Alabama argillacea | |
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Scientific classification | |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Lepidoptera |
Superfamily: | Noctuoidea |
Family: | Erebidae |
Subfamily: | Scoliopteryginae |
Genus: | Alabama Grote, 1895 |
Species: | A. argillacea |
Binomial name | |
Alabama argillacea (Hübner, 1823) | |
Synonyms | |
Generic
Specific
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Alabama argillacea, the cotton leafworm or cotton worm, [1] [2] is a moth of the family Erebidae. It is native to the New World, but has been extirpated from the United States and Canada, having not been recorded since 1998. [3] In the Neotropics, it can be found from Mexico to northern Argentina. The larva is considered a pest of cotton. They feed on the leaves, twigs, and buds.
Alabama argillacea is the only species in the monotypic genus Alabama, which was erected by Augustus Radcliffe Grote in 1895. The species was first described by Jacob Hübner in 1823. [4] [5] The Global Lepidoptera Names Index gives this name as a synonym of Anomis Hübner, [1821] [6]
The adult moth has light brown to orange wings. It wingspan varies from 25 to 35 mm. The larvae are up to 40 mm long, green or brownish with black and white stripes. They have a characteristic pattern of black dots on each segment. [7]
Alabama argillacea is a specialist feeder on Gossypieae, [8] which includes cotton and its close relatives. Like other anomine erebids, its distribution is primarily tropical and only migrates north in the summer and fall under favorable conditions. Its eggs are sensitive and cannot tolerate any amount of frost in the winter, restricting the adults to historically spend the winter in Florida and Texas. [9] However, its eggs may have never overwintered at all in the United States. [10] Any adults which found themselves up north in the fall would have died by the first frost. Females lay an average of 400 eggs, [9] which is unusually high for a noctuoid.
The entirety of the damage done to cotton is done by the larvae. Young instars feed primarily the underside of the leaves, skeletonizing them as they feed. Older instars move vertically and feed on the younger, fresher foliage near the bolls and sometimes on the bolls themselves. [8] Depending on latitude, two to eight generations could have occurred in the United States each year. [8] [9] [10] This made them an especially dangerous pest, as they fed year-round in some locations. In especially bad years, the larvae destroyed over a third of cotton crops. [9] This resulted in the United States losing almost $30 million a year in lost profits (over $700 million in today's terms). [9] Adults feed at flowers of many different species, but are probably not significant pollinators. Being a migratory species, the population of Alabama argillacea varied drastically from year-to-year and even location-to-location. No reliable records of A. argillacea exist from before 1793. [9] The largest outbreaks occurred in 1804, 1825, 1846, 1868, and 1873, with intervening years having very minimal damage. [9]
Much effort went into predicting when and where the caterpillars would strike next, but this research generated very little in terms of accurate predicting tools. [9] When it struck, the destruction was nothing short of complete. In a letter to The American Agriculturalist in September 1846, farmer Thomas Affleck gave the following account of the destruction of A. argillacea:
The Caterpillar ... has utterly blighted the hopes of the cotton-planter for the present year, and produced most anxious fears for the future. I have heard from the greater part of the cotton-growing region—the news is all alike—the worm has destroyed the crop. I have no idea that any considerable portion of any State will escape. ... The fields present a most melancholy appearance by looking from the bluff at Natchez across the river to those fine plantations back of Vidalia, nothing is to be seen but the brown withered skeleton of the plant. [11]
Before the advent of organic insecticides in the 1940s, outbreaks of Alabama argillacea went largely unchecked. [10] Riley (1885) [9] provides a detailed account of dozens of different methods used to attempt to kill Alabama argillacea. Some were simple, such as killing the larvae by hand or allowing poultry to roam through the cotton fields and eat the larvae they find. Later patented methods were more complicated: a sweeping-plow that brushed larvae off the leaves and buried them underground, light traps which used chemical compounds to kill adults, and soaking cotton seeds in poison under the false belief that the eggs were laid in the seeds. Still other methods were counterproductive. At least one farmer was so distraught by the damage caused A. argillacea that he built dozens of large bonfires around his fields in the hopes that the adult moths would be attracted to the light and destroy themselves in the flames. As it turned out, moths were attracted to the flames, but did not fly into them. All the farmer ended up doing was attracting additional moths to his property from miles away. [9]
