Biology:Sigaus australis

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Short description: Species of grasshopper

Sigaus australis
NZAcrididae18.JPG
A female Sigaus australis
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Orthoptera
Suborder: Caelifera
Family: Acrididae
Genus: Sigaus
Species:
S. australis
Binomial name
Sigaus australis
(Bigelow, 1967) [1]
NZAcrididae8.png
The distribution of Sigaus australis in New Zealand

Sigaus australis is the most common alpine grasshopper found in New Zealand.[2][3] It can be found in the southern half of the South Island above the tree line. Sigaus australis was described in 1897 by Frederick Hutton. Like all of New Zealand sub-alpine and alpine grasshoppers S. australis has a 2 or 3 years life cycle. Individuals can survive the cold by freezing solid at any life stage, at any time of the year.[4] Sigaus australis adults are relatively large grasshoppers (females ~ 26mm, 0.8g).[5] The genus Sigaus is endemic to New Zealand.

Distribution and habitat

Sigaus australis can be found in the southern half of the South Island, from Otago and Canterbury regions. It can be found as far south as the Takitimu Mountains[6] and as far north as the Torless Range ( [ ⚑ ] 43°14′39″S 171°48′34″E / 43.244052°S 171.809578°E / -43.244052; 171.809578). Sigaus australis prefer tussock grasslands between 1,300–1,700 metres (4,300–5,600 ft) elevation, however, can be found as low as 200 metres (660 ft) on the Alexandra Tailings, ( [ ⚑ ] 45°14′49″S 169°22′07″E / 45.246895°S 169.368559°E / -45.246895; 169.368559)[7] and as high as 2,000 metres (6,600 ft) on Smite Peak ( [ ⚑ ] 43°21′10″S 171°14′17″E / 43.35276073°S 171.2380887°E / -43.35276073; 171.2380887). Evidence from mtDNA sequencing suggests that S. australis encompasses several narrow endemic taxa and one widespread species.[7]Sigaus australis would have been more widespread during the last glacial period with both morphological and genetic signature of greater population connectivity in the past.[6] With climate warming and low dispersal potential, S. australis will probably lose 75% to 93% of its suitable habitat by 2070.[8]

Species description

The wings on S. australis are micropterous (small wings) between 2–4 millimetres (0.079–0.157 in) making this species flightless like most of New Zealand grasshoppers. Sigaus australis is highly cryptic, with colour polymorphism.[6] They will match the surrounding vegetation with colours of green and earth tones.

Type Information

Paprides australis Hutton (1897:147)

Paprides torquatus Hutton (1898:47)

Paprides armillaus Hutton (1898:47-48)

  • Hutton, F.W. 1898: Notes on the New Zealand. Proc. Trans. NZ Inst. 31: 44-50

References

  1. R. S. Bigelow (1967). The Grasshoppers of New Zealand, their Taxonomy and Distribution. Christchurch: University of Canterbury. 
  2. Bigelow, RS (1967). The Grasshoppers of New Zealand. Christchuch: University of Canterbury. 
  3. Trewick, Steven A. (2008). "DNA Barcoding is not enough: mismatch of taxonomy and genealogy in New Zealand grasshoppers (Orthoptera: Acrididae)." (in en). Cladistics 24 (2): 240–254. doi:10.1111/j.1096-0031.2007.00174.x. ISSN 1096-0031. 
  4. Hawes, Timothy C. (2015). "Canalization of freeze tolerance in an alpine grasshopper" (in en). Cryobiology 71 (2): 356–359. doi:10.1016/j.cryobiol.2015.07.008. ISSN 0011-2240. PMID 26210007. http://www.sciencedirect.com/science/article/pii/S0011224015002096. 
  5. Meza-Joya, Fabio Leonardo; Morgan-Richards, Mary; Trewick, Steven A. (2022). "Relationships among body size components of three flightless New Zealand grasshopper species (Orthoptera, Acrididae) and their ecological applications" (in en). Journal of Orthoptera Research 31 (1): 91–103. doi:10.3897/jor.31.79819. ISSN 1937-2426. https://jor.pensoft.net/article/79819/. 
  6. 6.0 6.1 6.2 Carmelet‐Rescan, David; Morgan‐Richards, Mary; Koot, Emily M.; Trewick, Steven A. (2021). "Climate and ice in the last glacial maximum explain patterns of isolation by distance inferred for alpine grasshoppers" (in en). Insect Conservation and Diversity 14 (5): 568–581. doi:10.1111/icad.12488. ISSN 1752-458X. https://onlinelibrary.wiley.com/doi/10.1111/icad.12488. 
  7. 7.0 7.1 Dowle, Eddy J; Morgan-Richards, Mary; Trewick, Steven A (2014). "Morphological differentiation despite gene flow in an endangered grasshopper" (in en). BMC Evolutionary Biology 14 (1): 216. doi:10.1186/s12862-014-0216-x. ISSN 1471-2148. PMID 25318347. 
  8. Koot, Emily M.; Morgan-Richards, Mary; Trewick, Steven A. (2022). "Climate change and alpine-adapted insects: modelling environmental envelopes of a grasshopper radiation". Royal Society Open Science 9 (3): 211596. doi:10.1098/rsos.211596. PMID 35316945. 

Wikidata ☰ Q7511965 entry