The Noctuidae, commonly known as owlet moths, or armyworms, are a family of . Taxonomically, they are considered the most controversial family in the superfamily Noctuoidea because many of the are constantly changing, along with the other families of the Noctuoidea.
Description
Adult: Most noctuid adults have wings with a variety of shades of browns, grays, and other varied shades and colourations but some subfamilies, such as
Acronictinae and
Agaristinae, are very colorful, especially those from tropical regions (e.g.
Baorisa hieroglyphica). They are characterized by a structure in the
metathorax called the nodular sclerite or epaulette, which separates the tympanum and the conjunctiva in the
tympanal organ. It functions to keep
Parasitism (
Acari) out of the tympanal cavity. Another characteristic in this group is trifine hindwing venation, by reduction or absence of the second medial vein (M2).
Markings present on the wings of noctuid adults can be helpful in distinguishing species. From the basal location to the outer edge (proximal to distal) on the forewing, there is a claviform (club-shaped) stigma, horizontally oriented with the thicker end closer to the wing's outer edge, located posterior to a discal (round) stigma.
Larva: Commonly green or brown; some species present bright colors, such as the camphorweed cucullia moth ( Cucullia alfarata). Most are pudgy and smooth with rounded short heads and few setae, but there are some exceptions in some subfamilies (e.g. Acronictinae and Pantheinae).
Pupa: The pupae most often range from shiny brown to dark brown. When they newly pupate they are bright brownish orange, but after a few days start to get darker.
: Vary in colors, but all have a spherical shape.
Etymology
The word Noctuidae is derived from the name of the type genus Noctua, which is the Latin name for the
little owl, and the patronymic suffix -idae used typically to form taxonomic family names in animals.
The common name "" originally means a small or young owl. The names "armyworms" and "cutworms" are based on the behavior of the larvae of this group, which can occur in destructive swarms and cut the stems of plants.
Ecology
Distribution and diversity
This family is cosmopolitan and can be found worldwide except in the
Antarctic region. Some species, such as the setaceous Hebrew character (
Xestia c-nigrum), can be found in the
Arctic Circle, specifically in the
Yukon territory of western
Canada, with an elevation 1,702 m above sea level, where the temperature fluctuates between 23/-25 °C (73/-13 °F).
Many species of dart moths have been recorded in elevations as high as 4,000 m above sea level (e.g.
Xestia elisabetha).
Among the places where the number of species has been counted are North America and northern
Mexico, with about 2,522 species. 1,576 species are found in Europe, while the other species are distributed worldwide.
Mutualism
Members of Noctuidae, like other butterflies and moths, perform an important role in plant
pollination. Some species have developed a stronger connection with their host plants. For example, the lychnis moth (
Hadena bicruris) has a strange mutualistic relationship with pink plants or carnation plants (
Caryophyllaceae), in that larvae feed on the plant while the adults pollinate the flowers.
Food guilds
Herbivore: Caterpillars of most Noctuidae feed on plants; some feed on poisonous plants and are unaffected by their chemical defences; for example, the splendid brocade moth (
Lacanobia splendens) feeds on cowbane (
Cicuta virosa), a plant that is notoriously toxic to vertebrates.
Predation and cannibalism: During the larval stage, some cutworms readily feed on other insects. One such species is the shivering pinion ( Lithophane querquera), whose larvae commonly feed on other lepidopteran larvae.
Nectarivore and puddling: Like many Lepidoptera, many species of adult Noctuidae visit flowers for their nectar. They also seek other liquid food resources such as plant juices, honeydew, dung, urea and mud, among others.
As is common in members of the order Lepidoptera, courtship in many Noctuidae includes a set of movements in which the female evaluates the male's reproductive fitness.
Most noctuid moths produce that attract the opposite sex. Female pheromones that attract males occur widely and have long been studied, but the study of male pheromones has further to go.
Reproduction
Noctuid moths commonly begin the reproductive season from spring to fall, and mostly are
multivoltine, such as the eastern panthea moth (
Panthea furcilla), which reproduces over the year.
Nevertheless, some species have just one brood of offspring (
Voltinism); among the best known is the lesser yellow underwing (
Noctua comes).
Defense
This group has a wide range of both chemical and physical defenses. Among the chemical defenses three types stand out. First, the pyrrolizidine alkaloid sequestration usually present in Arctiinae is also found in a few species of noctuids, including the Spanish moth (
Xanthopastis timais).
Another chemical defense is
formic acid production, which was thought to be present only in
Notodontidae, but later was found in caterpillars of
Trichosea champa.
Finally, the last type of chemical defense is regurgitation of plant compounds, often used by many insects, but the cabbage palm caterpillar (
Litoprosopus futilis) produces a toxin called toluquinone that deters predators.
On the other hand, the main physical defense in caterpillars and adults alike is mimicry. Most owlet moths have drab colors with a variety of patterns suitable to camouflage their bodies.
Human importance
Agriculture
Many species of owlet moths are considered an agricultural problem around the world. Their larvae are typically known as "cutworms" or "armyworms" due to enormous swarms that destroy crops, orchards and gardens every year. The Old World bollworm (
Helicoverpa armigera) produces losses in agriculture every year that exceed US$2 billion.
