Biology:Synanthedon myopaeformis

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Short description: Species of moth

Synanthedon myopaeformis
Red-belted Clearwing Synanthedon myopaeformis.jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Sesiidae
Genus: Synanthedon
Species:
S. myopaeformis
Binomial name
Synanthedon myopaeformis
(Borkhausen, 1789)
Synonyms[citation needed]
  • Sphinx myopaeformis Borkhausen, 1789
  • Sesia myopiformis Staudinger, 1856
  • Sphinx zonata Donovan, 1797 (nec Drury, 1770)
  • Sesia mutillaeformis Laspeyres, 1801
  • Sesia elegans Lederer, 1861
  • Synanthedon armeniaca Gorbunov, 1991
  • Sesia myopaeformis ab. bicingulata Rebel 1910 (nec Staudinger, 1887)
  • Sphinx typhiaeformis Borkhausen, 1789
  • Sphinx tiphiaeformis Hübner, [1806]
  • Sesia typhiiformis Staudinger, 1856
  • Sesia cruentata Mann, 1859
  • Sesia cruentata ab. lugubris Ragusa, 1923
  • Sesia graeca Staudinger, 1871
  • Sesia luctuosa Lederer, 1853
  • Synanthedon mesoreaca Fischer & Lewandowski 2003

Synanthedon myopaeformis is a moth of the family Sesiidae and the order Lepidoptera. In Europe it is known as the red-belted clearwing and in North America as the apple clearwing moth. The larvae create galleries under the bark of fruit trees, especially old trees with damaged trunks. During this process, the larvae cause significant damage to host trees. Particular attention has been paid to the damage they cause to apple trees. Their status as a pest of apple orchards has led to many research projects aimed at controlling populations of the moth. This moth is native to Europe, the Near East and North Africa. Recently, the moth was introduced into North America, being first detected in Canada in 2005. There are several organisms that threaten the larvae, including parasitoids, nematodes, and bacteria.[1][2][3]

Subspecies

  • Synanthedon myopaeformis cruentata (Mann, 1859)
  • Synanthedon myopaeformis graeca (Staudinger, 1871)
  • Synanthedon myopaeformis luctuosa (Lederer, 1853)
  • Synanthedon myopaeformis myopaeformis
  • Synanthedon myopaeformis typhiaeformis (Borkhausen, 1789)

Geographic range

Synanthedon myopaeformis is native to north Africa, western Asia, and Europe, where it is known as the red-belted clearwing moth. In 2005, it was discovered in southwestern Canada and has since been found in the United States. Throughout North America, S. myopaeformis is known as the apple clearwing moth because of its status as a pest of apple trees.[4][5]

Morphology

Synanthedon myopaeformis

Adults are blue-black in color with a dark orange-red stripe across their segmented abdomen. The moths have short, bushy tails. Their wings are clear in the middle with dark edges framed by short fringe. Wingspan varies between 1.8 and 2.8 cm at the forewings, with forewings narrower and longer than hindwings.[6][7]

Caterpillars are 2.5 cm long, with off-white bodies and a reddish-brown head.[5]

Pupae are around 1.5 cm long,[8] and are golden brown with two tubercles, short projections, protruding from their heads. They can be seen sticking out of the bark of apple trees.[7]

Habitat

Because the life cycle of the moth is dependent on host trees, S. myopaeformis is found predominately near apple orchards.[1] They are also found in gardens, woodlands and hedgerows. The larvae feed under the bark of apple trees, crab apples, pears, quinces, plums, cherries, apricots, hawthorn and mountain ash, favoring old cankerous trees.[6][9]

In Canada, it has been found that both male and female moths are attracted to the flowers of showy milkweed (Asclepias speciosa) and that it is the phenylacetaldehyde produced by the flowers that attracts them. This substance can be used in monitoring populations of the moth or in mass-trapping them.[10]

Life cycle

Egg

Each female can lay up to 250 eggs. Eggs are laid singly on the bark of host trees, typically in cracks or damaged areas of the trunk and branches.[5][7]

Figs.1 larva before last moult, 1a larva after last moult 1b pupa, 1c, 1d pieces of apple bark ravaged by the larva

Caterpillar

After hatching, larvae bore into the bark of the host trees, digging into the phloem of the tree. As they bore through the tree, they leave trails of waste that are visible from the outside of the tree. Larvae mature on the host tree for two years.[7][5] During warm weather, the caterpillars move along the bark of the tree feeding on young plant tissues, including the buds of apple trees. At the beginning of winter, the caterpillars once again bore into the tree to spend the cold season under the bark. They emerge in early spring to feed. Larvae repeat this feeding – wintering cycle once more before emerging and boring a final hole in the bark in which to pupate.[7]

Pupa

After burrowing into the bark, larvae compose golden brown cocoons which stick out from the tree. Compared to the larval stage, the pupal stage is much shorter at two weeks.[5]

Adults

Adults emerge from their cocoons in early summer.[5]

Physiology

Flight activity

After emergence in early summer, adults are active in flight from May through August. Because Synanthedon myopaeformis thrives in warm weather, flight activity is temperature dependent. The adults are significantly less active on cold days compared to warm days. Flight activity ceases at the end of summer when average temperature drops to 15-16 °C.[7]

