Home stored product entomology

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Home stored product entomology is most commonly used in lawsuits over the contamination or infestation of foods by insects, usually in the commercial sector. Although stored product entomology may seem a lesser-known subject, this branch of forensic entomology is extremely important, as it encompasses all cases involving the finding of insects in any food products. A stored product entomologist's job is determining if the product was truly infested before it was shipped, or purchased by the consumer, and whether or not legal action should be taken against the producer. These entomologists are so important, and these cases so common, that many large food companies actually hire a forensic entomologist to keep on staff to assist in court proceedings involving a contaminated product. Companies are required by the FDA to have no more than a certain number of larva/insects/insect fragments in their product, and it is when this defect action level is exceeded that a consumer can prosecute.

Because of the large number of lawsuits that involve finding insects in food, a stored product entomologist is extremely important to the integrity of the company, as well as the safety of the consumer. Stores often have special employees whom are notified in the case of an infestation in order to take quick action to prevent further food contamination. Although many of these cases are justified, some are just scams of people looking to make money, and in the latter case, a stored product entomologist can effectively make a determination as to who is at fault. On the other hand, stored product entomology does not focus on just purely legal court proceedings; rather, it also deals with the prevention and eradication of common household insects, five of which are identified in the following paragraphs. The average person is not primarily concerned with lawsuits involving large companies, but rather the health and well-being of themselves and their families. Five major household pantry insects that are found most commonly in stored foodstuffs include the red flour beetle, the drugstore beetle, the sawtoothed grain beetle, Indian meal moths and fruit flies. Stored product entomology includes a plethora of other insects, but these five insects are found most often in food items in a house, or a pantry. There are thousands of other species of insects that infest other areas, such as weevils, yet this article focuses chiefly on the insects that are reported to be the most common.

Contents

[edit] Five major stored product pests

[edit] Flour Beetles (Tribolium castaneum and Tribolium confusum)

Red Flour Beetle
Red Flour Beetle

There are two different types of beetles classified as flour beetles: the Red flour beetle and the Confused flour beetle. Both are similar in physical characteristics. They are flat and oval in shape and usually range around 1/8- inch long. Their exoskeleton is reddish brown with a shiny and smooth texture. The eggs, larvae, and pupa resemble each other closely in physical features as well. The eggs usually tend to be a white color, or at times even colorless. They are very small in size and have a sticky outer covering that causes certain food particles to stick to it. The larvae have six legs, with two pointy projections toward the caudal end. Finally, the pupal stage (a cocoon-like form used to break itself down and emerge as a mature adult) is usually a white or brownish color. The beetle life cycle lasts approximately 3 years or more, with the larval stage ranging anywhere from 20 to over 100 days, and the pupal stage around 8 days. Beetles usually breed in damaged grain, grain dust, high-moisture wheat kernels and flour. The female flour beetle can lay between 300 and 400 eggs during her lifetime [a period of 5 to 8 months]. The flour beetles mainly infest grains, including, but not limited to: cereal, corn meal oats, rice, flour, and crackers. This type of beetle is the most abundant insect pest of flour mills across the United States. Their small size allows them to maneuver through cracks and crevices and get into the home and other areas. Once they are present in areas with potential food sources, they can infest material such as flour, resulting in a sharp odor or moldy flavor. The Red flour beetle is able to fly short distances and the Confused flour beetle is unable to fly. While the Confused flour beetle is more commonly found in the northern United States, the Red flour beetles are more predominant in the southern United States in areas with warmer climates.[1] The red flour beetle is considered the best organism to study genetics. A team composed of Susan Brown and Rob Denell, both biology professors at the University of Kansas, along with Richard Beeman, won financial support to have the beetle's genome sequenced, marking it as one of the earliest sequenced insect genomes, as well as distinguishing the Red flour beetle as the only pest insect to be analyzed in this way thus far. The project was funded partially by the US Department of Agriculture, as well as by the National Institutes of Health, and the genome sequencing was led by Stephen Richards at the Human Genome Sequencing Center, Baylor College of Medicine. The red flour beetle's gene map information and genomic sequence are accessible from the National Center for Biotechnical Information. More information is to be published in Nature on 2008-03-27. [2]

[edit] Drugstore Beetle (Stegobium paniceum)

