Nyctemera annulata

Nyctemera annulata, the magpie moth, is a moth of the family Erebidae. The species was first described by Jean Baptiste Boisduval in 1832. It is endemic to New Zealand and found in all parts of the country.

Nyctemera annulata
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Superfamily: Noctuoidea
Family: Erebidae
Subfamily: Arctiinae
Genus: Nyctemera
Species:
N. annulata
Binomial name
Nyctemera annulata
Boisduval, 1832
Synonyms
  • Leptosoma annulatum Boisduval, 1832
  • Nyctemera annulatum (Boisduval, 1832)
  • Nyctemera doubledayi Walker, 1854
  • Nyctemera tripunctaria Swinhoe, 1916

Description

The magpie moth's "woolly bear" caterpillars are around 35–38 mm when fully grown and predominantly black with lines of red down its sides and back,[1][2] blue spots and tufts of hair on each segment.[1][2] Its liking for the introduced ragwort causes its caterpillars to be sometimes misidentified as those of the cinnabar moth which was introduced as a biological control for ragwort. By contrast cinnabar caterpillars have smooth bodies with alternating yellow and black rings.[3]

The adult moth has black wings with white markings on both the forewings and hindwings. The forewings have two white spots that are more elongated while the hindwing only has a single spot near to the centre;[2][4] the wingspan is 35–45 mm.[2][5][6] The thorax and abdomen of the moth are black with bands of orange.[1] The magpie moth is diurnal which, coupled with its colourful markings means it is often mistaken for a butterfly.[2][4][7] It is most active from September to June in the mornings and evenings where it can be seen flying over the tops of host plants.[1][4][5]

Nyctemera annulata is closely related to Nyctemera amica, an Australian species which also occurs in New Zealand. The two species may be able to interbreed.

Subspecies

  • Nyctemera annulata annulata (New Zealand)
  • Nyctemera annulata antipodea Salmon, 1956 (Antipodes Islands)[8]

Distribution

Natural global range

Nyctemera annulata is only found in New Zealand.[9][10][11]

New Zealand range

Nyctemera annulata is found all over New Zealand, both in the North and South Islands as well as on smaller outlying islands.[10] The N. annulata caterpillar have the ability to freeze themselves and survive.[12] This tolerance of cold weather and freezing temperatures has ensured they are able to exist throughout New Zealand.

Habitat preferences

Nyctemera annulata are only present in habitats where Senecio species occur. They are found most commonly in natural habitats but were also found to occur modified and urban habitats as long as Senecio host plants were present, either naturalized or native.[13]

Life cycle/phenology

Mating
Eggs and early instar

The life cycle of Nyctemera annulata takes 6–7 weeks to complete and requires warm weather with the winter being passed in the pupa stage.[5] The moth will lay yellow eggs on the undersides of herbaceous Senecio species.[1][5][14] The eggs gradually become dark and will hatch after approximately 6 – 7 days.[1][15] Larvae in the first to third developmental stages (instars) feed on the surface of the underside of the leaves of the host plants and use silken threads to move to new fresh food sources or to get back to the plant should they fall off.[4] Fourth and fifth instars feed in exposed positions on the top surface of the leaf and have well developed setae compared to the earlier instars.[1][4] The larvae will feed primarily on species from the genus Senecio [2][4] and are able to migrate considerable distances to new food sources when necessary.[14] When the caterpillar is fully grown it will be approximately 36mm long [1][2] and at this stage it begins to look for a crevice in which to spin its cocoon ready for pupation to take place.[1][2][4] Hairs from the caterpillar are incorporated into its silken cocoon.[5] The cocoon becomes black and shiny with yellow markings and the pupa will stay like this for 12 – 35 days.[4] The length of pupation is largely affected by temperature and the humidity also has an effect on the pupal survival. The complete cycle of Nyctemera annulata takes 6 – 7 weeks depending on the temperature and therefore the time of year.[14]

Diet and foraging

The primary food source of Nyctemera annulata are plants from the tribe Senecioinae of the Asteraceae.[15] Thirty three species are known to exist in the wild and New Zealand has 19 native Senecio species with 14 of them naturalised exotics.[16] N. annulata diet is specifically limited to one specific plant. Even though the magpie moth is a native, it has been found that they do not restrict themselves to only the native Senecio species in New Zealand and will also feed on exotic introduced species.[16]

N. annulata is a monophagous herbivore insect meaning that their diet is limited to a species of plant. A study found that N. annulata did not restrict itself to the native Senecio although the insects were found more frequently in the native forested areas than in the urban/rural area[16] These findings are based on research in the Auckland area, and the study found that the numbers of Nyctemera would be far fewer if there were not the naturalised exotic species available to them.

The most common form of Senecio found in New Zealand is the introduced 'ragwort' (Jacobaea vulgaris) - a weed in most cultivated areas of the country and the magpie moth can often be seen around cultivated farmlands during the summer months and feed primarily on the leaves and flowers.[17] Other favoured plants include Senecio vulgaris (groundsel) and garden cineraria.[18]

Predators, parasites, and diseases

Viruses, Subgroup B: Granulosis and Cytoplasmic polyhedrosis and two unidentified viruses can be found in Nyctemera annulata and these are all naturally occurring.[19]

In addition, a predator known to attack N. annulata is a parasitic wasp. Echthromorpha intricatoria will attack by laying its egg into the pupae of the moth. The larvae of the wasp will then hatch and use the host as food to develop.[1] It is believed that the patterning of the caterpillar acts as a warning to birds and as a result birds are not a threat to them.[1]

Due to its bright colour and bitter taste N. annulata is left alone by most bird predators. The shining cuckoo is one exception and will prey on the spiny caterpillar. The cuckoos tend to leave the skin, only eating the viscera of the caterpillar. If the skins are swallowed they are later disposed of in pellets covered with saliva.[4] One third of the caterpillars found in the stomach of shining cuckoos in a study were N. annulata.[20]

Cultural uses

Mokarakara is thought to be the name Māori used for N. annulata, their description being that it was a day-flying moth that was black with white spots (Miller, 1952).

