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''Bruchus pisorum'', known generally as pea weevil, is a species of
The behavior of the pea weevil is poorly understood. When pea weevil arrives in a pea crop, they congregate along its edge, just how they find the crop and why they stay close to the edge for some time is not known. However, it appears that the range of species acceptable for
leaf beetle
The insects of the beetle family Chrysomelidae are commonly known as leaf beetles, and include over 37,000 (and probably at least 50,000) species in more than 2,500 genera, making up one of the largest and most commonly encountered of all beetle ...
in the family Chrysomelidae
The insects of the beetle family Chrysomelidae are commonly known as leaf beetles, and include over 37,000 (and probably at least 50,000) species in more than 2,500 genera, making up one of the largest and most commonly encountered of all beetle ...
. Other common names include the pea beetle and pea seed beetle. It is found in Europe and Northern Asia (excluding China), North America, and temperate Asia.
Taxonomy
''Bruchus pisorum'', commonly known as the pea weevil, was described by Linnaeus (1758) and given the name ''Dermestes pisorum'',Linnaeus
Carl Linnaeus (; 23 May 1707 – 10 January 1778), also known after his ennoblement in 1761 as Carl von Linné Blunt (2004), p. 171. (), was a Swedish botanist, zoologist, taxonomist, and physician who formalised binomial nomenclature, the ...
(1767) later created the genus ''Bruchus'' for seed-beetles and designed ''B. pisorum'' as the type species. The genus ''Bruchus'' was originally placed within the family Curculionidae
The Curculionidae are a family of weevils, commonly called snout beetles or true weevils. They are one of the largest animal families, with 6,800 genera and 83,000 species described worldwide. They are the sister group to the family Brentidae.
T ...
(weevils) because of elongated facial parts and four segmental tarsi. This is probably why it remains universally, though incorrectly, known as the pea weevil. The seed-beetles were later separated into their own family by Spinola (1843), and Lacordaire (1845) reinforced the position of Bruchidae within the superfamily Chrysomeloidea
The Chrysomeloidea are an enormous superfamily of beetles, with tens of thousands of species. The largest families are Cerambycidae, long-horned beetles, with more than 35,000 species, and Chrysomelidae, leaf beetles, with more than 13,000 specie ...
.
Description
''B. pisorum'' is a short stout beetle with an oval body about 5mm in length. It ranges in color from soft grey to black with patches of white scales that form white spots on the elytra. The elytra are shorter than the abdomen, exposing large white patches as its base. The head is short and strongly constricted behind the eyes. Antennae extend to less than one-third of the body length. The pea weevil also has a well-defined denticle on the lateral margin of the pronotum.Distribution
The natural range of ''Bruchus pisorum'' is Asia minor, wherever its host species is present (Borowiec 1987a). Its ability to survive in the dry pea seed for an extended time has led to it being transported to other regions rather than through migrating naturally, such that it is now consideredcosmopolitan
Cosmopolitan may refer to:
Food and drink
* Cosmopolitan (cocktail), also known as a "Cosmo"
History
* Rootless cosmopolitan, a Soviet derogatory epithet during Joseph Stalin's anti-Semitic campaign of 1949–1953
Hotels and resorts
* Cosmopoli ...
. Harris (1841) reported that, while on a collecting trip for Linnaeus in 1748, Peter Kalm found the pea weevil in the US and infestations were of such a high level that the pea could no longer be grown successfully as a crop in several States. The weevil has since spread and become a pest in all pea-growing areas of the US. In 1918 Skaife reported the establishment of the pea weevil in South Africa.
The pea weevil is a serious pest of peas in most of Southern Russia (Vasilev 1939). Also, a survey found the pea weevil in south-eastern Europe and the Middle East including, Bulgaria, Yugoslavia, Albania, Greece, Turkey, Syria, Lebanon, Israel, Iran and Afghanistan (Borowiec 1987b). Its presence has also been reported in Japan (Yoshida 1959) and part of China (Anon 1966). It is also found in South America and has been described as the principal pest of peas in Chile (Olalquiga 1953). By the early 1930s, the peas weevil was established in several areas of South Western Australia (Newman 1932)
Life cycle
The pea weevil is a univoltine species. In South Australia, adult weevils leave their over-wintering sites and arrive in pea crops in early Spring. They may arrive as early as mid-August, but most years they arrive in early September (Baker 1990a). Estimates of fecundity range from three eggs to 735 eggs per female. The bright yellow-orange eggs are laid singly on the surface pods and eggs usually hatch in three to five weeks, depending on the temperature. (Skaife 1918). Young larvae chew directly through the pod wall from the underside of the egg. Once inside the pod, they search for a soft developing seed. The pea weevil has four distinct larval instars (Brindley 1933). Larval development ranges from seven to 11 weeks and pupation from two to three weeks. Adults either emerge over summer from the seed of unharvested crops and fly to overwintering sites or remain in the harvested seed until the following Spring, or until they are disturbed.Behavior
The behavior of the pea weevil is poorly understood. When pea weevil arrives in a pea crop, they congregate along its edge, just how they find the crop and why they stay close to the edge for some time is not known. However, it appears that the range of species acceptable for oviposition
The ovipositor is a tube-like organ used by some animals, especially insects, for the laying of eggs. In insects, an ovipositor consists of a maximum of three pairs of appendages. The details and morphology of the ovipositor vary, but typical ...