Drugstore Beetle
Drugstore Beetle

The Biscuit beetle is closely related to the commonly known Cigarette beetle. Adult Drugstore beetles are shaped cylindrically with dimensions ranging from 2.25 to 3.5 mm. Their exoskeleton consists of a reddish brown coloring. These beetles are also characterized by elytra, sclerotized (hardened) wings that fold back over the abdomen and hinge upwards, allowing the hind wings to come out in order to fly. The presence of this striated appearance helps distinguish the Drugstore beetle from a similar species, the Cigarette beetle. Females are capable of laying up to 75 eggs during a life time. After the eggs are laid they move into a larval period that can range anywhere from 4 to 20 weeks. After the larval period, Drugstore beetle larvae move out of the substrate to build a cocoon and pupate. The pupation process takes a total of 12-18 days. The entire life cycle of the Drugstore beetle lasts approximately 2 months but can be as long as 7 months. Adult female beetles have a lifespan of about 13 to 65 days. These stored product pests will infest almost anything readily available. Food products prone to infestation include: flours, dry mixes, breads, cookies and other spices. Non-food material includes: wool, hair, leather and museum specimens. This specific type of beetle is able to produce symbiotic yeasts that produce B vitamins, which allow the beetle to survive on the consumption of poor nutritional foods. They are found in areas that have a warmer climate, yet are less plentiful among the tropics as their counterpart, the Cigarette beetle.[3]

[edit] Saw-toothed Grain Beetle (Oryzaephilus surinamensis)

Saw-toothed Grain Beetle
Saw-toothed Grain Beetle

The Saw-toothed grain beetle is closely related to the Merchant grain beetle, and is commonly found in kitchen cabinets feeding on items such as cereal, breakfast foods, dried fruits, macaroni, crackers, etc. They are the most common grain and stored product pest. They are very active and tend to crawl rapidly while searching for food. [4] They are small insects, reaching roughly around 1/8 of an inch. Their name originates from their distinguishable saw-tooth-like projections found on each side of the thorax. The body shape of the beetle is flat, slender, and brown in color. The size and shape of the mandibles allow the beetles to easily break through well sealed and packaged foods. An adult female Saw-toothed grain beetle can lay anywhere between 45 to 250 eggs, that usually hatch within 3 to 17 days. The larvae look much different from the mature adult. They have a caterpillar-like appearance, with a yellowish coloration to the body and a brown head. The larval period can last as long as 10 weeks but can be as short as 2 weeks. Following the larval instars is the pupal period, which can last one to three weeks. The pupal stage is characterized by the unique process by which these beetles stick together pieces of food material to form a protective covering around their bodies. A fully mature adult beetle, under optimal conditions, can live a maximum of 4 years, a considerably long arthropod lifespan. [5]

[edit] Indian Meal Moths (Plodia interpunctata)

Indian Meal Moth
Indian Meal Moth

Indian meal moths can infest a variety of foods found in the pantry. Coarsely ground grains, cereals, dried fruits, and herbs are common items the moths have been known to infest. They have also been found in animal food such as dried dog food, dried fish food, and even bird seed. The adult moth is small; generally, their size averages about 3/8 inch, with a 5/8 inch wing span. As adults, the moths are easily identified by an overall grayish, dirty complexion. However, the wing tips have a bronze color that helps differentiate this particular moth from other household moths. The adults have a distinct forewing pattern as well. The pattern consists of a light-colored base with about two-thirds of the distal area a red to copper color. [6] The larval stage, or caterpillar, is characterized by a pinkish or yellowish-green body color with a dark brown head. The larval stage of the moth’s life cycle is centered on food sources; during the last instar, these larvae are characterized by a movement towards a protected area to pupate. These caterpillars have the capacity to chew through plastic packaging and will often produce silk that loosely binds to food fragments. The pupal stage is generally observed as tiny cocoons that hang from the ceiling; these cocoons can also be found on walls, as well as near the food source. A female can lie over 200 eggs, and will usually die after this process because adults Indian meal moths do not eat. [7]

[edit] Fruit Flies (Drosophila melanogaster)

Fruit Fly
Fruit Fly

[8]

