Boll weevil

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Boll weevil
Boll weevil.jpg
Adult on a cotton boll
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Infraorder: Cucujiformia
Family: Curculionidae
Subfamily: Curculioninae
Genus: Anthonomus
Species:
A. grandis
Binomial name
Anthonomus grandis
Boheman, 1843

The boll weevil (Anthonomus grandis) is a species of beetle in the family Curculionidae. The boll weevil feeds on cotton buds and flowers. Thought to be native to Central Mexico, [1] it migrated into the United States from Mexico in the late 19th century and had infested all U.S. cotton-growing areas by the 1920s, devastating the industry and the people working in the American South. During the late 20th century, it became a serious pest in South America as well. Since 1978, the Boll Weevil Eradication Program in the U.S. allowed full-scale cultivation to resume in many regions.

Contents

Description

The adult insect has a long snout, a grayish color, and is usually less than 6 mm (14 in) in length.

Life cycle

1) Dorsal view of adult; 2) side view of adult; 3) egg; 4) side view of larva; 5) ventral view of pupa; 6) adult, with wings spread Bulletin (1904) (20402387206).jpg
1) Dorsal view of adult; 2) side view of adult; 3) egg; 4) side view of larva; 5) ventral view of pupa; 6) adult, with wings spread

Adult weevils overwinter in well-drained areas in or near cotton fields, and farms after diapause. They emerge and enter cotton fields from early spring through midsummer, with peak emergence in late spring, and feed on immature cotton bolls.

The boll weevil lays its eggs inside buds and ripening bolls (fruits) of the cotton plants. The female can lay up to 200 eggs over a 10- to 12-day period. The oviposition leaves wounds on the exterior of the flower bud. The eggs hatch in 3 to 5 days within the cotton squares (larger buds before flowering), feed for 8 to 10 days, and then pupate. The pupal stage lasts another 5 to 7 days. The lifecycle from egg to adult spans about three weeks during the summer. Under optimal conditions, 8 to 10 generations per season may occur.

Boll weevils begin to die at temperatures at or below −5 °C (23 °F). Research at the University of Missouri indicates they cannot survive more than an hour at −15 °C (5 °F). The insulation offered by leaf litter, crop residues, and snow may enable the beetle to survive when air temperatures drop to these levels.

Other limitations on boll weevil populations include extreme heat and drought. The weevil's natural predators include fire ants, other insects, spiders, birds, and a parasitoid wasp, Catolaccus grandis . The weevils sometimes emerge from diapause before cotton buds are available.

Infestation

Cotton boll with weevil larvae. Anthonomus grandis 1233023.jpg
Cotton boll with weevil larvae.

The insect crossed the Rio Grande near Brownsville, Texas, to enter the United States from Mexico in 1892 [2] and reached southeastern Alabama in 1909. By the mid-1920s, it had entered all cotton-growing regions in the U.S., traveling 40 to 160 miles per year. It remains the most destructive cotton pest in North America. Since the boll weevil entered the United States, it has cost U.S. cotton producers about $13 billion, and in recent times about $300 million per year. [2]

The boll weevil contributed to Southern farmers' economic woes during the 1920s, a situation exacerbated by the Great Depression in the 1930s.

The boll weevil appeared in Venezuela in 1949 and Colombia in 1950. [3] The Amazon Rainforest was thought to present a barrier to the insect's further spread, until it was detected in Brazil in 1983. An estimated 90% of the cotton farms in Brazil are now infested. During the 1990s, the weevil spread to Paraguay and Argentina. The International Cotton Advisory Committee (ICAC) has proposed a control program similar to that used in the U.S. [3]

Control

During early years of the weevil's presence, growers sought relatively warm soils and early-ripening cultivars. Following World War II, the development of new pesticides such as DDT enabled U.S. farmers again to grow cotton as an economic crop. DDT was initially extremely effective, but U.S. weevil populations developed resistance by the mid-1950s. [4] Methyl parathion, malathion, and pyrethroids were subsequently used, but environmental and resistance concerns arose as they had with DDT, and control strategies changed. [4]

While many control methods have been investigated since the boll weevil entered the United States, insecticides have always remained the main control methods. In the 1980s, entomologists at Texas A&M University pointed to the spread of another invasive pest, the red imported fire ant, as a factor in the weevils' population decline in some areas. [5]