is narrower than the range suitable for larval development (Jermy and Szentesi 1978). This was confirmed by Annis and Okeeffe (1984a) who found no difference in survival of larvae placed in green pods of ''P. sativum'' and ''L. saivus.''
The arrival of pea weevil is a crop that often coincides with the commencement of flowering, but if there are no flowers they shelter in the vegetative parts of the crop. Panji and Sood (1975) found that feeding on pea pollen by both sexes was a prerequisite for copulation whereas Pesho and Van Houton (1982) found the ingestion of pea pollen did not initiate the development of ovaries. Ovaries of weevil have been shown to mature when the adult feeds on pollen of species other than that of cultivated pea (Annis and Okeeffe 1984b).Annis B and O’Keefe, L.E (1984b) Effect of pollen source on oogenesis in the pea weevil, Bruchus pisurum L. (Coleoptera:Bruchidae) Prot Ecol 6:267-266
The females fly through the crop searching for pea pods on which to oviposit
The ovipositor is a tube-like organ used by some animals, especially insects, for the laying of eggs. In insects, an ovipositor consists of a maximum of three pairs of appendages. The details and morphology of the ovipositor vary, but typical ...
. It is not known if this is a random process or if they select pods of a particular length and age. It is also unknown whatever the presence of eggs on a pod influences subsequent oviposition on it. Longer pods have more eggs, and few eggs are laid on pods once seeds have filled (Brindley 1933: Smith 1990).
Notes
References
* Borowiec L. (1987b) The seed-beetles (Coleopatra, Bruchidae) from the Middle East. Polskie Pismo Entomol 57:601-616 * Borowiec L. (1987a) The genera of seed-beetles (Coleopatra, Bruchidae). Polskie Pismo Entomol 57:3-207 * Spinola M. (1843). Dei Prioniti e die Coleotteri ad essi piu affini osservazioni Mem Acad Torino: 1:387-418 * Whitehead F.E (1930) The pea weevil problem J Econ Entomol.23:398-401 * Annis B and O’Keefe, L.E (1984a) Response of two Lathyrus species to infestation by pea weevil Bruchus pisorum L. (Coleoptera:Bruchidae) Entomol Exp Appl. 35:83-87 * Annis B and O’Keefe, L.E (1984b) Effect of pollen source on oogenesis in the pea weevil, Bruchus pisurum L. (Coleoptera:Bruchidae) Prot Ecol 6:267-266 * Anon (1966). Biology and control of the pea weevil in Lotien, Hupeh. Acta Entomol Sinica 15:288-293. * Olalquiaga (1953). Pest of edible legumes in Chile. Plant Prot Bull FAO 11:166-168 * Newman, L, J (1932). The pea Weevil. J Agric (West Aust).297-300 * Newman, L, J and Elliott H. G. (1938). The pea weevil, Bruchus pisorum (Linn). J Agric (West Aust). 156-168 * Birks, P. R. (1965)Pea weevil-a new insect of peas in South Australia J Agric (South Aust). 156-160 * Skaife, S. H. (1918) Pea and Bean weevils. Bulletin of Department of Agriculture, Union of South Africa. 12:1-11 * Panji, H.R ,. And Sood, S. (1975). Effect of pea pollen feeding on maturation and copulation in the beetle, Bruchus pisorum L. Indian J Grain Technol. 13:202-203 * Panji, H.R ,. And Sood, S. (1976). Some observations on the biology of pea-weevil, Bruchus pisorum L. (Coleoptera ; Bruchidae). Ann Entomol Soc Am. 75: 439-443 * Jermy, T. and Szentesi A. (1978). The role of inhibitory stimuli in the choice oviposition site by phytophagus insects. Entomol Exp Appl. 24:258-271External links
* {{Taxonbar, from=Q1310545 Bruchinae Articles created by Qbugbot Beetles described in 1758 Taxa named by Carl Linnaeus