SOME PRELIMINARY INVESTIGATIONS OF CANNIBALISM IN MOSQUITO POPULATIONS COLLECTED FROM URBAN AREAS OF DISTRICT SHEIKHPURA, PAKISTAN

Authors

  • S AMIN Department of Entomology, University of Agriculture Faisalabad, Pakistan
  • A ALEEM Department of Zoology Lahore College for Women University Lahore, Pakistan
  • A REHMAN Department of Zoology Lahore College for Women University Lahore, Pakistan
  • S ARSHAD Department of Zoology Lahore College for Women University Lahore, Pakistan
  • SM HUSSAIN Department of Plant Protection, Ministry of National Food Security and Research, Government of Pakistan
  • NA MAAN Regional Agricultural Research Institute Bahawalpur, Pakistan
  • M MUDASSER Department of Entomology, University of Agriculture Faisalabad, Pakistan
  • M AHMAD Department of Entomology, University of Agriculture Faisalabad, Pakistan
  • MM AYUB Primary and Secondary Health Care Department Lahore, Pakistan
  • ZU ABDIN Department of Entomology, University of Agriculture Faisalabad, Pakistan

DOI:

https://doi.org/10.54112/bcsrj.v2024i1.1218

Keywords:

mosquitoes, cannibalism, mature population, larvae, sustainable control

Abstract

In the population of mosquitoes, there is substantial research documentation on cannibalism between larval stages therefore, in our research work cannibalism in mosquito populations was studied in the laboratory experiments comparing old (third and fourth-instars) and young (first-instar) larvae of the mosquito species occurring dominantly in urban areas of District Sheikhupura. Although mosquitoes can grow in temporary aquatic habitats having wildly varied topologies, the significance of the site shape in which cannibals and victims coexist has not received enough attention from researchers. Then, experimental trials in the containers were performed, and the cannibalism rate was estimated at 24 and 48hrs. The effect of spatial form on cannibalism in mosquito larvae of the A. albopictus species was assessed, adding a new essential element to those influencing ecological interactions in these habitats. Our data reveals that cannibalism was observed mostly between the fully mature and fully immature larvae of the mosquito population and a decline was observed between the mature population. These basic findings of our work would help devise sustainable control strategies for mosquito population (A. albopictus and A. aegypti) etc. in vector management programs.

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References

Achee, N. L., Grieco, J. P., Vatandoost, H., Seixas, G., Pinto, J., Ching-Ng, L., Martins, A. J., Juntarajumnong, W., Corbel, V., & Gouagna, C. (2019). Alternative strategies for mosquito-borne arbovirus control. PLoS Neglected Tropical Diseases, 13.

Alto, B. W., Reiskind, M. H., & Lounibos, L. P. (2008). Size alters susceptibility of vectors to dengue virus infection and dissemination. American Journal of Tropical Medicine and Hygiene, 79(6), 688.

Andreadis, T. G., & Wolfe, R. J. (2010). Evidence for reduction of native mosquitoes with increased expansion of invasive Ochlerotatus japonicus japonicus (Diptera: Culicidae) in the northeastern United States. Journal of Medical Entomology, 47(1), 43-52.

Annis, B., Sarojo, U. T. B., Hamzah, N., & Trenggono, B. (1990). Laboratory studies of larval cannibalism in Toxorhynchites amboinensis (Diptera: Culicidae). Journal of Medical Entomology, 27(6), 777-783.

Benelli, G., & Beier, J. C. (2017). Current vector control challenges in the fight against malaria. Acta Tropica, 174, 91-96.

Bonizzoni, M., Gasperi, G., Chen, X., & James, A. A. (2013). The invasive mosquito species Aedes albopictus: Current knowledge and future perspectives. Trends in Parasitology, 29(9), 460-468.

Brady, O. J., Godfray, H. C. J., Tatem, A. J., Gething, P. W., Cohen, J. M., McKenzie, F. E., & Smith, D. L. (2016). Vectorial capacity and vector control: Reconsidering sensitivity to parameters for malaria elimination. Transactions of the Royal Society of Tropical Medicine and Hygiene, 110(2), 107-117.

Clements, A. N. (1999). The biology of mosquitoes: v. 2-sensory reception and behaviour. The biology of mosquitoes: v. 2-sensory reception and behaviour.

Crespi, B. J. (1992). Cannibalism and trophic eggs in subsocial and eusocial insects. In M. A. Elgar & B. J. Crespi (Eds.), Cannibalism: ecology and evolution among diverse taxa (pp. 176-213).

Elgar, M. A. (1992). Ecology and evolution of cannibalism. In M. A. Elgar & B. J. Crespi (Eds.), Cannibalism: ecology and evolution among diverse taxa (pp. 1-12).

Fox, L. R. (1975). Cannibalism in natural populations. Annual Review of Ecology and Systematics, 6, 87-106.

Gratz, N. (2004). Critical review of the vector status of Aedes albopictus. Medical and Veterinary Entomology, 18, 215-227.

Hawley, W. A. (1988). The biology of Aedes albopictus. Journal of the American Mosquito Control Association, 1, 1-39.

