Hyblaeidae

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Hyblaeidae
Hyblaea puera at Kadavoor.jpg
Hyblaea puera
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Clade: Eulepidoptera
Clade: Ditrysia
Clade: Apoditrysia
Clade: Obtectomera
Superfamily: Hyblaeoidea
Family: Hyblaeidae
Genera
Diversity
About 20 species

Hyblaeidae are the "teak moths", a family of insects in the Lepidopteran order. The two genera with about 18 species make up one of the two families of the Hyblaeoidea superfamily (the other family being the monotypic Prodidactidae), [1] which in the past has been included in the Pyraloidea. Recent phylogenetic studies find varying relationships of Hyblaeoidea among Ditrysian Lepidoptera: Mutanen et al. (2010) find the superfamily to group either with Pyraloidea, or – more often – with Thyridoidea or butterflies. [2] The results of Wahlberg et al. (2013) and Heikilä et al. (2015) indicate a sister-group relationship with Pyraloidea. [3] [4]

Contents

Males have a specialised "hair-pencil" on the hindleg. [5]

The genus Hyblaea is distributed throughout the Old World tropics, and Torone in the Neotropics. Caterpillar host plants are well known and comprise almost exclusively species of the families Bignoniaceae, Verbenaceae, the mangrove families Avicenniaceae and Rhizophoraceae and a few other families. [6]

Related Research Articles

<span class="mw-page-title-main">Ditrysia</span> Suborder of moths and butterflies

The Ditrysia are a natural group or clade of insects in the lepidopteran order containing both butterflies and moths. They are so named because the female has two distinct sexual openings: one for mating, and the other for laying eggs.

<span class="mw-page-title-main">Macrolepidoptera</span> Order of insects

Macrolepidoptera is a group within the insect order Lepidoptera. Traditionally used for the larger butterflies and moths as opposed to the "microlepidoptera", this group is artificial. However, it seems that by moving some taxa about, a monophyletic macrolepidoptera can be easily achieved. The two superfamilies Geometroidea and Noctuoidea account for roughly one-quarter of all known Lepidoptera.

<span class="mw-page-title-main">Riodinidae</span> Butterfly family containing the metalmarks

Riodinidae is the family of metalmark butterflies. The common name "metalmarks" refers to the small, metallic-looking spots commonly found on their wings. The 1,532 species are placed in 146 genera. Although mostly Neotropical in distribution, the family is also represented both in the Nearctic, Palearctic, Australasian (Dicallaneura), Afrotropic, and Indomalayan realms.

<span class="mw-page-title-main">Sesioidea</span> Superfamily of moths

Sesioidea is a superfamily containing clearwing moths (Sesiidae), castniid moths (Castniidae) and little bear moths (Brachodidae). There is evidence from head and thoracic morphology that the first two families, internally feeding in plants as caterpillars, are sisters, whilst some brachodids are known to feed on leaf surfaces. Sesioidea is closely related to Cossoidea, which contains the also internal-feeding Goat and Leopard moths, and recent taxonomic treatments consider the sessoid families as part of Cossoidea sensu lato.

<span class="mw-page-title-main">Gelechioidea</span> Superfamily of moths

Gelechioidea is the superfamily of moths that contains the case-bearers, twirler moths, and relatives, also simply called curved-horn moths or gelechioid moths. It is a large and poorly understood '"micromoth" superfamily, constituting one of the basal lineages of the Ditrysia.

<span class="mw-page-title-main">Cossoidea</span> Superfamily of moths

Cossoidea is the superfamily of moths that includes carpenter moths and relatives. Like their likely sister group Sesioidea they are internal feeders and have spiny pupae with moveable segments to allow them to extrude out of their exit holes in stems and trunks during emergence of the adult.

<span class="mw-page-title-main">Acrolophinae</span> Moth family containing the burrowing webworm moths

Acrolophinae is a family of moths in the order Lepidoptera. The subfamily comprises the burrowing webworm moths and tube moths and holds about 300 species in five genera, which occur in the wild only in the New World. It is closely related to the family Tineidae.

Arrhenophaninae is a subfamily of moths in family Psychidae. It was once recognised as a family, but has been found deeply nested in Psychidae in phylogenetic studies.

<span class="mw-page-title-main">Hedylidae</span> Family of moth-like butterflies

Hedylidae, the "American moth-butterflies", is a family of insects in the order Lepidoptera, representing the superfamily Hedyloidea. They have traditionally been viewed as an extant sister group of the butterfly superfamily Papilionoidea, but a 2014 phylogenetic analyses has suggested Hedylidae is a subgroup of Papilionoidea, and not a sister group, and are more accurately referred to as butterflies rather than moths. They are represented by a single Neotropical genus Macrosoma with 35 currently recognized species.

<span class="mw-page-title-main">Carposinoidea</span> Superfamily of moths

Carposinoidea, the "fruitworm moths", is a superfamily of insects in the lepidopteran order. The superfamily is also known as Copromorphoidea, which is a junior synonym. These moths are small to medium-sized and are broad-winged bearing some resemblance to the superfamilies Tortricoidea and Immoidea. The antennae are often "pectinate" especially in males, and many species of these well camouflaged moths bear raised tufts of scales on the wings and a specialised fringe of scales at the base of the hindwing sometimes in females only; there are a number of other structural characteristics. The position of this superfamily is not certain, but it has been placed in the natural group of "Apoditrysia" "Obtectomera", rather than with the superfamilies Alucitoidea or Epermenioidea within which it has sometimes previously been placed, on the grounds that shared larval and pupal characteristics of these groups have probably evolved independently. It has been suggested that the division into two families should be abandoned.