Other avenues of control that have been explored include weevil-resistant strains of cotton, [6] the parasitoid wasp Catolaccus grandis , [7] the fungus Beauveria bassiana , [8] and the Chilo iridescent virus. Genetically engineered Bt cotton is not protected from the boll weevil. [9]

Although it was possible to control the boll weevil, the necessary insecticide was costly. The goal of many cotton entomologists was to eventually eradicate the pest from U.S. cotton. In 1978, a large-scale test was begun in eastern North Carolina and in adjacent Southampton County, Virginia, to determine the feasibility of eradication. Based on the success of this test, area-wide programs were begun in the 1980s to eradicate the insect from whole regions. These are based on cooperative effort by all growers together with the assistance of the Animal and Plant Health Inspection Service (APHIS) of the United States Department of Agriculture (USDA).[ citation needed ]

Research methods were developed. The ability to distinguish between individuals which had eaten certain substances and those which had not was needed, to determine effectiveness of the active ingredients used. Lindig et al. 1980 studied several dietary dyes as markers. They find Calco Oil Red N-1700 to persist from larval feeding to adulthood, and for females to their eggs, although the resulting first instar was too faintly pink to be distinguishable. [10] [11] :1274

The program has been successful in eradicating boll weevils from all cotton-growing states with the exception of Texas, and most of this state is free of boll weevils.[ citation needed ] Problems along the southern border with Mexico have delayed eradication in the extreme southern portions of this state. Follow-up programs are in place in all cotton-growing states to prevent the reintroduction of the pest. These monitoring programs rely on pheromone-baited traps for detection.[ citation needed ] The boll weevil eradication program, although slow and costly, has paid off for cotton growers in reduced pesticide costs. This program and the screwworm program of the 1950s are among the biggest and most successful insect control programs in history. [12]

The boll weevil plaque in Enterprise, Alabama Boll Weevil monument angle at Enterprise City Hall.JPG
The boll weevil plaque in Enterprise, Alabama

Impact

The Library of Congress American Memory Project contains a number of oral history materials on the boll weevil's impact. [13]

It devastated black Americans disproportionately because most were directly financially dependent on cotton as a cash crop. Because they were more likely to labor as tenant farmers or sharecroppers on cotton plantations in the Southern United States - the epicenter of the Boll Weevil infestation, Black Farmers, suffered disproportionately. Additionally, Government intervention such as the Agricultural Adjustment Act of 1933, resulted in the abandonment and loss of cropland for Black Farmers.

By 1922 it was taking 8% of the cotton in the country annually. This failure of the south's primary crop became a major impetus for the Great Migration of the time, although not the only one. Thereby it was one of the factors in the birth of the Harlem Renaissance - including the culture of the Cotton Club. [14] A 2009 study found "that as the weevil traversed the American South [in the period 1892-1932], it seriously disrupted local economies, significantly reduced the value of land (at this time still the most important asset in the American South), and triggered substantial intraregional population movements." [15] A 2020 Journal of Economic History study found that the boll weevil spread between 1892 and 1922 had a beneficial impact on educational outcomes, as children were less likely to work on cultivating cotton. [16] A 2020 NBER paper found that the boll weevil spread contributed to fewer lynchings, less Confederate monument construction, less KKK activity, and higher non-white voter registration. [17]

The boll weevil infestation has been credited with bringing about economic diversification in the Southern US, including the expansion of peanut cropping. The citizens of Enterprise, Alabama, erected the Boll Weevil Monument in 1919, perceiving that their economy had been overly dependent on cotton, and that mixed farming [18] and manufacturing were better alternatives.

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See also

Related Research Articles

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The Boll Weevil Monument in downtown Enterprise, Alabama, United States is a prominent landmark and tribute erected by the citizens of Enterprise in 1919 to show their appreciation to an insect, the boll weevil, for its profound influence on the area's agriculture and economy. Hailing the beetle as a "herald of prosperity," it stands as the world's first monument built to honor an agricultural pest.

