common name: confused flour beetle
scientific name: Tribolium confusum Jacquelin du Val (Insecta: Coleoptera: Tenebrionidae)
common name: red flour beetle
scientific name: Tribolium castaneum (Herbst) (Insecta: Coleoptera: Tenebrionidae)
Red and confused flour beetles attack stored grain products such as flour, cereals, meal, crackers, beans, spices, pasta, cake mix, dried pet food, dried flowers, chocolate, nuts, seeds, and even dried museum
specimens (Via 1999, Weston and Rattlingourd 2000). These beetles have chewing mouthparts, but do not bite or sting. The red flour beetle may elicit an allergic response (Alanko et al. 2000), but is not
known to spread disease and does not feed on or damage the structure of a home or furniture. These beetles are two of the most important pests of stored products in the home and grocery stores. The confused flour beetle apparently received this name due to confusion over about its identity as it is so similar to the red flour beetle at first glance (Walter).
The red flour beetle is of Indo-Australian origin (Smith and Whitman) and is found in temperate areas, but will survive the winter in protected places, especially where there is central heat (Tripathi et al. 2001). In the United States, it is found primarily in the southern states. The confused flour beetle, originally of African origin, has a different distribution in that it occurs worldwide in cooler climates. In the United States it is more abundant in the northern states (Smith and Whitman).
Although small beetles, about 1/4 of an inch long, the adults are long-lived and may live for more than three years (Walter).
adults, dorsal view
relative size
The red flour beetle is reddish-brown in color and its antennae end in a three-segmented club
(Bousquet 1990). Whereas the confused flour beetle is the same color but its antennae end is gradually club-like, the "club" consisting of four segments (Walter).
antennal clubs
The head of the red flour beetle is visible from above, does not have a beak and the thorax has slightly
curved sides. The confused flour beetle is similar, but the sides of the thorax are more parallel (Anonymous 1986).
comparison of red and confused flour beetles
These two beetles are in the family Tenebrionidae and have a tarsal formula of 5-5-4 and notched eyes.
legs and tarsi
notched eye
The red and confused flour beetles live in the same environment and compete for resources (Ryan et al. 1970, Willis and Roth 1950). The red flour beetle may fly, especially before a storm, but the confused flour beetle does not fly. Eggs, larvae, and pupae from both species are very similar and are found in similar environments (Ryan et al. 1970). The eggs are white, microscopic and often have bits of flour stuck to their surface. The slender larvae are creamy yellow to light brown in color. They have two dark pointed projections on the last body segment.
Flour beetle larva.
larva
The pupae are lighter in color, being white to yellowish.
pupa
These beetles can breed throughout the year in warm areas. The life cycle takes from 40 to 90 days,
and the adult can live for three years. All forms of the life cycle may be found in infested grain products
at the same time.
life cycle
The red and confused flour beetles may be present in large numbers in infested grain, but are unable to attack sound or undamaged grain (Walter). The adults are attracted to light, but will go towards cover when disturbed. Typically, these beetles can be found not only inside infested grain products, but in cracks and crevices where grain may have spilled. They are attracted to grain with high moisture content and can cause a grey tint to the grain they are infesting. The beetles give off a displeasing odor, and their presence encourages mold growth in grain.
The first step in managing an infestation is to find and remove the source of the infestation (Koehler
2003). Flour beetles can feed and survive on even the smallest bits of grain, so cleaning is a crucial part of controlling these pests. When attempting to locate the source, be sure to consider all likely food items including, dry pet food, dried flowers, nuts, birdseed, and all grain products. Be sure to look for "leaky packages." Small bits of meal or grain spilling from a package are often a signal that an infestation is present (Arbogast et al. 2000). Be sure to locate all infested material and discard it by placing the material into a sealed bag or container and throwing it into an outside garbage container. You may also place the infested material into a freezer for four to five days. These beetles may survive freezer times shorter than this.
damage
Keep in mind that these beetles may infest areas other than the pantry. Be sure to inspect spices, pet food, and flower arrangements. Also keep in mind that some stuffing in furniture or stuffed animals may have natural products that these beetles could feed on. Also be aware of areas in which any of these products may have spilled, like under the refrigerator or stove. These beetles are able to locate very small bits of food. Once all of the infested material has been removed, be sure to vacuum and clean up the area around the infestation. If you have shelf paper, it would be wise to remove it, thoroughly clean under it with soap and hot water, and replace it with new paper. Be sure to pay close attention to the cracks and crevices of any cabinets. To prevent re-infestation, all grain products should be stored in containers with tight fitting lids, or stored in the freezer. Also consider where the infestation came from. It is likely that you could have a re-infestation by purchasing infested grain products from the same business. When shopping, look for those "leaky packages". If you suspect a beetle infestation, don't buy the product.
Insect Management Guide for stored product pests
Insect Management Guide for stored grain pests
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Authors: Rebecca Baldwin and Thomas R. Fasulo, University of Florida.
Photographs and illustrations: Rebecca Baldwin and Andrew Koehler, University of Florida; USDA; and University of Nebraska - Lincoln
Project Coordinator: Thomas R. Fasulo, University of Florida
Publication Number: EENY-289
Publication Date: June 2003. Latest revision: November 2007.
Copyright 2003-2007 University of Florida
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