Attacus atlas explained

Attacus atlas, the Atlas moth, is a large saturniid moth endemic to the forests of Asia. The species was described by Carl Linnaeus in his 1758 10th edition of Systema Naturae.

The Atlas moth is one of the largest lepidopterans, with a wingspan measuring up to 24cm (09inches)[1] and a wing surface area of about 160 cm2 (≈25 in2).[2] It is only surpassed in wingspan by the white witch (Thysania agrippina) and Attacus caesar, and in wing surface area by the Hercules moth (Coscinocera hercules). As in most silk moths, females are noticeably larger and heavier than males, while males have broader antennae.[3] [4] [5]

Description

Eggs

Atlas moths lay a number of spherical eggs, 2.5mm in diameter, on the undersides of the leaves of food plants.

Larva

After approximately two weeks, dusty-green caterpillars hatch and feed on their egg-shell, and then the foliage of citrus, cinnamon, guava, and evergreen trees.[6] The caterpillars can grow to 11.5cm (04.5inches) in length and 2.5cm (01inches) in thickness. They have white, waxy, fleshy spines along their backs, which become more prominent at later instars. On the last abdominal segment beside the prolegs, there is a large green spot surrounded by an orange ring.[7]

Pupa

After reaching a length of about 11.5cm (04.5inches), the caterpillars pupate. They spin a 7–8 cm long papery cocoon interwoven with desiccated leaves and attach it to a twig using a strand of silk. The adult moths emerge from the cocoon after approximately four weeks depending on environmental factors.

Imago

Adult Atlas moths are weak, unsteady fliers. To conserve energy, the moths rest during the day and fly at night. As they lack fully formed mouthparts, the adults cannot eat, subsisting entirely on fat reserves accumulated during the larval stage. As a result, they live for only a few days during which their sole objective is seeking out a mate. Adults may be found on wing throughout the year but are most abundant between November and January.

Females release pheromones through a gland on the end of the abdomen to attract a mate. Females stay near discarded cocoons, seeking out a perch where the air currents will best carry their pheromones. Males can detect and home in on these pheromones from several kilometers away using chemoreceptors located on their feathery antennae.[8]

The body is small compared to the wings. The upper side of the wings is reddish brown with a pattern of black, white, pink, and purple lines. There are triangular, scale-less windows bordered in black on each of the four wings. The undersides of the wings are paler. The tips of both forewings have prominent extensions that resemble the head of a snake. The resemblance is exaggerated by movements of the wings when the moth is confronted by potential predators.[9] The Atlas moth has a very short, vestigial proboscis, and they do not eat once they have emerged from the cocoon, relying on fat storage for energy. Every flight takes valuable energy and can take days off their already short lives, as it has a very short life span of only one to two weeks.[10] They conserve energy by flying as little as possible. A female will wait for a male to come along and be fertilised, lay eggs and die.

Habitat

Their habitat is primarily dry tropical forests, secondary forests, and shrublands across South Asia, East Asia, and Southeast Asia, including Borneo.[11]

Etymology

Atlas moths are named after Atlas, the Titan of Greek mythology (due to their size). In Hong Kong, the Cantonese means "snake's head moth", referring to the prominent extension of the forewing that resembles the head of a snake.[12]

Relationship with humans

In India, Atlas moths are cultivated for their silk in a non-commercial capacity. Unlike silk produced by the related domestic silkmoth (Bombyx mori), Atlas moth silk is secreted as broken strands and is therefore less desirable. This brown, wool-like silk, known as

fagara, is thought to have greater durability.[13] Atlas moth cocoons are sometimes used as small pocket change purses in Taiwan. There is ongoing research as to whether the silk of the Atlas moth can be used as a substitute for common silks. The quality of the heavier cocoons, less restrictive rearing conditions, and competent properties of the fibers, make the silk produced by the Atlas moth a potential alternative for common silks. A study concluded that the silk fibers of the atlas moth had about an 80% higher density of cells and growth compared to the silk fibers of the silk moth.[14]

The Japanese subspecies A. a. ryukyuensis, native to Yonaguni in the Yaeyama Islands.

Similar taxa

The term "Atlas moth" is sometimes used mistakenly as a name for any species in the genus Attacus, of which there are over 20 named species and subspecies. Attacus taprobanis[15] native to southern India and Sri Lanka[16] is very similar in morphology to the much more widely distributed Attacus atlas. It was once considered a subspecies of A. atlas.[17] A few New World species can be mistaken for Atlas moths, specifically members of the genus Rothschildia. Very similar in appearance to the Asian Atlas moth, Rothschildia aurota is one of the largest members of its genus and a Neotropical relative.

See also

Notes and References

  1. Web site: Chapter 32: Largest Lepidopteran Wing Span | The University of Florida Book of Insect Records | Department of Entomology & Nematology | UF/IFAS. entnemdept.ifas.ufl.edu.
  2. Web site: StackPath. australianbutterflies.com. 26 October 2018 .
  3. Watson, A. & Whalley, P.E.S. (1983). The Dictionary of Butterflies and Moths in Colour. Peerage Books, London, England.
  4. Robert G. Foottit & Peter H. Adler. 2009. Insect Biodiversity: Science and Society. Blackwell Publishing Ltd.
  5. Rainier Flindt. 2006. Amazing Numbers in Biology. Springer-Verlag, Berlin.
  6. Robinson, G.S., Ackery, P.R., Kitching, I.J., Beccaloni, G.W. & Hernández, L.M. (2001). Hostplants of the Moth and Butterfly Caterpillars of the Oriental Region. Southdene Sdn. Bhd., Kuala Lumpur & The Natural History Museum, London. 744 pp.
  7. Gosse . Philip Henry . 1879 . The great Atlas moth of Asia (Attacus atlas, Linn.) . West, Newman & Company . Gale Primary Sources.
  8. Shepherd, G.M. (1994). "Chemical Senses". In Neurobiology 3rd Edition. Oxford University Press
  9. Howse, P.E. (2010) Butterflies: Messages From Psyche Papadakis, 192 pp.
  10. Web site: Spotlight: the atlas moth . 2019-08-21 . www.nhm.ac.uk . en.
  11. Holloway, J.D. (1987). The Moths of Borneo, part 3: Lasiocampidae, Eupteroptidae, Bombycidae, Brahmaeidae, Saturniidae, Sphingidae. Southdene Sdn. Bhd., Kuala Lumpur
  12. Yiu, V. (2006). Insecta Hongkongica. Hong Kong Discovery. Kowloon, Hong Kong. 655pp.
  13. Jolly, M.S., Sen, S.K., Sonwalkar, T.N. & Prasad, G.S. (1979). Non-mulberry silks. Food & Agriculture Organisation. United Nations, Serv. Bull. 29. Rome. xvii + 178pp
  14. Reddy, Narendra; Zhao, Yi; Yang, Yigi. 2013. Structure and Properties of Cocoons and Silk Fibers Produced by Attacus Atlas. Journal of Polymers and the Environment. 21. 16–23. 10.1007/s10924-012-0549-8. 9466921. Science Citation Index.
  15. Book: Moore, Frederic. The Lepidoptera of Ceylon. Vol. II. Frederic Moore. L. Reeve & co.. 1880. London. 124–125.
  16. Book: Peigler . Richard S. . A Revision of the Indo-Australian Genus Attacus (Lepidoptera: Saturniidae) . 1989 . Lepidoptera Research Foundation . 0961146427 . 5 June 2018.
  17. Web site: Savela . Markku . Attacus atlas (Linnaeus, 1758) . Lepidoptera and Some Other Life Forms . November 10, 2018.