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References

Notes

  1. Jones, Robert (2000-01-21). "Evolution of the Host Plant Associations of the Anthonomus grandis Species Group (Coleoptera: Curculionidae): Phylogenetic Tests of Various Hypotheses". Annals of the Entomological Society of America. 94 (1): 51–58. doi: 10.1603/0013-8746(2001)094[0051:EOTHPA]2.0.CO;2 .
  2. 1 2 Economic impacts of the boll weevil: Mississippi State University. "History of the Boll Weevil in the United States".
  3. 1 2 ICAC. "Integrated Pest Management Of The Cotton Boll Weevil In Argentina, Brazil, And Paraguay" (PDF). Archived from the original (PDF) on 2006-10-05. Retrieved 2007-02-20.
  4. 1 2 Timothy D. Schowalter (31 May 2011). Insect Ecology: An Ecosystem Approach. Academic Press. p. 482. ISBN   978-0-12-381351-0 . Retrieved 8 November 2011.
  5. Fillman, D. A. & Sterling, W. L. (December 1983). "Killing power of the red imported fire ant [Hym.: Formicidae]: a key predator of the boll weevil [Col.: Curculionidae]". Entomophaga. BioControl: Volume 28, Number 4 / December, 1983. 28 (4): 339–344. doi:10.1007/BF02372186. ISSN   0013-8959. S2CID   38550501.
  6. Hedin, Paul A.; McCarty, Jack C. (October 1995). "Boll weevil Anthonomus grandis Boh. oviposition is decreased in cotton Gossypium hirsutum L. lines lower in anther monosaccharides and gossypol". Journal of Agricultural and Food Chemistry. 43 (10): 2735–2739. doi:10.1021/jf00058a035. ISSN   0021-8561.
  7. Juan A. Morales-Ramos. "Catolaccus grandis (Burks) (Hymenoptera: Pteromalidae)". Biological Control: a guide to Natural Enemies in North America. Archived from the original on 2013-10-14.
  8. "boll weevil facts, information, pictures - Encyclopedia.com articles about boll weevil". www.encyclopedia.com.
  9. Bt susceptibility of insect species Archived April 9, 2008, at the Wayback Machine
  10. Hagler, James R.; Jackson, Charles G. (2001). "Methods for Marking Insects: Current Techniques and Future Prospects". Annual Review of Entomology . Annual Reviews. 46 (1): 511–543. doi:10.1146/annurev.ento.46.1.511. ISSN   0066-4170. PMID   11112178.
  11. Silver, John, ed. (2008). Mosquito Ecology - Field Sampling Methods. Dordrecht, Netherlands: Springer. pp. xxi+1477. ISBN   978-1-4020-6666-5. OCLC   233972575.
  12. "Delta Farm Press". Delta Farm Press. 2006-01-06. Retrieved 2 September 2016.
  13. "Today in History - December 11". loc.gov.
  14. Abdul-Jabbar, Kareem; Obstfeld, Raymond (2007). On The Shoulders Of Giants : My Journey Through the Harlem Renaissance. New York: Simon & Schuster. pp. 1–288. ISBN   978-1-4165-3488-4. OCLC   76168045.
  15. Lange, Fabian; Olmstead, Alan L.; Rhode, Paul W. (2009-09-01). "The Impact of the Boll Weevil, 1892–1932". The Journal of Economic History. 69 (3): 685–718. doi:10.1017/S0022050709001090. ISSN   1471-6372. S2CID   154646873.
  16. Baker, Richard B.; Blanchette, John; Eriksson, Katherine (2020). "Long-Run Impacts of Agricultural Shocks on Educational Attainment: Evidence from the Boll Weevil". The Journal of Economic History. 80 (1): 136–174. doi: 10.1017/S0022050719000779 . ISSN   0022-0507.
  17. Feigenbaum, James J; Mazumder, Soumyajit; Smith, Cory B (2020). "When Coercive Economies Fail: The Political Economy of the US South After the Boll Weevil". Social Science Research. Working Paper Series. doi: 10.3386/w27161 . S2CID   219441177.
  18. "History of Enterprise". City of Enterprise, Alabama. Archived from the original on 2013-07-03. Retrieved December 21, 2020.
  19. Hall, Stephanie (2013-12-11). "The Life and Times of Boll Weevil | Folklife Today". blogs.loc.gov. Retrieved 2021-03-10.
  20. "Brook Benton". Billboard. Retrieved 2021-03-10.
  21. "The Presidents of the United States of America — The Presidents of the United States of America". www.abc.net.au. 21 September 2018.
  22. "10 Weirdest College Mascots - RISD mascot, university mascot - Oddee". oddee.com.
  23. "Top 10 Weirdest College Mascots". www.campusexplorer.com. 24 June 2021.

Further reading