Color vision

In 2014, Judd and Eby found that S. myopaeformis does not discriminate between yellow, green and white or between purple, blue, red, and black. The moths also display different behaviors toward traps reflecting green (500-550 nm) and ultraviolet (300-400 nm) light.[3] A second study by Eby in 2012 showed that the moths are sensitive to the same wavelengths of light shown in the previously mentioned study, suggesting that the S. myopaeformis could have dichromatic vision.[11]

Enemies

Beauveria bassiana, a threat to the S. myopaeformis, seen growing on an Ithominae larva
Bacillus thuringiensis, a threat to larvae

The parasitoid Liotryphan crassiseta is a significant cause of mortality in S. myopaeformis.[12] Nematodes, Steinernema sp., are a threat to larvae,[13] and larva mortality following exposure to the fungi Beauveria bassiana and Metarhizium brunneum is common.[14] Bacteria are another threat to larvae. In 1999, Shehata, Nasr, and Tadros found that significantly fewer adults emerged from cocoons after larvae were exposed to the bacteria Bacillus thuringiensis.[1]

Mating

Pheremones

Males of the species respond to sex pheromones released by the glands of females. A 2010 study from Judd, Gries, Aurelian, and Gries found that 3,13-octadecadienyl acetate is the primary sex hormone used by S. myopaeformis females. This chemical alone is enough to attract males, although the females do also produce secondary sex hormones in addition to 3,13-octadecadienyl acetate, these appear to play a minor role.[15]

Interactions with humans

Pest status

On a bud

Native to Europe, Asia, and northern Africa, but recently released in Canada and the United States, S. myopaeformis has been recognized as a significant threat to apple trees in these regions.[2] Because the larvae bore holes and tunnels under and through the bark of their host trees, the presence of the species is harmful to the health and production of these trees.[16] Previously, damage caused by S. myopaeformis was associated primarily with old, damaged, or otherwise sick apple trees because the lack of integrity of their bark allows the larvae easier access to the inner layers of the trunk and branches.[4][7] However, their potential to harm even previously healthy apple trees is now recognized.[5][2] Because of this, many methods have been tested for controlling the proliferation of the moth.

Attempted control methods

Pheromone disruption

One method of reproduction control involves the release of the S. myopaeformis sex pheromone into orchards infested by the species. The technique, mating disruption, leads to a dampened male response to female sex hormones, disrupting the mating process. As a result of the overabundance of pheromones, the percentage of mated females decreases relative to unmated females.[17]

Pheromone traps

Many research studies have used pheromone traps to monitor the population of S. myopaformis. The traps enable monitoring of infestations even when the population is low, and so are an effective reference to determine the best time to apply pest-controlling measures or plant growth regulators.[18]

Other chemical lures

Other methods of control focus on luring and trapping adults. A Hungarian study found that both male and female red-belted clearwings are attracted to a combination of pear ester and acetic acid. Because many pheromone-based traps attract more males than females, this method is suggested as female-targeted trapping.[19]

Other species

Each of the species mentioned above in the “Enemies” section have been used to control populations. These include nematodes,[13] fungi,[14] and bacteria.[1]

Trunk coatings

Diverse materials have been used to coat the bark of apple trees in an attempt to kill S. myopaeformis eggs and larvae. In 2010, the effectiveness of cotton seed oil, lime, and motor oil were tested in decreasing the number of adults and pupae. All three materials reduced the number of adult moths during the second year, but the oils showed the greatest effect.[2]

