INSECT SYMPHONY: UNDERSTANDING THE ROLE OF ENTOMOLOGY IN ECOSYSTEM HARMONY

Authors

  • MA SALEEM Department of Zoology, Lahore College for Women University, Pakistan Author
  • A FATIMA Department of Zoology, Lahore College for Women University, Pakistan Author
  • A REHMAN Department of Zoology, Lahore College for Women University, Pakistan Author
  • T AROOB Department of Zoology, University of Okara, Okara, Pakistan Author
  • A ALEEM Department of Zoology, Lahore College for Women University, Pakistan Author
  • MA SHAHBAZ Department of Agronomy University of Agriculture Faisalabad, Pakistan Author
  • H NAVEED Department Plant Pathology, University of Agriculture Faisalabad, Pakistan Author
  • A MAJEED Department Plant Pathology, University of Agriculture Faisalabad, Pakistan Author
  • MS NAWAZ Department of Agronomy, University of Agriculture Faisalabad, Pakistan Author
  • M GULSHER Department Plant Pathology, University of Agriculture Faisalabad, Pakistan Author

Keywords:

Ecosystems, insects, equilibrium, biodiversity, pollination, decomposition, predators, soil, agriculture

Abstract

This review article discusses insects' importance in maintaining ecosystems' equilibrium and productivity. Due to diversity and global distribution, insects contribute to ecological complexity, resilience, and overall health. The article highlights the historical relationship between humans and insects, with insect research becoming a reputable scientific discipline during the Renaissance. The article also discusses the role of insects in pollination, decomposition, and the food web. Insects are crucial for pollination processes, with over 75% of the world's important food commodities relying on insect pollination. Insects also play a vital role in decomposition, transporting organic matter and reintroducing nutrients to the soil. Predatory insects help preserve ecological equilibrium by capturing and ingesting prey, affecting the physical structure of the soil and plant relationships. Soil engineers like termites, dung beetles, and ants contribute to soil ecology by breaking down plant waste and influencing the soil's chemical composition and physical structure. The article also mentions the role of insects as disease vectors and the potential benefits of non-native insect species in ecosystems. In agriculture, insects provide essential ecosystem services such as pollination and pest control, significantly impacting crop yield. Dung beetles, in particular, enhance soil nutrient concentrations and increase crop yield. Overall, the article emphasizes the significant role of insects in maintaining the health and vitality of ecosystems and their importance to human well-being.

Downloads

Download data is not yet available.

References

Castelli, L. E., Gleiser, R. M., and Battán‐Horenstein, M. (2020). Role of saprophagous fly biodiversity in ecological processes and urban ecosystem services. Ecological Entomology 45, 718-726.

Chhangani, G., Yadav, T., Gowrisankar, R., and Dasari, S. (2023). Entomology Redefined.

Devoto, M., Bailey, S., and Memmott, J. (2011). The ‘night shift’: nocturnal pollen‐transport networks in a boreal pine forest. Ecological Entomology 36, 25-35.

Donkersley, P., Ashton, L., Lamarre, G. P., and Segar, S. (2022). Global insect decline is the result of wilful political failure: A battle plan for entomology. Ecology and Evolution 12, e9417.

Firake, D. M., Lytan, D., and Behere, G. (2013). Bio-diversity and seasonal activity of arthropod fauna in brassicaceous crop ecosystems of Meghalaya, North East India. Molecular Entomology 3.

Gardiner, M. M., Burkman, C. E., and Prajzner, S. P. (2013). The value of urban vacant land to support arthropod biodiversity and ecosystem services. Environmental entomology 42, 1123-1136.

Gullan, P. J., and Cranston, P. S. (2014). "The insects: an outline of entomology," John Wiley & Sons.

Høye, T. T., and Sikes, D. S. (2013). Arctic entomology in the 21st century. The Canadian Entomologist 145, 125-130.

Hunter, M. D. (2001). Insect population dynamics meets ecosystem ecology: effects of herbivory on soil nutrient dynamics. Agricultural and Forest Entomology 3, 77-84.