Hosmer, D. W., Lemeshow, S., & Sturdivant, R. X. (2013). Applied logistic regression (p. 398).

Juliano, S. A. (2009). Species interactions among larval mosquitoes: Context dependence across habitat gradients. Annual Review of Entomology, 54, 37-56.

Koenraadt, C., & Takken, W. (2003). Cannibalism and predation among larvae of the Anopheles gambiae complex. Medical and Veterinary Entomology, 17, 61-66.

Koenraadt, C., Majambere, S., Hemerik, L., & Takken, W. (2004). The effects of food and space on the occurrence of cannibalism and predation among larvae of Anopheles gambiae sl. Entomologia Experimentalis et Applicata, 112, 125-134.

Mastrantonio, V., Crasta, G., Puggioli, A., Bellini, R., Urbanelli, S., & Porretta, D. (2018). Cannibalism in temporary waters: Simulations and laboratory experiments revealed the role of spatial shape in the mosquito Aedes albopictus. PLOS ONE, 13.

Osawa, N. (1993). Population field studies of the aphidophagous ladybird beetle Harmonia axyridis (Coleoptera: Coccinellidae): Life tables and key factor analysis. Population Ecology, 35, 335-348.

Porretta, D., Mastrantonio, V., Crasta, G., Bellini, R., Comandatore, F., Rossi, P., Favia, G., Bandi, C., & Urbanelli, S. (2016). Intra-instar larval cannibalism in Anopheles gambiae (s.s.) and Anopheles stephensi (Diptera: Culicidae). Parasites & Vectors, 9, 1-9.

Porretta, D., Mastrantonio, V., Bellini, R., Somboon, P., & Urbanelli, S. (2012). Glacial history of a modern invader: Phylogeography and species distribution modelling of the Asian tiger mosquito Aedes albopictus.

Rajavel, A. (1992). Cannibalistic behavior in Armigeres subalbatus (Diptera: Culicidae). Southeast Asian Journal of Tropical Medicine and Public Health, 23, 453-453.

Reinert, J. F., Harbach, R. E., & Kitching, I. J. (2009). Phylogeny and classification of tribe Aedini (Diptera: Culicidae). Zoological Journal of the Linnean Society, 157, 700-794.

Richardson, M. L., Mitchell, R. F., Reagel, P. F., & Hanks, L. M. (2010). Causes and consequences of cannibalism in non-carnivorous insects. Annual Review of Entomology, 55, 39-53.

Santana, A. F. K., Roselino, A. C., Cappelari, A. F., & Zucoloto, F. S. (2012). Cannibalism in insects. In A. R. Panizzi & J. L. P. Parra (Eds.), Insect biology and nutrition for integrated pest management (pp. 177-194). CRC Press.

Schäfer, M., & Lundström, J. O. (2001). Comparison of mosquito (Diptera: Culicidae) fauna characteristics of forested wetlands in Sweden. Annals of the Entomological Society of America, 94, 576-582.

Silberbush, A., Tsurim, I., Rosen, R., Margalith, Y., & Ovadia, O. (2014). Species-specific non-physical interference competition among mosquito larvae. PLOS ONE, 9.

Tayeh, A., Estoup, A., Lombaert, E., Guillemaud, T., Kirichenko, N., Lawson-Handley, L., De Clercq, P., & Facon, B. (2014). Cannibalism in invasive, native and biocontrol populations of the harlequin ladybird. BMC Evolutionary Biology, 14, 1-9.

Team, R. C. (2013). A language and environment for statistical computing (p. 201).

Tsurim, I., & Silberbush, A. (2016). Detrivory, competition, and apparent predation by Culiseta longiareolata in a temporary pool ecosystem. Israel Journal of Ecology and Evolution, 62, 138-142.

Urbanelli, S., Porretta, D., Mastrantonio, V., Bellini, R., Pieraccini, G., Romoli, R., Crasta, G., & Nascetti, G. (2014). Hybridization, natural selection, and evolution of reproductive isolation: A 25-years survey of an artificial sympatric area between two mosquito sibling species of the Aedes mariae complex. Evolution, 68, 3030-3038.

Wahid, I., Sunahara, T., & Mogi, M. (2003). Maxillae and mandibles of male mosquitoes and female autogenous mosquitoes (Diptera: Culicidae). Journal of Medical Entomology, 40, 150-158.

Wilke, A. B. B., & Marrelli, M. T. (2015). Paratransgenesis: A promising new strategy for mosquito vector control. Parasites & Vectors, 8, 1-9.

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Published

2024-09-11

How to Cite

AMIN, S., ALEEM, A., REHMAN, A., ARSHAD, S., HUSSAIN, S., MAAN, N., MUDASSER, M., AHMAD, M., AYUB, M., & ABDIN, Z. (2024). SOME PRELIMINARY INVESTIGATIONS OF CANNIBALISM IN MOSQUITO POPULATIONS COLLECTED FROM URBAN AREAS OF DISTRICT SHEIKHPURA, PAKISTAN. Biological and Clinical Sciences Research Journal, 2024(1), 1218. https://doi.org/10.54112/bcsrj.v2024i1.1218

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