Lessiter (1989) recorded that Māori knew butterflies as pūrerehua and that they referred to the pupa as tūngoungou (meaning "to nod"). This was describing the pupa's abdomen as it bends back and forth and the pupae were sometimes used in a child's game. Grandparents would ask their grandchildren to hold the pupa between their thumb and forefinger and ask questions of it. An example would be "Am I a good girl?". The answer would depend on which way the pupa wriggled – up to indicate "yes" and down was for "no".

There has been some research into the role of plant metabolites, particularly pyrrolizidine alkaloids that are sequestered by N. annulata. The alkaloids are produced by the plant as a defence against herbivory and the larvae of the moth take them up, potentially also as a form of defense suggested by the high levels of toxin found in the moth.[21] This may be another reason there is not much predation of either the larvae or moth.

References

  1. Gaskin, D. E. (1966). The butterflies and common moths of New Zealand. Christchurch, New Zealand: Whitcombe and Thombs Limited
  2. O'Brian, C. (1985). The Mobil New Zealand nature series: butterflies and moths. Auckland, New Zealand: Reed Methuen
  3. Hayes, Linley (March 2007). "Insects commonly mistaken for biocontrol agents" (PDF). Landcare Research. Retrieved 27 April 2016.
  4. Woodward, D. (1984). Insect-plant interactions between Magpie Moth (Nyctemera annulata) and four species of Senecio (Masters thesis, University of Canterbury, 1984).
  5. Early, J. Know your New Zealand insects and spiders. Auckland, New Zealand: New Holland Publishers
  6. Landcare Research. (1996). "Magpie moth".
  7. Waring, S. M. (2010). Apparent competition between native and exotic plants mediated by a native insect herbivore (Ph.D Thesis). New Zealand: Lincoln University. hdl:10182/4534.
  8. John Salmon; J. D. Bradley (1956). "Lepidoptera from the Cape Expedition and Antipodes Islands". Records of the Dominion Museum. 3 (1): 61–81. ISSN 0373-7233. Wikidata Q107609082.
  9. Gordon, Dennis P., ed. (2010). New Zealand inventory of biodiversity: Kingdom animalia : chaetognatha, ecdysozoa, ichnofossils. Vol. 2. p. 457. ISBN 978-1-877257-93-3. OCLC 973607714. OL 25288394M. Wikidata Q45922947.
  10. Endersby, N and Cameron, P. (2004). Parasitism of Nyctemera America and Plutella Xylostella by Cotesia Plutellae. Management of Diamondback Moth and Other Crucifer Pests. 265-268.
  11. Sharell, R. (1971) New Zealand Insects and Their Story. Auckland, New Zealand. Collins Bros. & Co. Ltd.
  12. Sullivan, Jon. (n.d) Nyctemera annulata: Magpie Moth. Retrieved 26 February 2015 from http://eol.org/pages/865970/overview.
  13. Sullivan, J. J., Winks, C. J., & Fowler, S. V. (2008). Novel host associations and habitats for Senecio-specialist herbivorous insects in Auckland. New Zealand Journal of Ecology, 32(2), 219-224.
  14. Miller, D. (1971). Common insects in New Zealand. Wellington, New Zealand: A. H. & A. W. Reed Ltd.
  15. Singh, P. & Mabbet, F. E. (1976). Note on the life history of the magpie moth, Nyctemera annulata (Lepidoptera: Arctiidae. New Zealand Journal of Zoology 3, 277-278. doi: 10.1080/03014223.1976.9517918
  16. Sullivan, J.J., Winsk, C.J., & Fowler, S.V. (2008). Novel host associations and habitats for "Senecio"-specialist herbivorous insects in Auckland. "New Zealand Journal of Ecology, 32"(2), 219-224. Retrieved from http://www.newzealandecology.org/nzje/
  17. Cameron, E. (1935). A Study of the Natural Control of Ragwort (Senecio Jacobaea L.). Journal of Ecology, 23(2), 265-322.
  18. Cumber, R.A., & Eyles, A.C. (1961). Insects associated with the major fodder crops in the North Island. New Zealand Journal of Agricultural Research, 4(3-4), 426-440. doi:10.1080/00288233.1961.10420389
  19. Glare, T.R., O'Callahan, M., & Wigley, P.J. (1993). Checklist for naturally occurring entomopathogenic microbes and nematodes in New Zealand. New Zealand Journal of Zoology, 20(2), 95-120. doi:10.1080/03014223.1993.10422867
  20. Gill, B. (1980). Foods of the shining cuckoo (Chrysococcyx lucidus, Aves: Cuculidae) in New Zealand. New Zealand journal of Ecology 3, 138-140. Retrieved from http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.410.4240&rep=rep1&type=pdf
  21. Harborne, J. B. (1997). Recent advances in chemical ecology. Natural Product Reports. 14, 83-98. doi:10.1039/NP9971400083
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