Flour beetle explained

Flour beetles are members of several darkling beetle genera including Tribolium and Tenebrio. They are pests of cereal silos and are widely used as laboratory animals, as they are easy to keep. The flour beetles consume wheat and other grains, are adapted to survive in very dry environments, and can withstand even higher amounts of radiation than cockroaches.[1]

Red flour beetles infest multiple different types of products such as grains, cereals, spices, seeds, and even cake mixes. They are also very susceptible to insecticides, which makes their damage very impactful on the economy of milling industries.[2]  

The larvae of T. molitor, when full-grown, are known as mealworms; small specimens and the larvae of the other species are called mini mealworms.

Female reproduction is distributed over their adult life-span which lasts about a year. Flour beetles also display pre-mating discrimination among potential mates. Female flour beetles, specifically of T. castaneum, can mate with different males and may choose more attractive males over the course of their adult life-span.[3]

Description

Flour beetles are a reddish-brown, oval-shaped insect. They have clubbed antennae on their head. They range from around 1/8 to 3/16 inch. Tribolium castaneum, more commonly known as red flour beetles, are known to fly. Other species of flour beetles crawl. [4]

Selected species

Diet

Flour beetles consume a number of foods to survive. Flour beetles feed on many grain products, cereal, chocolate, and a number of powdered foods; including flour, spices, powdered milk mix, and pancake and cake mix.[5]

Flour beetles also consume their own kind and participate in cannibalism. However, it is not a biological characteristic. It is suggested that they partake in cannibalism considering it raises the fitness of flour beetles that are in a habitat of weak sustainability. Additionally, it is a form of parental care. Some species produce trophic eggs for their children to eat. Those that engage in cannibalism are normally adults or larvae that consume pupae or eggs. Eggs and pupae fall prey to the older flour beetles because they do not have defense mechanisms being so young. Furthermore, the eggs and pupae are easily digestible, making them susceptible to becoming prey. [6]

Distribution and habitat

In current day, Tribolium are more commonly found in stored food products. However, originally Tribolium lived under the bark of trees or in rotting wood. It is unknown of the exact time that flour beetles made the switch from bark to food products, but for as long as humans created grain piles, flour beetles have been using them as habitats. Tribolium confusum stem from Africa or Ethiopia. Tribolium castanuem originate in India. In present day, flour beetles are dispersed worldwide and do not reside in any specific country. [7]

Sexual selection and reproduction

Tribolium use chemical signals, more specifically a pheromone, 4,8-dimethyldecanal (DMD), to attract mates. DMD attracts both females and males. DMD is isolated from Tribolium castaneum, Tribolium confusum, Tribolium freemani, and Tribolium madens. Tribolium participate in ployandry and continually lay eggs. Female Tribolium employ cryptic choice and accept or reject male spermatophores. Females also adjust the amount of spermatophores they accept based on male phenotypes. More specifically, Tribolium casataneum females are more inclined to accept more spermatophores from male mates if they are reoccurring mates.[8]

Competition

An experiment done by Zane Holditch and Aaron D. Smith found that while there is competition among Tribolium species, the success of a species may depend on the timing of arrival and resources available.[9] Results demonstrate that when species were are simultaneously put together, Tribolium castaneum were competitively dominant. Tribolium castaneum grew larger populations than its competitors that were added later. Moreover, Tribolium castaneum thrived competitively from having early arrival in comparison to Tribolium confusum.

Research

In 2008, the Tribolium castaneum genome was sequenced by the Tribolium Genome Sequencing Consortium.[10]

Triboilum are easy to use for research because they have a high growth rate and they thrive very well in a simple flour culture.

[11]

Evolutionary and ecological research

Tribolium beetles have contributed to research for a long period of time. [12]

Tribolium experiments demonstrate that a multitude of factors determine success in colonization for any population. Experiments show that frequency and size, genetic and demographic processes, and individuals' relative fitness play a role in the success of colonizing populations.

Tribolium have also allowed researchers to gain a better understanding on the dynamics of population size.

See also

Notes and References

  1. Tuncbilek, A.S. . Ayvaz, A. . Öztürk, F. . Kaplan, B. . Gamma radiation sensitivity of larvae and adults of the red flour beetle, Tribolium castaneum Herbst. . Journal of Pest Science . 76 . 5 . 129–132 . 2003 . 10.1007/s10340-003-0002-9. 21344878 .
  2. Yao . Jianxiu . Chen . Chengyu . Wu . Hua . Chang . Jing . Silver . Kristopher . Campbell . James F. . Arthur . Frank H. . Zhu . Kun Yan . 2019-12-01 . Differential susceptibilities of two closely-related stored product pests, the red flour beetle (Tribolium castaneum) and the confused flour beetle (Tribolium confusum), to five selected insecticides . Journal of Stored Products Research . 84 . 101524 . 10.1016/j.jspr.2019.101524 . 0022-474X. free .
  3. Fedina . Tatyana Y. . Lewis . Sara M. . An integrative view of sexual selection in Tribolium flour beetles . Biological Reviews . 21 April 2018 . 83 . 2 . 151–171 . 10.1111/j.1469-185X.2008.00037.x. 18429767 . 9074999 .
  4. Web site: Flour Beetles . 2024-04-27 . extensionentomology.tamu.edu.
  5. Web site: Stored Product Pests Flour Beetles . U.S. Army Public Health Command . 27 April 2024.
  6. Alabi . Taofic . Michaud . J. P. . Arnaud . Ludovic . Haubruge . Eric . 2008 . A comparative study of cannibalism and predation in seven species of flour beetle . Ecological Entomology . en . 33 . 6 . 716–726 . 10.1111/j.1365-2311.2008.01020.x . 2097/13515 . 0307-6946. free .
  7. Dawson . Peter S. . 1977 . Life History Strategy and Evolutionary History of Tribolium Flour Beetles . Evolution . 31 . 1 . 226–229 . 10.2307/2407562 . 2407562 . 28567733 . 0014-3820.
  8. Fedina . Tatyana Y. . Lewis . Sara M. . 2008 . An integrative view of sexual selection in Tribolium flour beetles . Biological Reviews . en . 83 . 2 . 151–171 . 10.1111/j.1469-185X.2008.00037.x . 1464-7931.
  9. Holditch . Zane . Smith . Aaron D. . 2020-07-09 . Priority determines Tribolium competitive outcome in a food-limited environment . PLOS ONE . en . 15 . 7 . e0235289 . 10.1371/journal.pone.0235289 . free . 1932-6203 . 7347400 . 32645709.
  10. Schröder, R. . 2008 . The genome of the model beetle and pest Tribolium castaneum . Nature . 452 . 7190 . 949–955 . 10.1038/nature06784 . 18362917 . 2008Natur.452..949R . free .
  11. Web site: Shanholtzer, S. . Lumsden, A.S. . K. McMahon . Using Flour Beetles (Tribolium confusum) in Population Growth Studies. Tested Studies for Laboratory Teaching Proceedings of the 33rd Conference of the Association for Biology Laboratory Education (ABLE), 390 pages. 33 . www.ableweb.org.
  12. Pointer . Michael D. . Gage . Matthew J. G. . Spurgin . Lewis G. . 2021 . Tribolium beetles as a model system in evolution and ecology . Heredity . en . 126 . 6 . 869–883 . 10.1038/s41437-021-00420-1 . 1365-2540. 8178323 .