Helicoverpa_armigera

<i>Helicoverpa armigera</i>

Helicoverpa armigera

Species of moth

Quick Facts Cotton bollworm, Scientific classification ...

Helicoverpa armigera is a species of Lepidoptera in the family Noctuidae. It is known as the cotton bollworm, corn earworm, Old World (African) bollworm, or scarce bordered straw (the lattermost in the UK, where it is a migrant).[2][1] The larvae 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 larva of the related species Helicoverpa zea.

Distribution

This species comprises two sub-species: Helicoverpa armigera armigera is native and widespread in central and southern Europe, temperate Asia and Africa; Helicoverpa armigera conferta is native to Australia, and Oceania.[3] The former sub-species has also recently been confirmed to have successfully invaded Brazil[4] and has since spread across much of South America and reached the Caribbean. It is a migrant species, able to reach Scandinavia and other northern territories.[5]

Morphology

Eggs
Larva
Maize field habitat, Poland

The cotton bollworm is very variable in both size and colour. The body length varies between 12 and 20 millimetres (12 and 34 in) with a wingspan of 30–40 millimetres (1+141+12 in). The fore wings are yellowish to orange in females and greenish-gray in males, with a slightly darker transversal band in the distal third.[6] The external transversal and submarginal lines and the reniform spot are diffused. The hind wings are a pale yellow with a narrow brown band at the external edge and a dark round spot in the middle.[5]

Lifecycle

Lateral view
Mounted, dorsal view
Mounted, ventral view

The female cotton bollworm can lay several hundred eggs, distributed on various parts of the plant. Under favourable conditions, the eggs can hatch into larvae within three days and the whole lifecycle can be completed in just over a month.[6]

The eggs are spherical and 0.4 to 0.6 millimetres (164 to 3128 in) in diameter, and have a ribbed surface. They are white, later becoming greenish.[5]

The larvae take 13 to 22 days to develop, reaching up to 40 millimetres (1+12 in) long in the sixth instar. Their colouring is variable, but mostly greenish and yellow to red-brown. The head is yellow with several spots. Three dark stripes extend along the dorsal side and one yellow light stripe is situated under the spiracles on the lateral side. The ventral parts of the larvae are pale.[5] They are rather aggressive, occasionally carnivorous and may even cannibalise each other. If disturbed, they fall from the plant and curl up on the ground.

The pupae develop inside a silken cocoon[6] over 10 to 15 days in soil at a depth of 4–10 centimetres (1+12–4 in), or in cotton bolls or maize ears.[5]

Host plants

The cotton bollworm is a highly polyphagous species.[7] The most important crop hosts are tomato, cotton, pigeon pea, chickpea, rice, sorghum, and cowpea. Other hosts include groundnut, okra, peas, field beans, soybeans, lucerne, Phaseolus spp., other Leguminosae, tobacco, potatoes, maize, flax, Dianthus, Rosa, Pelargonium, Chrysanthemum, Lavandula angustifolia, a number of fruit trees, forest trees, and a range of vegetable crops.[1] In Russia and adjacent countries, the larvae populate more than 120 plant species, favouring Solanum, Datura, Hyoscyamus, Atriplex, and Amaranthus genera.[5]

Economic significance

The greatest damage is caused to cotton, tomatoes, maize, chick peas, alfalfa, and tobacco. The economic threshold of harmfulness in central Asia is three to five larvae per hundred plants of long-staple cotton and eight to twelve larvae per hundred plants on medium-staple cotton.[5] In cotton crops, blooms that have been attacked may open prematurely and stay fruitless. When the bolls are damaged, some will fall off and others will fail to produce lint or produce lint of an inferior quality. Secondary infections by fungi and bacteria are common and may lead to rotting of fruits. Injury to the growing tips of plants may disturb their development, maturity may be delayed, and the fruits may be dropped.[6] Control measures include the use of NOCTOVI adulticide attract and kill formulation,[8] growing of resistant varieties, weeding, inter-row cultivation, removing crop residues, deep autumn ploughing, winter watering to destroy the pupae, the use of insecticides or biological control through the release of entomophages such as Trichogramma spp. and Habrobracon hebetor. Monitoring is possible by the use of sex pheromone traps.[5][9] Development of Bt cotton (genetically modified to produce Bacillus thuringiensis toxin) improved yields of lint.[10]

Genetics

The genomes of Helicoverpa armigera conferta and Helicoverpa zea were published in July 2017.[citation needed] Significant differences have been identified between Chinese and Greek populations, and between those tending toward short migration and long migration. H. armigera populations already had widespread resistance to the Bt toxins Cry1Ab, Cry1Ac, Cry2Ab, and Vip3A before the multiple recent invasions of South America. The existence/prevalence of anti-Cry mutations (for example mutations in ABCA2) and other insecticide resistance mutations (for example, the cytochrome p450 mutation CYP337B3) is unassessed as of 2019 and such information will be needed to monitor changes in resistance across populations over time.[3]

Population genetics

Overall H. amerigera is the best characterised out of Helicoverpa due to its longstanding and severe agricultural impact.[3]