References

  1. 1.0 1.1 1.2 1.3 Shehata, W. A.; Nasr, F. N.; Tadros, A. W. (1999). "Application of some bacterial varieties of Bacillus thuringiensis and its bioproduct Delfin on Synanthedon myopaeformis Borkh. (Lep. Aegeriidae) in apple orchards". Journal of Pest Science 72: 129–132. 
  2. 2.0 2.1 2.2 2.3 Erler, Fedai (2010-01-01). "Efficacy of tree trunk coating materials in the control of the apple clearwing, Synanthedon myopaeformis". Journal of Insect Science 10 (1): 63. doi:10.1673/031.010.6301. PMID 20672979. 
  3. 3.0 3.1 Judd, Gary J. R.; Eby, Chelsea (2014). "Spectral discrimination by Synanthedon myopaeformis (Lepidoptera: Sesiidae) when orienting to traps baited with sex pheromone or feeding attractants". The Canadian Entomologist 146 (1): 8–25. doi:10.4039/tce.2013.55. ISSN 0008-347X. 
  4. 4.0 4.1 "Synanthedon myopaeformis : Red-belted Clearwing | NBN Atlas | NBN Atlas" (in en-AU). https://species.nbnatlas.org/species/NBNSYS0000005694#overview. 
  5. 5.0 5.1 5.2 5.3 5.4 5.5 5.6 Noma, T.; Colunga-Garcia, M.; Brewer, M.; Landis, J.; Gooch, A.. "Red-Belted Clearwing Synanthedon myopaeformis". http://www.ipm.msu.edu/uploads/files/Forecasting_invasion_risks/redbeltedClearwig.pdf. 
  6. 6.0 6.1 "Apple clearwing moth (Synanthedon myopaeformis)". Pest management. British Columbia: Ministry of Agriculture. 2013-11-01. http://www.agf.gov.bc.ca/cropprot/tfipm/clearwing.htm. 
  7. 7.0 7.1 7.2 7.3 7.4 7.5 7.6 Grichanov, I. Y.; Ovsyannikove, E. I.. "AgroAtlas - Pests - Synanthedon myopaeformis (Borkhausen) - Red-belted Clearwing, Small Red-belted Clearwing, Apple Clearwing, Apple Borer". http://www.agroatlas.ru/en/content/pests/Synanthedon_myopaeformis/. 
  8. Mason, Peter. Biological Control Programmes in Canada 2001-2012. pp. 286–288. 
  9. Wheeler, Jim (2014). "Red-belted Clearwing(Synanthedon myopaeformis)". Norfolk Moths. http://www.norfolkmoths.co.uk/?bf=3790. 
  10. Eby, Chelsea; Gardiner, Mark G.T.; Gries, Regine; Judd, Gary J.R.; Khaskin, Grigori; Gries, Gerhard (2013). "Phenylacetaldehyde attracts male and female apple clearwing moths, Synanthedon myopaeformis, to inflorescences of showy milkweed, Asclepias speciosa". Entomologia Experimentalis et Applicata 147 (1): 82–92. doi:10.1111/eea.12045. 
  11. Eby, Chelsea Dawn (2012-07-03). Visual and olfactory cues used by the apple clearwing moth, Synanthedon myopaeformis (Lepidoptera: Sesiidae), to locate inflorescences of showy milkweed (Thesis).
  12. Bąkowski, Marek; Piekarska-Boniecka, Hanna; Dolańska-Niedbała, Ewa; Michaud, J. P. (2013-01-01). "Monitoring of the red-belted clearwing moth, Synanthedon myopaeformis, and its parasitoid Liotryphon crassiseta in apple orchards in yellow Moericke traps". Journal of Insect Science 13 (1): 4. doi:10.1673/031.013.0401. PMID 23879220. 
  13. 13.0 13.1 Kahounova, L. (1991). "Larval mortality of Synanthedon myopaeformis (Lepidoptera: Sesiidae) in apple trees sprayed with Steinernema sp. strain Hylobius(Nematoda: Steinernematidae)". Acta Entomologica Bohemoslovaca 88: 205–201. 
  14. 14.0 14.1 Cossentine, J. E.; Judd, G. J. R.; Bissett, J. D.; Lacey, L. A. (2010-01-01). "Susceptibility of apple clearwing moth larvae, Synanthedon myopaeformis (Lepidoptera: Sesiidae) to Beauveria bassiana and Metarhizium brunneum". Biocontrol Science and Technology 20 (7): 703–707. doi:10.1080/09583151003690390. ISSN 0958-3157. 
  15. Judd, Gary J. R.; Gries, Regine; Aurelian, V. Marius; Gries, Gerhard (June 2011). "3Z, 13Z-octadecadienyl acetate: sex pheromone of the apple clearwing moth in British Columbia". The Canadian Entomologist 143 (3): 236–244. doi:10.4039/n11-002. ISSN 1918-3240. 
  16. Piekarska-Boniecka, H.; Siatkowski, M.; Siatkowski, I. (2016). "The Effect of the Orchard Habitat Structure and Year on Apple Clearwing Moth S. myopaeformis Abundance". Colloquium Biometricum 46: 71–82. http://collbiom.up.lublin.pl/pdf/cb46_71.pdf. 
  17. Kyparissoudas, D. A. (1993). "Control of Synanthedon (Aegeria) myopaeformis by Mating Disruption Using Sex Pheremone Dispensers in Northern Greece". Entomologia Hellenica: 35–40. http://www.entsoc.gr/journaleee/control-of-synanthedon-aegeria-myopaeformis-by-mating-disruption-using-sex-pheromone-dispensers-in-northern-greece/. 
  18. Kutinkova, Hristina; Andreev, Radoslov; Subchev, Mitko; Szocs, Gabor; Toth, Miklos (2006). "Seasonal flight dynamics of apple clearwing moth based on catches in pheromone traps". Journal of Fruit and Ornamental Plant Research 14 (Supplement 3): 39–48. http://www.insad.pl/files/journal_pdf/Suppl_3_2006/Suppl_3_full_4_2006.pdf. 
  19. Tóth, Miklós; Landolt, Peter; Szarukán, István; Szólláth, Imre; Vitányi, Imre; Pénzes, Béla; Hári, Katalin; Jósvai, Júlia Katalin et al. (2012-01-01). "Female-targeted attractant containing pear ester for Synanthedon myopaeformis" (in en). Entomologia Experimentalis et Applicata 142 (1): 27–35. doi:10.1111/j.1570-7458.2011.01198.x. ISSN 1570-7458. 

External links

Wikidata ☰ Q618307 entry