thumb|Mealworms, larvae of Tenebrio molitor, illustrated by [[Des Helmore]]

Mealworms are the larval form of the yellow mealworm beetle, Tenebrio molitor, a species of darkling beetle.

The yellow mealworm beetle prefers a warmer climate and higher humidity. Male mealworm beetles release a sex pheromone to attract females to mate. with larvae up to long and adults up to long.

The yellow mealworm beetle can be differentiated from other beetles, due to the linear grooves that are evenly divided and run along the abdomen. The beetle has only four tarsal segments on its hind legs. Most ground beetles, which are similar in size to Tenebrio molitor, have five tarsal segments.

Life cycle

The eggs hatch 4 to 19 days after the female oviposits.

The body length of the larvae gradually increases with each successive instar, reaching maximum length at the 17th instar. The body length decreases beyond the 17th instar. Pupation occurs after the 14th instar, with most larvae showing total pupation between the 15th and 17th instars. Larvae are white in the first instar and gradually turn brown after the second instar. Another study found that at 20°, 25°, and 30 °C, parental age does not have any effect on the duration of the egg stage, or the weights of the eggs.

However, the amount of hatched eggs decreased when parental age increased. When eggs were laid during the first two months after emergence, approximately 90% of the eggs hatched. When they were laid after four months, only about 50% hatched. Inbreeding reduces the attractiveness of sexual pheromone signaling by male mealworm beetles. Females are more attracted to the odors produced by outbred males than the odors produced by inbred males. The reduction of male signaling capability may be due to increased expression of homozygous deleterious recessive alleles, caused by inbreeding.

The mealworm beetle breeds prolifically. Males insert sperm packets with their aedeagus. Within a few days, the female burrows into soft ground and lays eggs. Over her adult lifespan of about 6–12 months, a female will, on average, lay about 500 eggs.

Mating

Researchers examined whether female beetles preferred males infected by the tapeworm Hymenolepis diminuta as mates, or noninfected males. Virgin females were found to spend more time near — and to copulate more often with — noninfected males in the experiment. Mating behavior was also found to be influenced by the mass of the male beetle. A larger male was preferred and mated with first compared to a smaller male mate. Overall, female beetles showed mating preferences for noninfected males who were larger in size. One explanation provided by researchers for this finding is that larger, noninfected males may allow females to gain genetic or material benefits.

Immunocompetence

Evidence suggests that in many animal species, secondary sexual traits reflect male immunocompetence, the ability of an individual's immune system to resist and control pathogens or parasites. A study found that a single parasite-like immunological challenge, created via a nylon monofilament implant in the beetle, significantly reduced the sexual attractiveness and locomotor activity of males, but did not negatively affect their survival. When the inserts were removed, the majority of the males showed greater encapsulation responses of the implant, though some of the males seemed to have already chosen a terminal reproductive investment strategy. And thus, the majority of males invest in their immune system after the first challenge.

A second immune challenge increased their attractiveness, but was found to significantly reduce locomotor activity of the males and increase their mortality. This represents a trade-off between pheromone production and energy required for activities such as immune system recovery and locomotor activity. Phenoloxidase activity was dependent on the nutritional condition of the males, with phenoloxidase activity being two to six times higher in males with constant food, than in males who received no food. However, nutritional conditions had no effect on the encapsulation rate of the males.

Behavioral immunity

When the mealworms feed on infected rodent feces, they may consume the eggs of the parasitic tapeworm Hymenolepis diminuta. Infected male beetles pay a higher reproductive cost than the female beetles. T. molitor displays behavioral immunity when exposed to H. diminuta, shown by how the infected males develop an avoidance behavior for feces that harbor the tapeworm, which decreases their probability of coming into contact with the tapeworm in the future.

There were no effects of gender on the immune traits. Cuticular color is dependent on melanin production, which requires phenoloxidase, an enzyme that is present in its inactive form inside haemocytes. This shows why darker insects have a heightened immune response and are more resistant to pathogens that invade the hemocoel via the cuticle. However, there was no significant difference in haemolymph antibacterial activity between black and tan lines, explained by how antimicrobial peptides are produced by haemocytes but are not involved in cuticular darkening. For example, if the beetles were previously fed a protein-rich, carbohydrate-deficient diet, they would prefer carbohydrates to protein, whereas beetles fed a carbohydrate-rich, protein-deficient diet, they would strongly prefer a protein-rich diet. They found that self-selecting T. molitor beetles recovered from carbohydrate or protein deficiency within six days by selecting the complementary diet.