Management

Prevention

The CABI-led programme, Plantwise and their partners suggest planting trap crops and intercropping with crops including cowpea, sunflower, maize, marigold. They also recommend rotating with cereal crops and other non-host crops to prevent the population from building up.[11][12][13][14]

Partners of Plantwise suggest introducing spacing when planting, removing weeds, crop residues and volunteer crops.[15]

Introducing bird perches and providing habitats for natural enemies are methods that can be used to prevent pest populations building up.[12][13][14][15]

Monitoring

The caterpillars feed on buds, flowers, grains, fruits, pods; sometimes leaves and stems. In cotton they are found on the vegetative part and reproductive structures. In corn, millet at sorghum they attack the grain. In tomato and beans caterpillars bore into young fruits and in chickpea they attack foliage and consume developing seeds.[14]

Direct control

In small plots, Plantwise suggests handpicking and destroying eggs and young caterpillars is possible.[14]

CABI and Plantwise partners recommend introducing light and pheromone traps to trap adult moths.[11][12][14][15]

Plantwise and partners have suggested the release of natural enemies, including the parasitoid Trichogramma brassilences or T. pretiosum as methods of control.[14][15]

Sources

References

  1. [1]
    "Pest Risk Analysis" (PDF). Archived from the original (PDF) on 2010-11-17. Retrieved 2010-11-27.
  2. [2]
    Waring, Paul; Martin Townsend & Richard Lewington (2003). Field Guide to the Moths of Great Britain and Ireland. British Wildlife Publishing. p. 374.
  3. [3]
    Jones, Christopher M.; Parry, Hazel; Tay, Wee Tek; Reynolds, Don R.; Chapman, Jason W. (2019-01-07). "Movement Ecology of Pest Helicoverpa: Implications for Ongoing Spread". Annual Review of Entomology. 64 (1). Annual Reviews: 277–295. doi:10.1146/annurev-ento-011118-111959. ISSN 0066-4170. PMID 30296859. S2CID 52944198.
  4. [4]
    Downes, Sharon; Anderson, Craig; Behere, Gajanan T.; Silvie, Pierre; Thomazoni, Danielle; Walsh, Thomas; Soria, Miguel F.; Tay, Wee Tek (November 18, 2013). "A Brave New World for an Old World Pest: Helicoverpa armigera (Lepidoptera: Noctuidae) in Brazil". PLOS ONE. 8 (11): e80134. Bibcode:2013PLoSO...880134T. doi:10.1371/journal.pone.0080134. PMC 3832445. PMID 24260345.
  5. [5]
    "AgroAtlas - Pests - Helicoverpa armigera Hbn. - Cotton Bollworm". www.agroatlas.ru.
  6. [6]
    "Crop Compendium - Bayer - Crop Science". www.cropscience.bayer.com.
  7. [7]
    Robinson, G. S.; P. R. Ackery; I. J. Kitching; G. W. Beccaloni; L. M. Hernández (2010). "HOSTS – A Database of the World's Lepidopteran Hostplants". London: Natural History Museum. doi:10.5519/havt50xw.
  8. [8]
    "Isca Tecnologias - Produtos - Acttra Noctuideo". www.isca.com.br. Retrieved 2021-07-09.
  9. [9]
    "ISCA Technologies Integrated Pest Management (IPM) Tools & Solutions". ISCA Technologies. Retrieved 2021-07-09.
  10. [10]
    "Bt Cotton". www.bt.ucsd.edu.
  11. [11]
    Gebreslasie, A.; g-Ziher, K. (2018). "Plantwise Knowledge Bank | Cotton boll worm in chickpea - Ethiopia". Plantwiseplus Knowledge Bank. Pest Management Decision Guides. doi:10.1079/pwkb.20197800261. S2CID 213082645. Retrieved 2020-06-03.
  12. [12]
    "Plantwise Knowledge Bank | Cotton bollworm - Ghana". Plantwiseplus Knowledge Bank. Pest Management Decision Guides. 2018. doi:10.1079/pwkb.20177801290. S2CID 253990995. Retrieved 2020-06-03.
  13. [13]
    Robert, R. A.; Gayi, D. (2018). "Plantwise Knowledge Bank | Bollworm on cotton - Uganda". Plantwiseplus Knowledge Bank. Pest Management Decision Guides. doi:10.1079/pwkb.20177800277. S2CID 253998514. Retrieved 2020-06-03.
  14. [14]
    "Plantwise Knowledge Bank | Cotton bollworm". Plantwiseplus Knowledge Bank. Pest Management Decision Guides. 2018. doi:10.1079/pwkb.20167800979. Retrieved 2020-06-03.
  15. [15]
    Bali, K.; Kumar, S.; Khajuria, A. (2018). "Plantwise Knowledge Bank | Tomato fruit borer - India". Plantwiseplus Knowledge Bank. Pest Management Decision Guides. doi:10.1079/pwkb.20187800876. S2CID 253999055. Retrieved 2020-06-03.
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