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Titan beetle

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Titan beetle
Titanus giganteus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Family: Cerambycidae
Subfamily: Prioninae
Tribe: Prionini
Genus: Titanus
Audinet-Serville, 1832
Species:
T. giganteus
Binomial name
Titanus giganteus
(Linnaeus, 1771)
Synonyms

(Genus)

  • Percnopterus Gistel, 1848

(Species)

  • Cerambyx giganteus Linnaeus, 1771
  • Prionus giganteus
  • Percnopterus giganteus

The titan beetle (Titanus giganteus) is a Neotropical longhorn beetle, the sole species in the genus Titanus, and one of the largest known beetles, as well as one of the largest known insects, at over 170 mm (6.7 in) in length. Adult titan beetles only live for a few weeks, and protect themselves from predators with their sharp spines and powerful jaws.[1]

Distribution and habitat

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The titan beetle is native to tropical rainforests throughout South America, including Venezuela, Colombia, Ecuador, Peru, the Guianas, and north-central Brazil. While the Titan Beetle is most generally associated with the Amazon Rainforest, it may also be found in other parts of South America if ecological conditions are favorable. This comprises sections of the Atlantic Forest in Brazil, the Orinoco Basin in Venezuela, and the Chocó-Darién region in Colombia.[2]

These beetles are primarily found in old-growth forests with plenty of rotting wood, which serves as their principal food supply.[3] They can, however, be found in secondary forests and disturbed habitats where sufficient circumstances for survival exist.[3]

Despite their broad distribution throughout South America, the titan beetle is secretive and rarely seen due to its nocturnal habits and cryptic behavior. As a result, thorough surveys and research are required to acquire a better knowledge of its distribution throughout its range, as well as population dynamics within various forest habitats. However, like many other species that live in tropical rainforests, the titan beetle is threatened by habitat degradation, deforestation, and climate change, all of which can have a substantial influence on its distribution and population levels. Conservation activities focused at maintaining their natural habitats are therefore critical for assuring their continued survival.[2]

Anatomy and physiology

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Titanus giganteus is known for being one of the largest beetles, spanning over 170 mm (6.7 in). Though great in size, studies have shown that within the family Cerambycidae, they have exceptionally short hind wings. Additionally, the hind wings are not present in females, indicating that they are incapable of flight.[4]

Titan beetles have compound eyes (an eye consisting of an array of numerous small visual units), with hundreds of hexagonal facets covering the central region of the eye and the periphery being covered by pentagonal or squares.[5]

Unique to Titanus giganteus, there exists a distinct row of proprioceptive hairs that is visible on the anterior edge of the prothorax. The hairs have a mechanoreceptive function, detecting changes to the body surface to assess the environment.[4]

Their antennae have sensilla which provide sensory information about the environment. There are different types of sensilla, e.g. coeloconic sensilla and sensilla trichoidea, detecting different stimuli. The reproductive system of the titan beetle is very similar to other species within the subfamily Prioninae, with the pupal testis consisting of 12 to 15 lobes each containing 15 follicles.[4] One unusual characteristic regarding the reproductive anatomy of titan beetles is the variation in follicle size. Titan beetles with larger follicles were seen to have greater rates of spermatogenesis. The mechanism for such variation is unknown.

Size

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Insect size is constrained by the amount of air that can be supplied via their respiratory system.[6] The respiratory system of insects is different from mammals, as gas exchange involves tracheal tubes delivering oxygen directly to tissues throughout the beetle's body, instead of having oxygen carried by blood. The constraint on the diffusion of oxygen into the tracheal system limits the maximum body size attainable, as there will be a point where some tissues in the body will not receive oxygen at all.

Microbiome

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Because adult titan beetles do not feed, it is interesting that the very narrow gut microbiota show no activity of proteases, despite there being recorded activity of digestive amylase and lipase activity.[4] Digestive amylase, lipase, and protease in human and other animal organisms are responsible for breaking down food proteins into amino acids for absorption. There is no fat surrounding the gut of T. giganteus, which differs from other Prioninae. It is suggested that the metabolic rate could differ, such that adult titan beetles exhaust all of their fat reserves faster than related beetles. Liquid chromatography-mass spectrometry analysis indicated that 70 percent of the lipids were triacylglycerols. These lipids were found only in the flight muscles, in which the fat reserves were used to provide energy for muscle activity. Within the triacylglycerols, it was found oleic acid is the most abundant.

Ecology and behavior

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Diet

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Even though the Cerambycidae family is known to utilize a plant diet for sustenance, the Priorinae subfamily does not accept any food with the exception of water. Reflected in their anatomy, titan beetles do not have all the digestive enzymes and fat reserves needed to consume food on a daily basis. Rather when the titan beetles are larvae, they ingest dead wood and plants infested by fungi.[4] This initial caloric intake is meant to last the lifetime of the beetle. Their dietary habits as larvae contribute to the recycling of dead plants in the ecosystem, converting decayed matter into humus.

The subfamily Priorinae of titan beetles are known as gall-inducing insects. Galls, which are abnormal growths in plants, are a byproduct of plant consumption. These galls are used as nests for many insects, including beetles.[7]

Mating

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Because of the short life span of the titan beetle, little is concretely known about their mating behavior. We do know that titan beetles locate their mates by sensing pheromones.[1] In the field of coleopterology the larvae of titan beetles have yet to be found. This makes witnessing the life cycle and reproduction of titan beetles very difficult.

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See also

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References

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  1. ^ a b Institution, Smithsonian. "Titan Beetle". Smithsonian Institution. Retrieved 2024-03-01.
  2. ^ a b Sr, Todd Sain (2017-04-26). "Titan Beetle". Our Breathing Planet. Retrieved 2024-04-26.
  3. ^ a b "10 Titan Beetle Facts". Fact Animal. Retrieved 2024-04-26.
  4. ^ a b c d e Dvořáček, Jiří; Sehadová, Hana; Weyda, František; Tomčala, Aleš; Hejníková, Markéta; Kodrík, Dalibor (February 2020). "First Comprehensive Study of a Giant among the Insects, Titanus giganteus: Basic Facts from Its Biochemistry, Physiology, and Anatomy". Insects. 11 (2): 120. doi:10.3390/insects11020120. ISSN 2075-4450. PMC 7073837. PMID 32059419.
  5. ^ Makarova, Anastasia A.; Meyer-Rochow, V. Benno; Polilov, Alexey A. (2019-01-01). "Morphology and scaling of compound eyes in the smallest beetles (Coleoptera: Ptiliidae)". Arthropod Structure & Development. Special Issue: Miniaturization in Panarthropoda. 48: 83–97. Bibcode:2019ArtSD..48...83M. doi:10.1016/j.asd.2019.01.001. ISSN 1467-8039. PMID 30625373. S2CID 58572480.
  6. ^ Lighton, John R. B. (2007-11-20). "Respiratory Biology: They Would Be Giants". Current Biology. 17 (22): R969–R971. Bibcode:2007CBio...17.R969L. doi:10.1016/j.cub.2007.09.019. ISSN 0960-9822. PMID 18029253.
  7. ^ "Biology, Ecology, and Evolution of Gall-inducing Coleoptera". Retrieved March 1, 2024.
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