Jankielsohn, A. (2018). The importance of insects in agricultural ecosystems. Advances in Entomology 6, 62-73.

Leather, S. R. (2015). Influential entomology: a short review of the scientific, societal, economic and educational services provided by entomology. Ecological Entomology 40, 36-44.

Luke, S. H., Roy, H. E., Thomas, C. D., Tilley, L. A., Ward, S., Watt, A., Carnaghi, M., Jaworski, C. C., Tercel, M. P., and Woodrow, C. (2023). Grand challenges in entomology: Priorities for action in the coming decades. Insect conservation and diversity 16, 173-189.

Nichols, E., Spector, S., Louzada, J., Larsen, T., Amezquita, S., Favila, M., and Network, T. S. R. (2008). Ecological functions and ecosystem services provided by Scarabaeinae dung beetles. Biological conservation 141, 1461-1474.

Ramos, D., Cunha, W., Evangelista, J., Lira, L., Rocha, M., Gomes, P., Frizzas, M., and Togni, P. (2020). Ecosystem services provided by insects in Brazil: What do we really know? Neotropical entomology 49, 783-794.

Razzaq, A., Ali, A., Zafar, M. M., Nawaz, A., Xiaoying, D., Pengtao, L., Qun, G., Ashraf, M., Ren, M., and Gong, W. (2021). Pyramiding of cry toxins and methanol producing genes to increase insect resistance in cotton. GM Crops & Food 12, 382-395.

Saunders, M. (2018). Ecosystem services in agriculture: understanding the multifunctional role of invertebrates. Agricultural and Forest Entomology.

Sharma, R. P., Boruah, A., Khan, A., Thilagam, P., Sivakumar, S., Dhapola, P., and Singh, B. V. (2023). Exploring the Significance of Insects in Ecosystems: A Comprehensive Examination of Entomological Studies. International Journal of Environment and Climate Change 13, 1243-1252.

Verma, R. C., Waseem, M. A., Sharma, N., Bharathi, K., Singh, S., Anto Rashwin, A., Pandey, S. K., and Singh, B. V. (2023). The Role of Insects in Ecosystems, an in-depth Review of Entomological Research. International Journal of Environment and Climate Change 13, 4340-4348.

Villet, M. H. (2011). African carrion ecosystems and their insect communities in relation to forensic entomology. Pest Technol 5, 1-15.

Weeks, F. J., and Oseto, C. Y. (2018). Interest in insects: The role of entomology in environmental education. Insects 9, 26.

Wilby, A., and Thomas, M. B. (2002). Are the ecological concepts of assembly and function of biodiversity useful frameworks for understanding natural pest control? Agricultural and Forest Entomology 4, 237-243.

Zafar, M. M., Mustafa, G., Shoukat, F., Idrees, A., Ali, A., Sharif, F., Shakeel, A., Mo, H., Youlu, Y., and Ali, Q. (2022). Heterologous expression of cry3Bb1 and cry3 genes for enhanced resistance against insect pests in cotton. Scientific Reports 12, 10878.

Zafar, M. M., Razzaq, A., Farooq, M. A., Rehman, A., Firdous, H., Shakeel, A., Mo, H., and Ren, M. (2020). Insect resistance management in Bacillus thuringiensis cotton by MGPS (multiple genes pyramiding and silencing). Journal of Cotton Research 3, 1-13.

Zytynska, S. E., and Weisser, W. W. (2016). The natural occurrence of secondary bacterial symbionts in aphids. Ecological Entomology 41, 13-26.

Downloads

Published

2024-02-01

How to Cite

SALEEM, M., FATIMA, A., REHMAN, A., AROOB, T., ALEEM, A., SHAHBAZ, M., NAVEED, H., MAJEED, A., NAWAZ, M., & GULSHER, M. (2024). INSECT SYMPHONY: UNDERSTANDING THE ROLE OF ENTOMOLOGY IN ECOSYSTEM HARMONY. Journal of Physical, Biomedical and Biological Sciences, 2024(1), 26. https://jpbab.com/index.php/home/article/view/26

Similar Articles

11-20 of 20

You may also start an advanced similarity search for this article.