Fruit flies are found near ripened or fermenting fruit. Tomatoes, melons, squash, grapes and other perishable items brought in from the garden are a common cause of an indoor infestation. Fruit flies can also be attracted to rotting bananas, potatoes, onions and other unrefrigerated produce purchased at the grocery store and taken home. The body of the Fruit fly is tan towards the front part of the body and black towards the rear. They usually have red eyes and are about 1/8 inch long. Females have the ability to lay over 500 eggs, usually in fermenting fruit as a food source. The only environment necessary for successful reproduction is a moist film and fermenting material. Generally, Fruit flies are a problem during late summer and fall due to their attraction to ripening and fermenting fruits and vegetables. The entire life cycle can be completed in about a week. Unfortunately, because of their ability to fly in and out of the home through windows and screens, they have the capability of contaminating food with bacteria and disease-producing organisms. [9]

[edit] Detection of an infestation

Careful observation is necessary when detecting the culprit of an insect infestation. Each of the five different insects discussed has a unique pattern of destruction. These observations are imperative, as there are not always larvae, pupa, or adults readily available for examination and identification. In the absence of physical specimens, conclusions can be drawn about the probable insect that is infesting the product just by noting the damage done to the particular food. By noting the type of food and the damage done, a nearly accurate conclusion can be drawn about the type of insect causing the damage, allowing a conjecture about the type of control needed. Having an insect specimen and accurately identifying it can lead to eradication, and ultimately, prevention.

Foods commonly infested include:

  • Whole or cracked grains (rice)
  • Flour, meal, or similar ground grain products
  • Spices
  • Cereals
  • Pasta
  • Candy
  • Powdered milk
  • Nuts (whole or pieces)

Other items include, but aren’t limited to: Rodent baits (that contain grain as a feeding attractant), dry pet food, bird seed, grass seed, some powdered soap detergents, dried flowers, potpourri, items stuffed with dried beans or other plant material, and tobacco products.

In order to identify an insect, and consequently make a decision about the type of control to be implemented, the type of food must first be noted, especially in the absence of a specimen. Although identifying the food is a general start to begin to identify the insect, it must be remembered that it isn’t always the most accurate method. It is mostly used as a guideline, as some insects are more likely than others to be found in certain types of grain, flour, etc. The type of food is not always conclusive to the type of insect found in it, as insects are not extremely picky, and many families and species are found on a wide range of different foodstuffs. Using the infested item as a guideline, noting the type of damage done to the product is the next step. Some insects, like the drugstore beetle, leave telltale tiny holes in the damaged product, while Indian meal moths are notorious for the spider web-like threads left behind in the food they infest. These observations can generally lead to a mostly accurate conclusion about the type of insects that are causing the damage, but obviously the most accurate conclusion relies on any specimen found either directly in the stored product or in the vicinity. The larvae, pupae, and adults can be found directly in the product while usually only the pupae and adults are found in the vicinity of the product. It is not practical to assume that any person has knowledge of general entomology, so the following analysis focuses on the five major pests that most commonly infest stored products, beginning with the type of foods infested, signs indicative of a particular insect infestation, and a description of the larvae, pupae, and adults, including behavior as well as appearance.

[edit] Red Flour Beetle Detection

Damaged caused by Red Flour Beetles
Damaged caused by Red Flour Beetles

This beetle is similar to the Saw-toothed grain beetles in both habits and types of products infested. It is a serious pest in flour mills and wherever cereal products and other dried products are stored and/or processed. Generally, the beetle is attracted to grain with a high moisture content, and usually causes the grain to acquire a grayish tint. The beetle may also impart a bad odor, which then affects the taste of the infested products, as well as encouraging the growth of mold in the grain. This foul odor and taste in the various food products are caused by pheromones and toxic quinone compounds. [10]

[edit] Saw-toothed Grain Beetle detection

Dry corn damaged by Saw-tooth Grain Beetles
Dry corn damaged by Saw-tooth Grain Beetles

The Saw-toothed grain beetle feeds on a plethora of feeds, but is not capable of attacking whole or undamaged grains; therefore, it is commonly found in processed grains (flour and meal), dry dog food, dried fruits, candy bars, tobacco, drugs, dried meats, and a variety of other products. It is one of the most common insects found to infest stored products. Larvae are found to develop in flour, dried foods, cereal products, and other stored products.[11] [12]

[edit] Drugstore Beetle Detection

These beetles will infest almost anything- they are found most often, however, in flour, bread, spices, breakfast foods, and meal. In the case of an infestation, contaminated products have telltale tunnels which have the appearance of tiny holes. These beetles do not sting, bite, or harm pets or damage a house, yet have the potential, in large infestations, to become a nuisance by flying on doors and windows in heavy populations.

