Home Stored Foods — E-37-W 2 DERMESTID BEETLES SPIDER BEETLES Members of this family are generally scavengers Several species of spider beetles (long legs and a and feed on a great variety of products of both plant general spider-like appearance) may be found infesting all and animal origin including leather, furs, skins, dried types of stored food products.
[Show full text]
Eb 1396 1994 Meal Moths.Pdf (2.335Mb)
Declared out of print June 2013. Some facts and recommendations in this publication are no longer endorsed by WSU Extension. Please look for up-to-date information in the WSU Extension Online Store at https://pubs.wsu.edu. SCI S tension Bulletin 1396 537 W2573 no.1396 1994 MEAL MOTHS Meal moths attack stored grain products or house Indianmeal Moth hold foodstuffs. Once established in food, insect populations can increase and infest vulnerable ma The adult Indianmeal moth, Plodia interpunctella, terial throughout the home, apartment, or storage has a wingspan of about 1/2 to 3/4-inch. The tips or area. Some adult moths do fly into the home outer half of the wings are reddish brown or "cop through open doors or windows, but most are car pery," while the basal portions are grayish-white. The ried inside from outdoor storage or in packaged larvae are usually off-white but can be pink, yellow, goods or groceries. greenish, or brownish. At maturity the larvae are about 1/2-inch long. Everyone's home is vulnerable. However, those who do not store food properly have the greatest The adult female can lay several dozen to several problems. Spilled or exposed foods attract the in hundred eggs. The larval stage may last from a few sects and increase the chance of infestation. Foods weeks to 9 or 10 months, depending on temperature. that are not tightly sealed, especially those main The larvae, which spin a great deal of webbing while tained for long periods of time, are particularly they are feeding and maturing, are usually found in susceptible to infestation.
[Show full text]
<I>Plodia Interpunctella</I>
University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln U.S. Department of Agriculture: Agricultural Publications from USDA-ARS / UNL Faculty Research Service, Lincoln, Nebraska 2007 Biology and management of Plodia interpunctella (Lepidoptera: Pyralidae) in stored products S. Mohandass Kansas State University F. H. Arthur USDA-ARS, [email protected] K. Y. Zhu Kansas State University, [email protected] James E. Throne USDA-ARS, [email protected] Follow this and additional works at: https://digitalcommons.unl.edu/usdaarsfacpub Mohandass, S.; Arthur, F. H.; Zhu, K. Y.; and Throne, James E., "Biology and management of Plodia interpunctella (Lepidoptera: Pyralidae) in stored products" (2007). Publications from USDA-ARS / UNL Faculty. 1981. https://digitalcommons.unl.edu/usdaarsfacpub/1981 This Article is brought to you for free and open access by the U.S. Department of Agriculture: Agricultural Research Service, Lincoln, Nebraska at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Publications from USDA-ARS / UNL Faculty by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. ARTICLE IN PRESS Journal of Stored Products Research 43 (2007) 302–311 www.elsevier.com/locate/jspr Review Biology and management of Plodia interpunctella (Lepidoptera: Pyralidae) in stored products$ S. Mohandassa, F.H. Arthurb,Ã, K.Y. Zhuc, J.E. Throneb aDepartment of Architecture, Planning, and Design, Kansas State University, Manhattan, KS, USA bUSDA-ARS, Grain Marketing and Production Research Center, 1515 College Avenue, Manhattan, KS-66506, USA cDepartment of Entomology, Kansas State University, Manhattan, KS, USA Accepted 10 August 2006 Abstract Plodia interpunctella (Hu¨bner), the Indian meal moth, is a world-wide insect pest of stored-products and processed food commodities.