When large amounts of these insecticides were applied to cotton crops in southern Texas early in the cotton-growing season, the population of A. argillacea would take so long to build up such that any migration that occurred north later in the season became insignificant. [10] It was not long after this that A. argillacea became rare to see north of the Rio Grande. By the 1970s some states were seeing the moth for the last time. The last confirmed record for New York came in 1977, for Pennsylvania in 1968, and for North Carolina in 1973. [3] The last confirmed United States record was collected in October 1998 in Louisiana. [3]
In addition to insecticides, state and local agencies created programs to destroy wild cotton when it was found on non-agricultural lands. This was done to prevent the spread and reservoir of cotton pests. [3] Because of this, several native species of cotton are now on protected species lists. Finally, the Americas have seen a general shift away from cotton as a significant cash crop. This is because cotton is pesticide- and labor-intensive, returns less of a profit than alternative synthetic fiber products, and other crops have a higher demand. [3]
A. argillacea is still a major pest in South America, where agricultural practices have not caught up yet to those elsewhere. [3] When the same management strategies are applied in South America, it likely will not be long until A. argillacea becomes truly extinct. Its only hope may ride on its ability to utilize Hampea spp. as a host. [10]
Helicoverpa zea, commonly known as the corn earworm, is a species in the family Noctuidae. The larva of the moth Helicoverpa zea is a major agricultural pest. Since it is polyphagous during the larval stage, the species has been given many different common names, including the cotton bollworm and the tomato fruitworm. It also consumes a wide variety of other crops.
The Colorado potato beetle, also known as the Colorado beetle, the ten-striped spearman, the ten-lined potato beetle, or the potato bug, is a major pest of potato crops. It is about 10 mm long, with a bright yellow/orange body and five bold brown stripes along the length of each of its elytra. Native to the Rocky Mountains, it spread rapidly in potato crops across America and then Europe from 1859 onwards.
The light brown apple moth is a leafroller moth belonging to the lepidopteran family Tortricidae.
The pink bollworm is an insect known for being a pest in cotton farming. The adult is a small, thin, gray moth with fringed wings. The larva is a dull white caterpillar with eight pairs of legs with conspicuous pink banding along its dorsum. The larva reaches one half inch in length.
The African armyworm, also called okalombo, kommandowurm, or nutgrass armyworm, is a species of moth of the family Noctuidae. The larvae often exhibit marching behavior when traveling to feeding sites, leading to the common name "armyworm". The caterpillars exhibit density-dependent polyphenism where larvae raised in isolation are green, while those raised in groups are black. These phases are termed solitaria and gregaria, respectively. Gregaria caterpillars are considered very deleterious pests, capable of destroying entire crops in a matter of weeks. The larvae feed on all types of grasses, early stages of cereal crops, sugarcane, and occasionally on coconut. The solitaria caterpillars are less active and undergo much slower development. The species is commonly found in Africa, but can also be seen in Yemen, some Pacific islands, and parts of Australia. African armyworm outbreaks tend to be devastating for farmland and pasture in these areas, with the highest-density outbreaks occurring during the rainy season after periods of prolonged drought. During the long dry seasons ("off-season"), the population densities are very low and no outbreaks are seen.
The cotton bollworm, corn earworm, or Old World (African) bollworm is a moth, the larvae of which feed on a wide range of plants, including many important cultivated crops. It is a major pest in cotton and one of the most polyphagous and cosmopolitan pest species. It should not be confused with the similarly named, related species Helicoverpa zea.
The diamondback moth, sometimes called the cabbage moth, is a moth species of the family Plutellidae and genus Plutella. The small, grayish-brown moth sometimes has a cream-colored band that forms a diamond along its back. The species may have originated in Europe, South Africa, or the Mediterranean region, but it has now spread worldwide.
The leek moth or onion leaf miner is a species of moth of family Acrolepiidae and the genus Acrolepiopsis. The species is native to Europe and Siberia, but is also found in North America, where it is an invasive species. While it was initially recorded in Hawaii, this was actually a misidentification of Acrolepiopsis sapporensis.
Agrotis ipsilon, the dark sword-grass, black cutworm, greasy cutworm, floodplain cutworm or ipsilon dart, is a small noctuid moth found worldwide. The moth gets its scientific name from black markings on its forewings shaped like the letter "Y" or the Greek letter upsilon. The larvae are known as "cutworms" because they cut plants and other crops. The larvae are serious agricultural pests and feed on nearly all varieties of vegetables and many important grains.