[edit] Indian Meal Moth Detection

An Indian Meal Moth infestation.
An Indian Meal Moth infestation.

Indian meal moths infest both cereal and stored grain products, packaged goods, grain in storage, and surface layers of shelled corn. The most telltale sign of the Indian meal moth is the silk webbing that the larvae (caterpillars) produce when feeding on the surface of foods. This silk webbing may appear to be or resemble cobwebs inside the products container. Often, a few larvae may be found in the packaging of the product, along with the ‘cobwebs’, cast skins and frass.

Larvae are white worms with black heads, which, when ready to pupate, crawl up the walls of the home in most cases, and are suspended from the ceiling attached by a single silken thread. Most complaints about these moths come during the warmer parts of the year- usually the months of July through August- but the moths have the capability to appear during any month. As with all insects important to stored product entomology, it cannot be automatically assumed that products were previously infested, yet, it is more common for these moths to hitchhike inside a product or in groceries than for the moth to fly into a home through open windows or doors. An important aspect of the Indian meal moth is that the larvae are the only stage of the insect’s life cycle to feed on stored products, the adults do not.

[edit] Fruit Fly Detection

Cherry damaged by a Fruit fly
Cherry damaged by a Fruit fly

Fruit flies are attracted to ripened fruits and vegetables, usually in the kitchen area, but will breed in garbage disposals, empty bottles and cans, wet or damp mops or cleaning rags, and trash containers. The only requirement for these flies to breed is a moist film of fermenting material. Infestations can originate from over-ripened fruits or vegetables that were previously infested, and then brought into the home or from fruit over-ripening in the home. Since adults can also fly from the outside through screened doors or windows it can not always be assumed that the product in question was infested before it was brought into the home. The larvae are found on the inside layer of the fruit, just directly beneath the skin. If the outer layer of the fruit is removed, the rest of the fruit can be salvaged. Fruit flies are primarily a nuisance pest, yet they can infect food with bacteria and other organisms that cause diseases.

[edit] FDA Regulations

Defect action levels have been a part of the food industry for nearly a century. The first established defect action level was created in 1911 for mold in tomato pulp. However, limits for insect fragments and larvae were not added until the 1920's on various fruits and vegetables. In 1938, the Federal Food, Drug and Cosmetic Actwas established to provide a more defined reference based on strict limitations and methods.[13].

Major companies spend a large amount of money every year to aid in the prevention of food contamination. Most of these dollars are well-spent and do, in fact, prevent food from becoming contaminated on a large scale; however, there are many "defects" in consumers' meals on a daily basis. The Food and Drug Administration states, “it is economically impractical to grow, harvest, or process raw products that are totally free of non-hazardous, naturally occurring unavoidable defects”.[14]

The general public proposes that companies should use more chemicals or pesticides to control this “problem”. Though, the amount of pesticide and chemicals necessary to eradicate all insects from foodstuff would pose a threat to any human’s health; much more harmful than a controlled quantity of insect and rodent fragments. The Food Defect Action Levels, as proposed by the FDA, is a list of ordinances and guidelines manufacturers and industrial food agencies must abide to ensure the safe service of foodstuff. However, these detection levels are labeled with maximum limitations only. Due to the impossibility of preventing all unavoidable defects in foods, the FDA attempts to prevent these health hazards from reaching a harmful level. Therefore, it is understood and regarded that all manufactures are allowed to have low numbers of insect and rodent hairs present in food, as long as the product is still considered “safe” for human consumption. Shown below are a few examples taken from the FDA's Defect Action Level Handbook:


APPLE BUTTER Mold
(AOAC 975.51)		 Average of mold count is 12% or more
Rodent filth
(AOAC 945.76)		 Average of 4 or more rodent hairs per 100 grams of apple butter
Insects
(AOAC 945.76)		 Average of 5 or more whole or equivalent insects (not counting mites, aphids, thrips, or scale insects) per 100 grams of apple butter

