Tiger beetle

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Tiger beetles are a family of beetles, Cicindelidae, known for their aggressive predatory habits and running speed. The fastest known species of tiger beetle, Rivacindela hudsoni, can run at a speed of 9 km/h (5.6 mph; 2.5 m/s), or about 125 body lengths per second.[2] As of 2005, about 2,600 species and subspecies were known, with the richest diversity in the Oriental (Indo-Malayan) region, followed by the Neotropics.[3] While historically treated as a subfamily of ground beetles (Carabidae) under the name Cicindelinae, several studies since 2020 indicated that they should be treated as a family, the Cicindelidae, which are a sister group to Carabidae within the Adephaga.[4]

Tiger beetle
Temporal range: Aptian–Recent
Lophyra sp. in Tanzania
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Superfamily: Caraboidea
Family: Cicindelidae
Latreille, 1802
Tribes[1]
Synonyms
  • Cicindelinae Latreille, 1802

Description

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Tiger beetles often have large bulging eyes, long, slender legs and large curved mandibles. All are predatory, both as adults and as larvae. The genus Cicindela has a cosmopolitan distribution. Other well-known genera include Tetracha, Omus, Amblycheila and Manticora. While members of the genus Cicindela are usually diurnal and may be out on the hottest days, Tetracha, Omus, Amblycheila and Manticora are all nocturnal. Both Cicindela and Tetracha are often brightly colored, while the other genera mentioned are usually uniform black in color. Tiger beetles in the genus Manticora are the largest in size of the family. These live primarily in the dry regions of southern Africa.[5]

The larvae of tiger beetles live in cylindrical burrows as much as a meter deep.

Tiger beetle larva repairing its shaft

The grubs have a large head, armored on top with up to six small eyes and formidable mandibles beneath. There is a prominent hump on the top of their fifth abdominal segment with two pairs of reverse pointing hooks to anchor then in their burrow with their head filling the burrow and flush with the surface. They wait for prey to come too close, attempt to grab and pull them down their shaft. The hump and hooks prevent struggling prey from pulling them out of their shaft.

Tiger beetle larvae attempting to catch prey

The fast-moving adults run down their prey and are extremely fast on the wing, their reaction times being of the same order as that of common houseflies.

Six-spotted tiger beetle adults including a pair

Some tiger beetles in the tropics are arboreal, but most run on the surface of the ground. They live along sea and lake shores, on sand dunes, around playa lakebeds and on clay banks or woodland paths, being particularly fond of sandy surfaces.[6]


Tiger beetles are considered a good indicator species and have been used in ecological studies on biodiversity.[7][8] Several species of wingless parasitic wasps in the genus Methocha (family Thynnidae), lay their eggs on larvae of various Cicindela spp., such as Cicindela dorsalis.[9]

Adaptations

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Tiger beetles display an unusual form of pursuit in which they alternatively sprint quickly toward their prey, then stop and visually reorient. This may be because while running, the beetle is moving too fast for its visual system to accurately process images.[2] To avoid obstacles while running they hold their antennae rigidly and directly in front of them to mechanically sense their environment.[10] There are many tiger beetles that hunt in flat, sandy areas, and their eyes have flat-world adaptations, such as high-acuity perception streaks corresponding to the horizon. A tiger beetle uses the elevation of its potential prey in its visual field to determine how far away it is. As visual hunters, tiger beetles tend to hunt in open, relatively flat habitats, such as sand bars, woodland paths, and barren ground scrubland. In this sense, beetles might be expected to use elevation as a distance cue in their visual pursuit of prey.[11] A few species of Cicindela have been found to be able to hunt without use of their eyes and several are crepuscular.[12]

Several species have been found to be sensitive to ultrasound and also produce ultrasound in response to bats and are thought to be Batesian mimics, imitating the sounds of toxic moths that are avoided by bats.[13]