Spodoptera littoralis, also referred to as the African cotton leafworm or Egyptian cotton leafworm or Mediterranean brocade, is a species of moth in the family Noctuidae. S. littoralis is found widely in Africa, Mediterranean Europe and Middle Eastern countries. It is a highly polyphagous organism that is a pest of many cultivated plants and crops. As a result, this species was assigned the label of A2 quarantine pest by the EPPO and was cautioned as a highly invasive species in the United States. The devastating impacts caused by these pests have led to the development of both biological and chemical control methods. This moth is often confused with Spodoptera litura.
Peridroma saucia, the pearly underwing or variegated cutworm, is a moth of the family Noctuidae. The species was first described by Jacob Hübner in 1808. It is found in North and South America, Europe, Asia and Africa. The variegated cutworm feeds on many plants, especially common fruits and vegetables. The moth undergoes two to four generations per year. The development of the moth slows in colder temperatures, indicative of its migratory nature. All stages of the life cycle have a developmental threshold for temperature. The moth is known to migrate to the northern regions during warmer months, returning to the southern regions when the climate becomes colder.
Helicoverpa punctigera, the native budworm, Australian bollwormor Chloridea marmada, is a species of moth in the family Noctuidae. This species is native to Australia. H. punctigera are capable of long distance migration from their inland Australian habitat towards coastal regions and are an occasional migrant to New Zealand.
Chloridea virescens, commonly known as the tobacco budworm, is a moth of the family Noctuidae found throughout the eastern and southwestern United States along with parts of Central America and South America.
Spodoptera eridania is a moth that is known to be a pest. They are one of the most important defoliators in the tropical and subtropical regions of the western hemisphere that feed heavily on plants while they are young, often resulting in skeleton leaves on their food plants. They are also heavy feeders on tomato in Florida. There is a lot of development in producing pesticides against the S. eridania, specifically a neem-based pesticide that can result in smaller and prolonged development. The wingspan is 33–38 mm. Adults are on wing year-round. The larvae feed on various weeds but prefer Amaranthus species and Phytolacca americana.
Crocidolomia pavonana is a moth of the family Crambidae. Its caterpillar is a crop pest and is known as the croci or the cabbage cluster caterpillar. This moth is found in Africa and Asia, its range extending from South Africa through India to the Pacific Ocean, including Australia. The wingspan is about 25 mm (1 in). The larvae feed on Brassicaceae species and are considered an agricultural pest on cabbages. At first, they feed only on the undersides of the leaves. Later they feed on the rest of the leaves and the central shoot. The species was first described by Johan Christian Fabricius in 1794.
Ascia monuste, the great southern white or pirpinto in Argentina, is a butterfly which is the only species in the genus Ascia of the family Pieridae. In this species the sexes may differ with the female being either light or dark colored. It is found from the Atlantic and Gulf coasts of the United States, and south through tropical America to Argentina. It is migratory along the southeastern coast of the United States, with strays to Maryland, Kansas, and Colorado.
Archips cerasivorana, the ugly-nest caterpillar moth, is a species of moth of the family Tortricidae. The caterpillars of this species are known to create nests by tying the leaves of their host plant together. Within the nests, they live and feed off the leaves that have been tied together. The larvae are brownish or greenish yellow with a shiny dark brown head. Larvae can be found from May to July. The species overwinters as an egg, and pupation takes place within the nest. Caterpillars are seen follow one another in trails, a behavior prompted by the release of signaling pheromones from their spinnerets.
Ostrinia furnacalis is a species of moth in the family Crambidae, the grass moths. It was described by Achille Guenée in 1854 and is known by the common name Asian corn borer since this species is found in Asia and feeds mainly on corn crop. The moth is found from China to Australia, including in Java, Sulawesi, the Philippines, Borneo, New Guinea, the Solomon Islands, and Micronesia. The Asian corn borer is part of the species complex, Ostrinia, in which members are difficult to distinguish based on appearance. Other Ostrinia such as O. orientalis, O. scapulalis, O. zealis, and O. zaguliaevi can occur with O. furnacalis, and the taxa can be hard to tell apart.
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