DEFECT SOURCE: Mold - post harvest infection. Rodent hair - post harvest and/or processing contamination with animal hair. Whole or equivalent insects - preharvest, and/or post harvest and/or processing insect infestation,
SIGNIFICANCE: Aesthetic

 

CHOCOLATE AND CHOCOLATE LIQUOR Insect filth
(AOAC 965.38)		 Average is 60 or more insect fragments per 100 grams when 6

100-gram subsamples are examined
OR
Any 1 subsample contains 90 or

more insect fragments
Rodent filth
(AOAC 965.38)		 Average is 1 or more rodent hairs per 100 grams in 6 100-gram

subsamples examined
OR
Any 1 subsample contains 3 or more rodent

hairs
Shell
(AOAC 968.10-970.23)		 For chocolate liquor, if the shell is in excess of 2% calculated on the basis of alkali-free nibs

DEFECT SOURCE: Insect fragments - post harvest and/or processing insect infestation, Rodent hair - post harvest and/or processing contamination with animal hair or excreta, Shell - processing contamination
SIGNIFICANCE: Aesthetic

 

CITRUS FRUIT JUICES, CANNED Mold
(AOAC 970.75)		 Average mold count is 10% or more
Insects and insect eggs
(AOAC 970.72)		 5 or more Drosophila and other fly eggs per 250 ml or 1 or more maggots per 250 ml

DEFECT SOURCE: Mold - processing contamination, Fly eggs and/or maggots - post harvest insect infestation
SIGNIFICANCE: Aesthetic

 

CORNMEAL Insects
(AOAC 981.19)		 Average of 1 or more whole insects (or equivalent) per 50 grams
Insect filth
(AOAC 981.19)		 Average of 25 or more insect fragments per 25 grams
Rodent filth
(AOAC 981.19)		 Average of 1 or more rodent hairs per 25 grams
OR
Average of 1 or more rodent excreta fragment per 50 grams

DEFECT SOURCE: Insects and insect fragments - preharvest and/or post harvest and/or processing insect infestation, Rodent hair and excreta fragments - post harvest and/or processing contamination with animal hair or excreta
SIGNIFICANCE: Aesthetic

 

HOPS Insects
(AOAC 967.23)		 Average of more than 2,500 aphids per 10 grams

DEFECT SOURCE: Pre-harvest infestation
SIGNIFICANCE: Aesthetic

 

PEANUT BUTTER Insect filth
(AOAC 968.35)		 Average of 30 or more insect fragments per 100 grams
Rodent filth
(AOAC 968.35)		 Average of 1 or more rodent hairs per 100 grams
Grit
(AOAC 968.35)		 Gritty taste and water insoluble inorganic residue is more than 25 mg per 100 grams

DEFECT SOURCE: Insect fragments - preharvest and/or post harvest and/or processing insect infestation, Rodent hair - post harvest and/or processing contamination with animal hair or excreta, Grit - harvest contamination
SIGNIFICANCE: Aesthetic

 

PEPPER, GROUND Insect filth
(AOAC 972.40)		 Average of 475 or more insect fragments per 50 grams
Rodent filth
(AOAC 972.40)		 Average of 2 or more rodent hairs per 50 grams

DEFECT SOURCE: Insect fragments - post harvest and/or processing insect infestation, Rodent hair - post harvest and/or processing contamination with animal hair or excreta
SIGNIFICANCE: Aesthetic

 

WHEAT Insect damage
(MPM-V15)		 Average of 32 or more insect-damaged kernels per 100 grams
Rodent filth
(MPM-V15)		 Average of 9 mg or more rodent excreta pellets and/or pellet fragments per kilogram

DEFECT SOURCE: Insect damage - preharvest and/or post harvest and/or processing infestation, Excreta - post harvest and/or processing animal contamination.
SIGNIFICANCE: Aesthetic

 

WHEAT FLOUR Insect filth
(AOAC 972.32)		 Average of 75 or more insect fragments per 50 grams
Rodent filth
(AOAC 972.32)		 Average of 1 or more rodent hairs per 50 grams

