Athrips rutjani

Last updated

Athrips rutjani
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Gelechiidae
Genus: Athrips
Species:
A. rutjani
Binomial name
Athrips rutjani
Bidzilya, 2005

Athrips rutjani is a moth of the family Gelechiidae. It is found in Kyrgyzstan. [1]

The wingspan is 10.5–12.5 mm. The forewings are greyish light with a yellowish white fascia at one-fourth and a diffuse yellow spot in the middle. The base, costal and posterior margins from the base to three-fourths are black greyish and there is a distinct dark spot at three-fourths of the posterior margin. The hindwings are grey. Adults are on wing in early May. [2]

Related Research Articles

<i>Athrips tetrapunctella</i> Species of moth

Athrips tetrapunctella is a moth of the family Gelechiidae. It is found in France, Great Britain, Ireland, Fennoscandia, Denmark, Estonia, Latvia, Russia and Ukraine. In the east, the range extends through the southern Ural and Siberia to Primorsky Krai.

<i>Athrips amoenella</i> Species of moth

Athrips amoenella is a moth of the family Gelechiidae. It is found in Finland, Sweden, France, Spain, Austria, Switzerland, Italy, Slovakia, Hungary, Greece, Ukraine and Russia, as well as on Corsica. Outside of Europe, it is found in Turkey, Kazakhstan and Kyrgyzstan.

Athrips polymaculella is a moth of the family Gelechiidae. It is found in the southern Krasnojarsk region (Minussinsk) and Chitinskaja oblast in Siberia, China (Henan), Korea, Japan and Taiwan. There are records from the eastern part of European Russia, but these need confirmation.

<i>Athrips pruinosella</i> Species of moth

Athrips pruinosella is a moth of the family Gelechiidae. It is found in western and northern Europe. It has also been recorded from the Caucasus, the southern Ural mountains, the Altai mountains, Tuva, Buryatia, the Amur region, Primorye and North America.

Dichomeris fareasta is a moth in the family Gelechiidae. It was described by Kyu-Tek Park in 1994. It is found in south-eastern Siberia and Korea.

Dichomeris paulidigitata is a moth in the family Gelechiidae. It was described by Hou-Hun Li, Hui Zhen and Wolfram Mey in 2013. It is found in Kenya.

Athrips nitrariella is a moth of the family Gelechiidae. It is found in Algeria.

Athrips bidilatata is a moth of the family Gelechiidae. It is found in China (Gansu).

Athrips gussakovskii is a moth of the family Gelechiidae. It is found in Uzbekistan, Mongolia and China (Ningxia).

Athrips gerasimovi is a moth of the family Gelechiidae. It is found in Mongolia.

Athrips peteri is a moth of the family Gelechiidae. It is found in Kazakhstan and China.

Athrips maculata is a moth of the family Gelechiidae. It is found in south-eastern Kazakhstan and China (Gansu).

Athrips nigrogrisea is a moth of the family Gelechiidae. It is found in Russia (Buryatia).

Athrips sibirica is a moth of the family Gelechiidae. It is found in Russia (Altai), Mongolia and China (Hebei). The habitat consists of steppes and forest-steppes in the mountains.

Athrips nigristriata is a moth of the family Gelechiidae. It is found in China (Ningxia).

Athrips mappigera is a moth of the family Gelechiidae first described by Edward Meyrick in 1914. It is found in Mozambique, Namibia and South Africa.

Athrips neograpta is a moth of the family Gelechiidae first described by Edward Meyrick in 1914. It is found in Namibia and South Africa.

Athrips ptychophora is a moth of the family Gelechiidae. It is found in South Africa, where it has been recorded from Eastern Cape, Western Cape and Mpumalanga.

Athrips phoenaula is a moth of the family Gelechiidae first described by Edward Meyrick in 1913. It is found in Zimbabwe, Namibia and South Africa.

Commatica emplasta is a moth in the family Gelechiidae. It was described by Edward Meyrick in 1914. It is found in Guyana and Peru.

References

  1. Athrips at funet
  2. Bidzilya, O., 2005: A review of the genus Athrips (Lepidoptera: Gelechiidae) in the Palaearctic region . Deutsche Entomologische Zeitschrift52 (1): 3-71. doi : 10.1002/mmnd.200310001