Cheilosia latrans

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Cheilosia latrans
Cheilosia latrans 01.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Syrphidae
Genus: Cheilosia
Species:
C. latrans
Binomial name
Cheilosia latrans
Walker 1849
Synonyms
  • Cartosyrphus longipilosa Wehr, 1922
  • Chilosia tristis Loew, 1863
  • Syrphus aesyctes Walker, 1849
  • Syrphus latrans Walker, 1849

Cheilosia latrans, the steely blacklet, is a very common species of syrphid fly observed in northern North America hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein rich pollen. Larvae when known are plant feeders. [1] [2] [3] [4]

Related Research Articles

<span class="mw-page-title-main">Hover fly</span> Family of insects

Hover flies, also called flower flies or syrphid flies, make up the insect family Syrphidae. As their common name suggests, they are often seen hovering or nectaring at flowers; the adults of many species feed mainly on nectar and pollen, while the larvae (maggots) eat a wide range of foods. In some species, the larvae are saprotrophs, eating decaying plant and animal matter in the soil or in ponds and streams. In other species, the larvae are insectivores and prey on aphids, thrips, and other plant-sucking insects.

<i>Parasyrphus</i> Genus of flies

Parasyrphus is a genus of hover fly found in the holarctic area of the world including species like Parasyrphus tarsatus located in some very northern areas. Very few of the 31 identified species have known larvae. Of the known larvae most are predators of tree aphids with one, Parasyrphus nigritarsis, that feed on beetle eggs and larvae.

<i>Trichopsomyia</i> Genus of flies

Trichopsomyia is a genus of Hoverflies, from the family Syrphidae, in the order Diptera.

<span class="mw-page-title-main">Brachyopini</span> Tribe of flies

The Brachyopini is a tribe of hoverflies. Unlike many members of this family these flies are generally darker and less colourful though some genera contain species with an attractive metallic lustre e.g. Chrysogaster. Some like Brachyopa are associated with sap runs where their larvae feed on decaying sap. Others are found in boggy areas where their often semiaquatic larvae feed on decaying organic matter.

<i>Cheilosia grossa</i> Species of fly

Cheilosia grossa is a widespread European species of hoverfly. Adults can be found in spring on sallow catkins and the larvae tunnel in the stems of various thistle species.

<i>Cheilosia psilophthalma</i> Species of insect

Cheilosia psilophthalma is a Palearctic hoverfly closely related and very similar to Cheilosia latigenis, Cheilosia mutabilis and Cheilosia urbana . It is a rare and little known species recorded from Scandinavia, Ireland, Britain, France, Poland, Switzerland, Greece, Montenegro, Serbia, Ukraine and European Russia. Flowers visited include Acer platanoides, Anemone nemorosa, Primula veris, Prunus spinosa and Salix spp. Cheilosia psilophthalma flies in April and May. Open, grassy areas within sparse woodland and unimproved, montane subalpine grassland are preferred habitats. Larvae are recorded as developing in Hieracium pilosella and Hieracium caespitosum.

<i>Cheilosia fraterna</i> Species of fly

Cheilosia fraterna is a Palearctic hoverfly.

Platycheirus normae, the paddlearm sedgesitter, is a rare species of syrphid fly observed in northeastern North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers, from which they get both energy-giving nectar and protein-rich pollen. Larvae are aphid predators.

Cheilosia orilliaensis, the black-backed blacklet, is a common species of syrphid fly observed across North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers, from which they get both energy-giving nectar and protein-rich pollen. Larvae when known are plant feeders.

Cheilosia rita the inky blacklet, is a fairly common species of syrphid fly observed in The United States and Canada. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers, from which they get both energy-giving nectar and protein-rich pollen. The larvae, when they are known, are plant feeders.

Cheilosia caltha, the prairie blacklet, is a fairly common species of syrphid fly observed across North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein rich pollen. Larvae, when known, are plant feeders.

Cheilosia capillata, the scar-horned blacklet, is an uncommon species of syrphid fly observed in the northeastern United States. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers, from which they get both energy-giving nectar and protein-rich pollen. Larvae when known are plant feeders.

Cheilosia comosa , the prairie blacklet, is a species of syrphid fly observed in across North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein-rich pollen. Larvae when known are plant feeders.

Cheilosia pallipes, the yellow-shouldered blacklet, is a common species of syrphid fly observed in eastern North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein rich pollen. Larvae, when known, are plant feeders.

Cheilosia prima, the swarthy blacklet, is a common species of syrphid fly observed in the eastern half of North America. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein rich pollen. Larvae when known are plant feeders.

Hiatomyia cyanescens, the cobalt deltawing, is an uncommon species of syrphid fly observed in the northeastern United States. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein-rich pollen. The larvae are unknown.

<i>Hiatomyia</i> Genus of flies

Hiatomyia is a Holarctic genus of hoverflies that are shiny black with a plumose arista.

Total of 245 species either found or highly expected to be found in New York.

Hiatomyia cyanea, the azure deltawing, is a rare species of syrphid fly observed in the northeastern United States. Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein-rich pollen. The larvae are unknown.

Hiatomyia cyanea, the mountain deltawing, is a rare species of syrphid fly observed in the northwestern United States .Hoverflies can remain nearly motionless in flight. The adults are also known as flower flies for they are commonly found on flowers from which they get both energy-giving nectar and protein-rich pollen. The larvae are unknown.

References

  1. Rotheray, G.E. (1993). "Colour Guide to Hoverfly Larvae (Diptera, Syrphidae) in Britain and Europe" (PDF). Diperists Digest. 9: 155.
  2. Hull, Frank Montgomery (1950). "The genus Cheilosia Meigen (Diptera, Syrphidae). The subgenera Cheilosia and Hiatomyia". Bulletin of the American Museum of Natural History. 94: 299–402. hdl:2246/1001.
  3. Skevington, Jeffrey H (2019). Field Guide to the Flower Flies of Northeastern North America. ISBN   9780691189406.
  4. Fluke, C.L (1945). "Cartosyrphus flies of North America C.L. Fluke". Transactions of the Wisconsin Academy of Sciences, Arts, and Letters. 37: 221–264.