DEFECT SOURCE: Insect fragments - preharvest and/or post harvest and/or processing insect infestation, Rodent hair - post harvest and/or processing contamination with animal hair or excreta.
SIGNIFICANCE: Aesthetic

[edit] Prevention and eradication

[edit] Prevention

To prevent the infestation of foodstuffs by pests of stored products, or “pantry pests”, a thorough inspection must be conducted of the food item intended for purchase at the supermarket or the place of purchase. The expiration date of grains and flour must also be noted, as products that sit undisturbed on the shelf for an extended period of time are more likely to become infested. This does not, however, exclude even the freshest of products from being contaminated. Packaging should be inspected for tiny holes that indicate that there might be an infestation. Foodstuffs susceptible to infestation in particular include dried grains, flour, cereals, and whole-grain products. If there is evidence of an insect infestation, the product should not be purchased. The store should be notified immediately, as further infestation must be prevented. Most stores have a plan of action for insect infestations. Bringing an infested product into a pantry or a home leads to a greater degree of infestation. In the home, putting cereal or grain type items in preventative containers will also help to prevent an infestation or the spread of insects from one product to another. Insects can chew through thin plastic, foil, cardboard and other packaging that the product is put in for resale; transferring purchased products into heavy glass containers that can be tightly sealed or heavy plastic containers can improve sanitation and prevent infestation. Using the oldest products first and buying grains and cereals in smaller quantities which can be used up quickly, depending on the size or intake of the family, decreases the chances of infestation. Fruit flies, however, present an entirely different approach to prevention. The primary method to controlling and eliminating fruit flies is to eradicate sources of attraction. Ripened produce should be either eaten, discarded, or refrigerated. Any fruit or vegetable that is damaged or cracked needs to be cut, and the damaged piece discarded in the case that larvae or eggs are present in the area in question. Careful attention must be paid to potential breeding sites that, when forgotten, could cause a massive infestation- all recycling and compost bins must be cleaned, and areas must be checked for forgotten, rotting fruit. Because of their small size, fruit flies are capable of breeding on the inside of the lid of a container. Therefore, it is imperative that when personally canning fruits or vegetables, beer, cider, or wine, that the container is well-sealed. Adults moths can lay eggs under the lid of a jar, allowing the larvae to crawl into the food source when hatched. Homeowners should also outfit their doors and windows with tight mesh screens that prevent the adult fruit flies from flying in from outdoors. Preventative methods and sanitation are the keys to avoiding an infestation or contamination of foodstuffs.[15][16]

[edit] Eradication

Although not seen when groceries are purchased, some products have the possibility of being infested prior to being placed in the pantry. A periodical check of susceptible foodstuffs is necessary, especially in summer months when most insects are more active. In the event that an infestation is discovered, steps must be taken to eradicate the insects. Controlling an infestation is a lengthy process and insects may be still be seen, albeit in dwindling numbers, for several weeks. All infested items, as well as noninfested items, must be removed from shelves, thoroughly cleaned and vacuumed. After vacuuming, the waste containing the infested material must be removed and discarded. Items should be checked for beetles, larvae, and pupa; it must be ensured that all food items are inspected as well, and special attention must be paid to items that have been rarely used. The infested items may either be discarded, heated or frozen to kill the insects. If the food is chosen to be discarded, the item must be completely removed from surrounding premises in order to prevent reinfestation. Freezing products for three to four days or heating them to about 130 to 140 degrees Fahrenheit for 30 to 40 minutes will rid the product of the pests. Decorative ornaments and objects made with plant material and seed located in the vicinity of stored products will increase the risk of reinfestation: insects can feed on those items until they locate stored products. These items should also be thrown out or eradicated by freezing or heating. Cleaning the area where the infested products were found is advisable, as well. Cleaning with bleach or ammonia, however, will not help with the eradication of the pests. Using a vacuum cleaner to clean the area thoroughly, especially in cracks and corners where insects may hide, will decrease the chances of reinfestation. Because food will be stored in that area again, pesticides are not a good method of eradication. Pesticides can leave a residue that can contaminate food products stored near it. Also, once a pest is inside the container the pesticides have no effect. If the infestation is so severe that pesticides are the only way to contain the problem, a professional should be contacted immediately. Do not try to apply pesticides to any area where food is stored for human or animal consumption. Contamination can occur and cause illness or more severe conditions. Proper storage and cleanliness are the only ways to prevent an infestation from occurring. Sanitation is the key to prevention and eradication of any pests. [15] [16]