Fossil record

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The oldest fossil tiger beetle yet found, Cretotetracha grandis, comes from the Yixian Formation in Inner Mongolia, China, and dates to the early Cretaceous Period, 125 million years ago. Most fossils found are grey or yellow silty mudstone.[14] Traits that identify Cretotetracha as Cicindelinae include long mandibles shaped like sickles, simple teeth arranged along the mandible's inner surface, antennae that attach to the head between the base of the mandibles and the eye. The left mandible is approximately 3.3 mm and the right mandible is approximately 4.2mm long. A long body form roughly around 8.1mm where the combined eyes and head are wider than the thorax, and long running legs.[14] Previously known Mesozoic fossils of tiger beetles have been described from the Crato Formation, about 113 million years ago[14] and Oxycheilopsis cretacicus from the Santana Formation, 112 million years ago,[15] both in Brazil.

Taxonomy

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Tiger beetles had been treated either as a family Cicindelidae or as the subfamily Cicindelinae[16] of the Carabidae (ground beetles) but since 2020, there has been growing evidence for the treatment as a separate family, that is sister to the Carabidae.[4] Many genera are the result of the splitting of the large genus Cicindela, and many were described by the German entomologist Walther Horn.[4][17][1]

Genera

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Citations

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  1. ^ a b Duran, Daniel P.; Gough, Harlan M. (2020). "Validation of tiger beetles as distinct family (Coleoptera: Cicindelidae), review and reclassification of tribal relationships". Systematic Entomology: syen.12440. doi:10.1111/syen.12440. ISSN 0307-6970.
  2. ^ a b Friedlander, Blaine (1998-01-16). "Cornell News, Jan. 16, 1998 When tiger beetles chase prey at high speeds they go blind temporarily, Cornell entomologists learn". News.cornell.edu. Retrieved 2020-10-26.
  3. ^ Pearson, D.L. & F. Cassola, 2005
  4. ^ a b c Vasilikopoulos, Alexandros; Balke, Michael; Kukowka, Sandra; Pflug, James M.; Martin, Sebastian; Meusemann, Karen; Hendrich, Lars; Mayer, Christoph; Maddison, David R.; Niehuis, Oliver; Beutel, Rolf G.; Misof, Bernhard (October 2021). "Phylogenomic analyses clarify the pattern of evolution of Adephaga (Coleoptera) and highlight phylogenetic artefacts due to model misspecification and excessive data trimming". Systematic Entomology. 46 (4): 991–1018. doi:10.1111/syen.12508. ISSN 0307-6970.
  5. ^ Pearson, David L. (2001). Tiger beetles : the evolution, ecology, and diversity of the cicindelids. Ithaca: Comstock Publishing Associates. p. 261. ISBN 0801438829.
  6. ^ Werner, K. 2000
  7. ^ Rodríguez, Jon Paul; Pearson, David L.; Barrera, Roberto R. (1998). "A test for the adequacy of bioindicator taxa: Are tiger beetles (Coleoptera: Cicindelidae) appropriate indicators for monitoring the degradation of tropical forests in Venezuela?". Biological Conservation. 83 (1): 69–76. doi:10.1016/S0006-3207(97)00017-7. ISSN 0006-3207.
  8. ^ Carroll, Steven S.; Pearson, David L. (1998). "SPATIAL MODELING OF BUTTERFLY SPECIES RICHNESS USING TIGER BEETLES (CICINDELIDAE) AS A BIOINDICATOR TAXON". Ecological Applications. 8 (2): 531–543. doi:10.1890/1051-0761(1998)008[0531:SMOBSR]2.0.CO;2. ISSN 1051-0761.
  9. ^ Burdick, D.J. and Wasbauer, M.S. (1959). "Biology of Methocha californica Westwood (Hymenoptera: Tiphiidae)." Wasmann Jour. Biol. 17:75-88. Department of Environmental Conservation
  10. ^ "Blinded by speed, tiger beetles use antennae to 'see' while running". ScienceDaily. Retrieved 2020-10-26.
  11. ^ Layne, J. E., Chen, P. W., & Gilbert, C. (2006). The role of target elevation in prey selection by tiger beetles (Carabidae: Cicindela spp.). Journal of Experimental Biology, 209(Pt 21), 4295–4303.
  12. ^ Riggins, John J.; Hoback, W. Wyatt (2005). "Diurnal Tiger Beetles (Coleoptera: Cicindelidae) Capture Prey Without Sight". Journal of Insect Behavior. 18 (3): 305–312. doi:10.1007/s10905-005-3691-5. ISSN 0892-7553.
  13. ^ Gough, Harlan M.; Rubin, Juliette J.; Kawahara, Akito Y.; Barber, Jesse R. (2024). "Tiger beetles produce anti-bat ultrasound and are probable Batesian moth mimics". Biology Letters. 20 (5). doi:10.1098/rsbl.2023.0610. ISSN 1744-957X. PMC 11285850.
  14. ^ a b c Zhao, Xiangdong; Zhao, Xianye; Chen, Lei; Wang, Bo (2019). "The earliest tiger beetle from the Lower Cretaceous of China (Coleoptera: Cicindelinae)". Cretaceous Research. 94: 147–151. doi:10.1016/j.cretres.2018.10.019. S2CID 134441297.
  15. ^ Gough, Harlan M.; Duran, Daniel P.; Kawahara, Akito Y.; Toussaint, Emmanuel F.A. (2018). "A comprehensive molecular phylogeny of tiger beetles (Coleoptera, Carabidae, Cicindelinae)". Systematic Entomology. 44 (2): 1–17. doi:10.1111/syen.12324. S2CID 54046862.
  16. ^ Gough, Harlan M.; Duran, Daniel P.; Kawahara, Akito Y.; Toussaint, Emmanuel F.A. (2019). "A comprehensive molecular phylogeny of tiger beetles (Coleoptera, Carabidae, Cicindelinae): Molecular phylogeny of Cicindelinae". Systematic Entomology. 44 (2): 305–321. doi:10.1111/syen.12324. S2CID 54046862.
  17. ^ Baca, Stephen M.; Gustafson, Grey T.; Alexander, Alana M.; Gough, Harlan M.; Toussaint, Emmanuel F. A. (October 2021). "Integrative phylogenomics reveals a Permian origin of Adephaga beetles". Systematic Entomology. 46 (4): 968–990. doi:10.1111/syen.12506. ISSN 0307-6970. S2CID 237486703.