<span class="mw-page-title-main">Pterolonchidae</span> Family of moths

Pterolonchidae is a small family of very small moths in the superfamily Gelechioidea. There are species native to every continent except Australia and Antarctica.

Prodidactis mystica is an enigmatic Pyraloidea-like moth from southern Africa which has been placed in its own family, Prodidactidae and which belongs in the lepidopteran group Apoditrysia. Its closest relative amongst this large group of Lepidoptera is uncertain, but morphological and molecular evidence suggests placement of Prodidactidae in Hyblaeoidea. The larval food plant is Nuxia congesta (Stilbaceae).

<span class="mw-page-title-main">Taxonomy of the Lepidoptera</span> Classification of moths and butterflies

The insect order Lepidoptera consists of moths, most of which are night-flying, and a derived group, mainly day-flying, called butterflies. Within Lepidoptera as a whole, the groups listed below before Glossata contain a few basal families accounting for less than 200 species; the bulk of Lepidoptera are in the Glossata. Similarly, within the Glossata, there are a few basal groups listed first, with the bulk of species in the Heteroneura. Basal groups within Heteroneura cannot be defined with as much confidence, as there are still some disputes concerning the proper relations among these groups. At the family level, however, most groups are well defined, and the families are commonly used by hobbyists and scientists alike.

<span class="mw-page-title-main">Cimeliidae</span> Family of moths

Cimeliidae, the gold moths, is a family of moths that is now placed in the macroheteroceran superfamily Drepanoidea, although previously placed in its own superfamily. Uniquely, they have a pair of pocket-like organs on the seventh abdominal spiracle of the adult moth which are only possibly sound receptive organs. They are quite large and brightly coloured moths that occur in southern Europe and feed on species of Euphorbia. Sometimes they are attracted to light. The family was first described by Pierre Chrétien in 1916.

<span class="mw-page-title-main">Obtectomera</span> Clade of macro-moths and butterflies

The Obtectomera is a clade of macro-moths and butterflies, comprising over 100,000 species in at least 12 superfamilies.

Coelopoeta is a relatively divergent genus of small moths in the superfamily Gelechioidea, which have only been found in western North America.

Coelopoeta glutinosi is a tiny species of moth in the superfamily Gelechioidea. It is found in California in the United States.

Epimarptidae was a former, or is a possible, monotypic family of moths in the moth superfamily Gelechioidea. It can now be seen as either a synonym of family Batrachedridae, or a monotypic subfamily of that family.

The Macroheterocera are a well supported clade of moths that are closely related to butterflies and macro-moths.

<i>Pterolonche</i> Genus of moth

Pterolonche is small genus of small moths of the family Pterolonchidae.

References

  1. Kaila, Lauri; Epstein, Marc E.; Heikkilä, Maria; Mutanen, Marko (2013). "The assignment of Prodidactidae to Hyblaeoidea, with remarks on Thyridoidea (Lepidoptera)". Zootaxa. 3682 (3): 485–494. CiteSeerX   10.1.1.348.5228 . doi:10.11646/zootaxa.3682.3.9. PMID   25243303.
  2. Mutanen, Marko; Wahlberg, Niklas; Kaila, Lauri (2010). "Comprehensive gene and taxon coverage elucidates radiation patterns in moths and butterflies". Proceedings of the Royal Society B: Biological Sciences. 277 (1695): 2839–2848. doi: 10.1098/rspb.2010.0392 . PMC   2981981 . PMID   20444718.
  3. Wahlberg, Niklas; Wheat, Christopher W.; Peña, Carlos (2013). "Timing and Patterns in the Taxonomic Diversification of Lepidoptera (Butterflies and Moths)". PLOS ONE. 8 (11): e80875. Bibcode:2013PLoSO...880875W. doi: 10.1371/journal.pone.0080875 . PMC   3839996 . PMID   24282557.
  4. Heikkilä, Maria; Mutanen, Marko; Wahlberg, Niklas; Sihvonen, Pasi; Kaila, Lauri (2015). "Elusive ditrysian phylogeny: an account of combining systematized morphology with molecular data (Lepidoptera)". BMC Evolutionary Biology. 15: 260. doi: 10.1186/s12862-015-0520-0 . PMC   4654798 . PMID   26589618. S2CID   15327767.
  5. Dugdale, J.S.; Kristensen, Niels Peder; Robinson, Gaden S.; Scoble, Malcolm J. (1999). "The smaller Microlepidoptera grade superfamilies, Chapter 13". In Kristensen, Niels Peder (ed.). Lepidoptera, Moths and Butterflies. Volume 1: Evolution, Systematics, and Biogeography. Handbuch der Zoologie. Eine Naturgeschichte der Stämme des Tierreiches / Handbook of Zoology. A Natural History of the phyla of the Animal Kingdom. Band / Volume IV Arthropoda: Insecta Teilband / Part 35. Berlin, New York: Walter de Gruyter. pp. 217–232.
  6. Robinson, Gaden S.; Ackery, P. R.; Kitching, Ian J.; Beccaloni, G. W.; Hernández, L. M. (2010). "HOSTS - A Database of the World's Lepidopteran Hostplants. www.nhm.ac.uk/hosts". London: Natural History Museum. Archived from the original on 2020-07-14. Retrieved 2020-07-29.

Sources