[edit] Conclusion

If these insects are found infesting stored products, it is not practical to automatically assume the store or producer is at fault. Although some infestations are not the consumer's fault, producers are held by the FDA action defect levels to ensure their product does not contain more than the allotted amount of insects/insect fragments/larvae. If a stored product is found to be infested by insects, and it is suspected that someone other than the consumer is at fault, a forensic entomologist can be contacted to make a determination. Again, it should not be assumed that these are the only five insects found in a common household pantry, but due to the large number of infestations by these five major groups, it can be safely deduced that it is perhaps one of these five. Stored product entomology is an important forensic field that is important to not only the government and the FDA but the general public, as it is involved in the consumption of food in everyday life.


Other stored product pests:

  • Rice weevils -- Sitophilus oryzae
  • Maize weevil -- Sitophilus zeamais
  • Case-bearing moth -- Phereoeca fallax
  • Clothes moth -- Tineola bisselliella
  • Yellow meal worm -- Tenebrio molitor
  • Silverfish -- Lepisma saccharina
  • House cricket -- Acheta domesticus
  • Spider beetle -- Mezium americanum
  • Fur/Carpet beetle -- Attagenus pelio
  • Furniture beetle -- Anobium punctatum
  • Larder beetle -- Dermestes lardarius
  • Lesser grain beetle -- Rhyzopertha dominica

[edit] References

  1. ^ Lyon, William F.. Confused and Red Flour Beetles. Ohio State University Extension Fact Sheet. The Ohio State University. Retrieved on 2008-03-05.
  2. ^ "Team Contributes to Red Flour Beetle Genome Sequencing", Newswise, Kansas State University, 2008-03-23. Retrieved on 2008-03-23. 
  3. ^ Cabera, Brian J. (2007-10). drugstore beetle- Stegobium paniceum. University of Florida. The University of Florida. Retrieved on 2008-03-05.
  4. ^ Krischik, Vera: Stored Product Management; Stored-product Insects and Biological Control Agents, page 92. USDA-ARS and the University of Wisconsin, 1995
  5. ^ Saw-toothed Grain Beetle. Forest Health and Monitoring Division. Maine Department of Conservation (2007-04). Retrieved on 2008-03-05.
  6. ^ Krischik, Vera: Stored Product Management; Stored-product Insects and Biological Control Agents, page 90. USDA-ARS and the University of Wisconsin, 1995
  7. ^ Cranshaw, W. (2003-05). Indian Meal Moth. Colorado State University Extension- Horticulture. Colorado State University. Retrieved on 2008-03-05.
  8. ^ Karwath, Aka (2005-07-16). Fruit Flies. Wikipedia. Aka Karwath. Retrieved on 2008-03-12.
  9. ^ Potter, Michael F. (1994-01). Fruit Flies. University of Kentucky College of Agriculture. University of Kentucky College of Agriculture. Retrieved on 2008-03-05.
  10. ^ Krischik, Vera: Stored Product Management; Stored-product Insects and Biological Control Agents, page 93. USDA-ARS and the University of Wisconsin, 1995
  11. ^ Linda, Mason; Timothy Gibb. Stored Product Pests (PDF). Purdue Department of Entomology. Purdue University. Retrieved on 2008-03-12.
  12. ^ Principal Stored Grain Pests of Indiana (PDF). Purdue Department of Entomology. Purdue University (2000-06). Retrieved on 2008-03-12.
  13. ^ Bandler, Ruth (1984). "Defect Action Levels in Foods" Insect Management for Food Storage and Processing 25:330.
  14. ^ The Food Defect Action Levels Handbook. U.S. Food and Drug Administration: Center for Food Safety and Applied Nutrition. Retrieved on 2008-03-18.
  15. ^ a b Lewis, Donald (1995-08). Insect Pests of Stored Products. Iowa State University. University Cooperative Extension. Retrieved on 2008-03-02.
  16. ^ a b Ogg, Barb (2008-01). Pantry Pests. University of Nebraska-Lincoln. UNL Extension in Lancaster County. Retrieved on 2008-02-15.