By comparing this to the bacterial communities found in other insects, it was found that the Spiroplasma species found were specific to T. molitor. The gut bacteria community structure was not significantly affected by the presence of antibiotics or by the exposure of the beetle larvae to a more highly diverse soil bacteria community. There is a negative relationship between bacterial diversity and ampicillin concentration, meaning ampicillin treatment caused a reduction in the bacterial community size, which was determined with pyrosequencing of the 16S rRNA gene, and no negative relationship when kanamycin was added.

They are commercially available in bulk and are typically available in containers with bran or oatmeal for food. Commercial growers incorporate a juvenile hormone into the feeding process to keep the mealworm in the larval stage and achieve an abnormal length of 2 cm or greater.

As livestock feed

Mealworm has been investigated as a potential ingredient in livestock feed due to its high protein content and balanced amino acid profile, making it nutritionally suitable as a substitute for conventional protein sources such as fish meal or soybean meal. Although they can be raised in small spaces suitable for industrial production, life cycle assessment studies have shown that mealworm protein performs worse than soybean or fish meal protein in terms of energy use, greenhouse gas emissions, acidification and eutrophication.

As food

thumb|Mealworms in a bowl

Mealworms are edible for humans, and are processed into various food products available in food retail, including insect burgers. However, most insect-based foods are limited to snacks and protein bars, which are not intended to replace traditional meat consumption.

Due to their high protein and fat content, as well as large amounts of fiber, they represent a good food source for humans. They are rich in oleic acid, which may decrease low-density lipoprotein (LDL) and increase high-density lipoprotein (HDL) levels in the blood. However, recent research has found that cultural attitudes and widespread disgust toward eating insects, particularly in Western countries, make it unlikely that insects will significantly replace meat in human diets.

In May 2017, mealworms were approved as food in Switzerland. In June 2021, dried mealworms were authorized as novel food in the European Union, after the European Food Safety Authority assessed the larvae as safe for human consumption.

Mealworm larvae contain significant nutrient content. Mealworm larvae contain levels of potassium, copper, sodium, selenium, iron and zinc that rival those of beef. Mealworms contain essential linoleic acids. They have a greater vitamin content by weight compared to beef, B12 not included.

Mealworms may be easily reared on fresh oats, wheat bran or grain, with sliced potato, carrots, or apple as a moisture source. The small amount of space required to raise mealworms has made them relevant for scalable industrialized mass production. But mealworm farming presents many challenges, including machinery clogging caused by the extremely fatty Tenebrio molitor larvae, as noted in the industrial-scale operations of Ynsect.

Possible health risks

Some evidence suggests that T. molitor may pose a health risk, as humans and animals can consume the eggs and larvae of the beetle with grain-based food. Although they are usually either digested or are excreted with feces, sometimes, they are able to survive and live in the alimentary tract. The first cases of T. molitor larvae in human organs date back to the 19th century, where their presence was observed in the gastrointestinal tract, including the stomach and intestines. There were other cases, such as a reported ulcer infestation of T. molitor in an AIDS patient and a concerned urinary canthariasis in a ten year old boy in Iran in 2019, which was the last reported human case of canthariasis caused by T. molitor. However, there are very few reported cases of live larvae in animals, and there are no reports of gastrointestinal canthariasis in farm animals.

In waste disposal

In 2015, it was discovered that 100 mealworms can degrade polystyrene into usable organic matter at a rate of about 34–39 milligrams per day. No difference was found between mealworms fed only Styrofoam and the mealworms fed conventional foods, during the one-month duration of the experiment. Microorganisms inside the mealworm's gut are responsible for degrading the polystyrene, proven by reducing the property of degradation when mealworms were given gentamicin. Isolated colonies of the mealworm's gut microbes, however, have proven less efficient at degradation than the bacteria within the gut.

  • Plastivore

<gallery>

Mealworms in plastic container of bran.jpg|In a bedding of bran

Mehlwurmmakro 2.jpg|Mealworm detail

MealwormPupa.jpg|A mealworm pupa with molted larval skin

Tenebrio molitor MHNT Fronton.jpg|New adult

Tenebrio molitor 01.JPG|Mature adult

</gallery>

References

  • Darkling Beetle/Mealworm Information. Center for Insect Science Education Outreach. University of Arizona.
  • Mealworms and Darkling Beetles (Tenebrio beetle). FOSSweb.