General and cited references

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  • "Further new country records of African Tiger Beetles with some taxonomical note (Coleoptera, Cicindelidae)" by Peter Schüle. Entomologia Africana 15(2), 2010.
  • The Tiger beetles of Africa by Karl Werner, Taita Publishers 2000.
  • "A Quantitative Analysis of Species Descriptions of Tiger Beetles (Coleoptera Cicindelidae), from 1758 to 2004, and Notes about Related Developments in Biodiversity Studies" by D.L. Pearson and F. Cassola. The Coleopterists Bulletin Vol 59, no. 2, June 2005.
  • Tiger Beetles of Alberta: Killers on the Clay, Stalkers on the Sand by John Acorn. University of Alberta Press, 2001.
  • Tiger Beetles: The Evolution, Ecology, and Diversity of the Cicindelids by David L. Pearson and Alfried P. Vogler. Cornell University Press, 2001.
  • A Field Guide to the Tiger Beetles of the United States and Canada by David L. Pearson, C. Barry Knisley and Charles J. Kazilek. Oxford University Press, 2005.
  • The Beetles of the World, volume 13 Archived 2010-08-05 at the Wayback Machine, volume 15 Archived 2010-08-05 at the Wayback Machine, volume 18 Archived 2010-10-06 at the Wayback Machine, and 20 volume 20 by Karl Werner, Sciences Nat, Venette, 1991, 1992, 1993 & 1995.
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