[Show full text]
Mating Disruption in the Orchard and The
MATING DISRUPTION FOR CONTROL OF THE INDIANMEAL MOTH IN A WAREHOUSE Charles S. Burksa*, John R. McLaughlinb, James R. Millerc, and David G. Brandla aUSDA-ARS, San Joaquin Valley Agricultural Sciences Center, Parlier, CA 93648 bIPM Technologies, Inc., Raleigh, NC 27606 cMichigan State University, East Lansing, MI 48824 The Indianmeal moth Plodia interpunctella Hübner is a cosmopolitan pest of stored products. In warehouses, fogging systems using pyrethrins or dichlorvos are frequently used for control of Indianmeal moth, but these systems can’t be used in warehouses certified in accordance with the Organic Materials Review Institute (OMRI). Typically managers with organic product use exclusion, monitor more intensively, and treat as needed using physical methods such as controlled atmospheres or cold storage. In this study we compared the use of timed release of the Indianmeal moth pheromone component (Z,E)-9,12-tetradecadienyl acetate (ZETA) with pyrethrin fogging and with Indianmeal moth prevalence in an untreated area of the same complex. In accompanying experiments we examined survivorship and rate of development of the Indianmeal moth on various types of dried beans. Materials and Methods Pheromone was released using the Michigan State Microsprayer. A single timed-release device was placed in the center of a square storage area with 18.3 m sides. The roof was 5.5 m high on two sides and 8.2 m high at the center. The sides of the building were built of corrugated steal, and the roof had composite shingles. The Microsprayer emitted 0.07 mg ZETA in 95% ethanol every 2.5 minutes. The prevalence of the Indianmeal moth was monitored in the treatment area, in a warehouse used for storage of dried beans and protected with conventional pesticides, and in a breezeway where insecticides were not used.
[Show full text]
Common Name Proposal
3 Park Place, Suite 307 Phone: 301-731-4535 [email protected] Annapolis, MD 21401-3722 USA Fax: 301-731-4538 www.entsoc.org Entomological Society of America Proposal Form for new Common Name or Change of ESA-Approved Common Name Complete this form and e-mail to [email protected]. Submissions will not be considered unless this form is filled out completely. The proposer is expected to be familiar with the rules, recommendations, and procedures outlined in the “Use and Submission of Common Names” on the ESA website. 1. Proposed new common name: Indian meal moth 2. Previously approved common name (if any): Indianmeal moth 3. Scientific name (genus, species, author): Plodia interpunctella (Hübner) Order: Lepidoptera Family: Pyralidae Supporting Information 4. Reasons supporting the need for the proposed common name: The existing common name involves use of a contracted form of the words "Indian" and "meal" that is awkward, and infrequently used, compared to the proposed modification. It is also misleading in that it appears to suggest the insect is associated with "Indianmeal", which is a non-existent material. Instead this species feeds on all manner of milled grain meal-type of materials. The origin of the existing name refers to the association of this insect with corn meal, a product sometimes known as "Indian meal" in the mid 19th Century. The ESA name is a unique contraction of "Indian meal", which is now an archaic name. However, given the long history of use of the common name for this very important stored products insect this proposal seeks only to modify the use of the contracted form.
[Show full text]
Summary of Commercially Available Pheromones of Common Stored Product Moths Swords, P.*, Van Ryckeghem, A
10th International Working Conference on Stored Product Protection Summary of commercially available pheromones of common stored product moths Swords, P.*, Van Ryckeghem, A. Insects Limited, Inc., 16950 Westfield Park Rd., Westfield, In 46074-9374, USA. Email: [email protected]; [email protected] * Corresponding author # Presenting author DOI: 10.5073/jka.2010.425.491 1. Introduction The use of synthetically created pheromones for insect monitoring and control has become a very important technique in the world of pest management. This concept has an origin that reaches back to 1913 when the French naturalist, J. H. Fabre conducted simple experiments with the great peacock moth (Fabre, 1913). In Fabre’s study, a female peacock moth had emerged inside a cage. He noticed that male moths were attracted to the empty female’s cage as well as the oak leaves the female had rested upon. This simple experiment led to the conclusion that there was a particular scent produced by the female to attract males. This scent is what we now refer to as pheromones. Pheromones are collectively grouped into one family of specific chemical signals designated as semiochemicals. 1961 marks the first year a pheromone was successfully isolated and characterized by the work of Butenandt and Hecker (Butler, 1967). Since then, an eruption of pheromone identification and synthetic creation has taken place. Pheromone use has proven to be an invaluable tool in monitoring and control of pest infestations; therefore, creating a market for synthetically created pest insect pheromones. Many stored product pest moths produce pheromones that can be classified as long-chain carbon, unsaturated alcohols, aldehydes and acetates.
