Helms's stag beetle
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Family: Lucanidae
Genus: Geodorcus
Species:
G. helmsi
Binomial name
Geodorcus helmsi
(Sharp, 1881) [1]
Synonyms[2]
  • Lissotes aemulus Broun, 1893
  • Lissotes acmenus Lewis, 1903

Geodorcus helmsi, New Zealand giant stag beetle or Helms's stag beetle is a large, slow-moving, flightless stag beetle in the family Lucanidae.[3] It is endemic to New Zealand.

Description

Geodorcus helmsi varies in colour from black to brownish-black. Its dorsal surface can vary from dull to glossy. Like other stag beetles, they show sexual dimorphism: males range in size from 17.5–44.0 mm, including their large mandibles, while females are smaller (16.5–27.5 mm) with less conspicuous mandibles. In larger male specimens, the mandibles are long, slender and strongly arched with a conspicuous tooth near their base. G. helmsi is distinguished from other Geodorcus by its straight un-arched tibiae, and five setose ridges on the elytra.[4]

Distribution

Geodorcus helmsi is the most widespread of the ten Geodorcus species, having been collected from Karamea on the northern West Coast of New Zealand to the south of the South Island, as far as Tapanui in West Otago. It has also been collected from islands in Fiordland and from Stewart Island. Adults have a wide altitudinal range, from sea level to 1400 m.[4][5]

Habitat

All Geodorcus species are mainly nocturnal and hide underneath fallen log stones or leaf litter on the forest floor.[6] At night D. helmsi have been seen active on tree trunks, chewing at the bark to get access to the exudate. This species occupies a highly variable habitat, including forest and tussock-dominated high country.[6]

Diet

The feeding ecology of adult G. helmsi may be highly variable: they occupy a wide range of habitats from forest to the tussock zone in the high country. Adults have been observed on tree trunks feeding on sappy exudate from wounds in the bark.[6] Larvae of other lucanid beetles commonly eat the surface of rotting wood. Geodorcus larvae have been observed to have large quantities of humus inside their gut.[4]

Life cycle

In New Zealand stag beetles, there is no published information about the duration or timing of oviposition, larval, pupal and adult stages of the life cycle. Copulation has been observed in October.[4] Larvae of Geodorcus have been seen under decaying logs, occupying a gallery in the soil layer. They are C-shaped, slow moving, and avoid the light.[6]

Conservation

All Geodorcus species are protected under Schedule 7 of The 1953 Wildlife Act, making it illegal to hunt, kill, or possess a specimen.[7] Predation by introduced rats has reduced the population density of G. helmsi; on islands where rats are present, only their remains can be found.[4] This species has been found to make up to 27% of the dry weight of feral pig stomach contents.[8]

References

  1. Sharp, David (1881). "Some new species and genera of Coleoptera from New Zealand". Entomologist's Monthly Magazine. 18: 46–51.
  2. "Catalogue of Life". Catalogue of Life. Retrieved 2 November 2016.
  3. "New Zealand giant stag beetle". Manaaki Whenua. Retrieved 2022-06-10.
  4. 1 2 3 4 5 Holloway, B.A. "Lucanidae (Insecta: Coleoptera)" (PDF). Landcare New Zealand. Landcare Research. Retrieved 3 November 2016.
  5. Concannon, Claire (2022-07-09). "The battling beetle". RNZ. Retrieved 2022-07-13.
  6. 1 2 3 4 Sherley, Greg; Green, Chris; Owen, Keith (1994). "Distribution, conservation status and some features of the natural history of Dorcus stag beetles (Coleoptera: Lucanidae)" (PDF). Science and Research Series (75). Retrieved 4 November 2016.
  7. "Wildlife Act 1953". New Zealand Legislation. Parliamentary Counsel Office. Retrieved 4 November 2016.
  8. Parkes, John P.; Easdale, Tomas A.; Williamson, Wendy M.; Forsyth, David M. (2014). "Causes and consequences of ground disturbance by feral pigs (Sus scrofa) in a lowland New Zealand conifer–angiosperm forest" (PDF). New Zealand Journal of Ecology. 39 (1): 34–42. Retrieved 4 November 2016.
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