Additionally, the variegated cutworm (
Peridroma saucia) is described by many as one of the most damaging pests to vegetables.
In West Africa, species including Busseola fusca, Heliocheilus albipunctella, Sesamia calamistis, Helicoverpa armigera, and Spodoptera exempta are major pests of staple crops such as pearl millet, Sorghum bicolor, and maize.
Systematics
Since molecular analysis began to play a larger role in
systematics, the structure of many Lepidoptera groups has been changing and Noctuidae is not an exception. Most recent studies have shown that Noctuidae
sensu stricto is a
Monophyly group, mainly based on trifine venation. Some clades within Noctuidae
sensu lato have yet to be studied. This taxonomic division represents the subfamilies, tribes and subtribes considered so far.
[
]
- Family Noctuidae Latreille, 1809
- Subfamily Acontiinae Guenée, 1841
- : Tribe Acontiini Guenée, 1841
- : Tribe Armadini
- : Tribe Chamaecleini
- Subfamily Acronictinae Harris, 1841
- Subfamily Aediinae
- Subfamily Agaristinae Boisduval, 1833
- Subfamily Amphipyrinae Guenée, 1837
- : Tribe Amphipyrini Guenée, 1837
- : Tribe Psaphidini Grote, 1896
- :: Subtribe Feraliina Poole, 1995
- :: Subtribe Nocloina Poole, 1995
- :: Subtribe Psaphidina Grote, 1896
- :: Subtribe Triocnemidina Poole, 1995
- Subfamily Bagisarinae Crumb, 1956
- Subfamily Balsinae Grote, 1896
- Subfamily Bryophilinae Guenée, 1852
- Subfamily Cobubathinae Wagner & Keegan, 2021
- Subfamily Condicinae Poole, 1995
- : Tribe Condicini Poole, 1995
- : Tribe Leuconyctini Poole, 1995
- Subfamily Cropiinae Keegan & Wagner, 2021
- Subfamily Cuculliinae Herrich-Schäffer, 1850
- Subfamily Dilobinae
- Subfamily Dyopsinae
- Subfamily Eriopinae Herrich-Schäffer, 1851
- Subfamily Eucocytiinae
- Subfamily Eustrotiinae Grote, 1882
- Subfamily Grotellinae
- Subfamily Heliothinae Boisduval, 1828
- Subfamily Metoponiinae Herrich-Schäffer, 1851
- : Tribe Cydosiini Kitching & Rawlins, 1998
- Subfamily Noctuinae Latreille, 1809
- : Tribe Actinotiini Beck, 1996
- : Tribe Apameini Guenée, 1841
- : Tribe Arzamini Grote, 1883
- : Tribe Caradrinini Boisduval, 1840
- :: Subtribe Athetiina Fibiger & Lafontaine, 2005
- :: Subtribe Caradrinina Boisduval, 1840
- : Tribe Dypterygiini Forbes, 1954
- : Tribe Elaphriini Beck, 1996
- : Tribe Episemini
- : Tribe Eriopygini Fibiger & Lafontaine, 2005
- : Tribe Glottulini Guenée, 1852
- : Tribe Hadenini Guenée, 1837
- : Tribe Leucaniini Guenée, 1837
- : Tribe Noctuini Latreille, 1809
- :: Subtribe Agrotina Harris, 1841
- :: Subtribe Axyliina
- :: Subtribe Noctuina Latreille, 1809
- : Tribe Orthosiini Guenée, 1837
- : Tribe Phlogophorini Hampson, 1918
- : Tribe Phosphilini Poole, 1995
- : Tribe Prodeniini Forbes, 1954
- : Tribe Pseudeustrotiini Beck, 1996
- : Tribe Tholerini Beck, 1996
- : Tribe Xylenini Guenée, 1837
- :: Subtribe Antitypina Forbes & Franclemont, 1954
- :: Subtribe Cosmiina Guenée, 1852
- :: Subtribe Ufeina Crumb, 1956
- :: Subtribe Xylenina Guenée, 1837
- Subfamily Oncocnemidinae Forbes & Franclemont, 1954
- Subfamily Pantheinae Smith, 1898
- Subfamily Plusiinae Boisduval, 1828
- : Tribe Abrostolini Eichlin & Cunningham, 1978
- : Tribe Argyrogrammatini Eichlin & Cunningham, 1978
- : Tribe Plusiini Boisduval, 1828
- :: Subtribe Autoplusiina Kitching, 1987
- :: Subtribe Euchalciina Chou & Lu, 1979
- :: Subtribe Plusiina Boisduval, 1828
- Subfamily Raphiinae
- Subfamily Stiriinae
- : Tribe Annaphilini
- : Tribe Stiriini Grote, 1882
- :: Subtribe Annaphilina Mustelin, 2006
- :: Subtribe Azeniina Poole, 1995
- :: Subtribe Grotellina Poole, 1995
- :: Subtribe Stiriina Grote, 1882
Genera with intervening taxonomy not available include:
External links