[Show full text]
Stored Product Pests Daniel R
Stored Product Pests Daniel R. Suiter, Michael D. Toews, and Lisa M. Ames Department of Entomology University of Georgia CONTENTS Introduction 1 Stored Product Pest Food Items 1 Stored Product Pests in Southern Homes 2 Indianmeal moth 2 Sawtoothed grain beetle 3 Red flour beetle 3 Rice weevil 4 Cowpea weevil 5 Warehouse beetle 5 Drugstore beetle 6 Solving a Current Infestation of Stored Product Pests 7 Preventing Future Infestations of Stored Product Pests 9 Traps 10 Summary 11 Acknowledgment inside back cover Useful References inside back cover Photos by L. Ames and D. Suiter Cover: Cowpea weevils on various beans commonly found in the home Stored Product Pests in the Home Daniel R Suiter, Michael D Toews, and Lisa M Ames Department of Entomology University of Georgia everal dozen insect species infest food and non-food products of plant and animal origin commonly found in homes. Collectively, this group of insects is referred to as stored product pests. Most are small beetles or moths. For Shomeowners, often the first sign of a stored product pest infestation is the sudden, unexplained and then persistent presence of numerous insects in a particular area of the home. If food is not limited, populations of stored product pests can multiply rapidly and become widespread and sustained. This publication discusses the identification and control of several of the most common species of stored product pests found in southern homes. The life cycle of stored product beetle and moth pests includes an egg stage, several larval stages, a pupal stage, and finally an adult stage.Adults often mate soon after emergence from the pupa and immediately begin their search to find food.
[Show full text]
INDIANMEAL MOTH Plodia Interpunctella (Hubner)
E-223-W Stored Product Pests Department of Entomology INDIANMEAL MOTH Plodia interpunctella (Hubner) Linda J. Mason, Extension Entomologist DESCRIPTION BIOLOGY AND BEHAVIOR Adults are 5-10 mm (3/16 – 7/16 inch) long and have an Forty to 400 eggs are deposited directly in or adjacent average wing span of about 16 mm (11/16 inch). They are very to food. The number of eggs is dependent on food, season, easily identified. The lower two thirds of the fore wings are or temperature. Females start ovipositing within 3 days of reddish bronze with irregular dark bands. The upper one third emergence. Eggs are deposited mostly at night. Within a few is silvery white or gray. Hind wings are silvery gray with a long hours of hatching, larvae begin to feed, leaving a silky thread fringe of hairs. Females are generally larger than males and behind. This silk can bind particles of food together, clogging have an expanded abdomen. Young larvae are white except machinery used in the food industry. There are 5-7 larval for their head, which is dark. Full-grown larvae are usually instars. The last larval instar usually will leave the food and yellowish white, greenish white, or pinkish. Larval size may search for a suitable place to spin a cocoon and pupate. The vary depending on sex, food, and environment. Twelve to 14 pupal case can be yellow brown to nearly black, depending mm (1/2 inch) is about average. on age. Upon adult emergence, females move to a surface above the food to release sex pheromone.
[Show full text]
Stored Grain Insects of Indiana
PURDUE EXTENSION E-80-W PRINCIPAL STORED GRAIN INSECTS OF INDIANA 1. GRANARY WEEVIL, Sitophilus granarius (Linnaeus). This 8. CADELLE, Tenebroides mauritanicus (Linnaeus). Both weevil, along with the closely related rice weevil, is among the most the adult and larvae are large and easy to see. Both stages feed destructive of all stored grain insects. The larvae develop inside mainly on the germ of stored grains, but may also attack milled cereal kernels of whole grain in storage, thus making an infestation difficult products. The larvae leave stored grain in the fall and burrow into to remove in the milling process. In Indiana, the granary weevil is woodwork, such as wooden bins or boxcars, to hibernate. They largely a pest of stored wheat, corn, and barley, especially in elevators, may also burrow into packaged cereal products, thus providing an mills, and bulk storages. The adult cannot fly, and field infestations entrance for other cereal pests. do not occur. 9.T FLA GRAIN BEETLE, Cryptolestes pusillus (Schönherr). 2. SAW-TOOTHED GRAIN BEETLE, Oryzaephilus surinamensis This is a tiny beetle that feeds primarily on the germ of stored grains, (Linnaeus). Along with flour beetles, the saw-toothed grain beetle is especially wheat. It is readily attracted to high-moisture grain. In one of the most common insects in stored grain and cereal products. fact, under high-moisture conditions, the flat grain beetle may also The larvae develop in flour, cereal products, and many other dried develop in many cereal products, but is not a common pest in kitch- foods. For this reason, it is a common pest not only in grain bins, but ens.
[Show full text]