INVESTIGATION OF CONTAMINATION WITH ALPHA-CYPERMETHRIN MED IN AGRICULTURAL LANDS ON THE LEFT SIDE OF THE CITY OF MOSUL

Authors

  • Esraa ahmed saied Department of Environmental Science, College of Environmental Science and Technology, University of Mosul
  • Mazin Nazar Fadhel Department of Environmental Science, College of Environmental Science and Technology, University of Mosul
  • Nief Rahman College of Environmental Science and Technologies

Keywords:

Contamination, Alpha-Cypermethrin Med, Agricultural Lands

Abstract

Alpha-cypermethrin, an important pyrethroid insecticide, has been widely used for pest control in agriculture and parasite control in livestock farms. Major agricultural applications include the protection of oilseeds, pome fruits, peaches, fruit vegetables, berries, leafy vegetables, corn and tobacco. Alpha-cypermethrin has been marketed since late 1983. Concentrations of the pesticide vacypermethrin were determined because it is commonly used in agricultural lands on the left side of the city of Mosul. It is dangerous because of its high acute toxicity even at low concentrations. Therefore, its discovery in the environment is necessary in different environmental samples, including water (Tigris River, Wadi Danfali, Al-Khawser River) and soil samples from different areas of farms on the left side of the city of Mosul (Sherikhan, Rashidiya, Al-Muthanna, Al-Baath, Yaramjah) and plant samples from the same areas, which are (Lahana, cauliflower, beans). A new and highly sensitive spectrophotometric method has been developed for the determination of parts per million levels of the widely used cypermethrin insecticide. The method is based on the alkaline hydrolysis of cypermethrin to the cyanide ion, which also reacts with potassium iodide and the dye crystal violet. The maximum absorption of crystal violet dye formed at 595 nm was measured in acidic medium. Beer's law is subject to a concentration range of 5-20 mcg in a final solution volume of 25 mL. The molar absorbance and Sandell sensitivity were found to range between 0.147 (-0.642) ppm. The method is simple, sensitive and free from the interference of other pesticides and assorted ions. Finally, pyrethroid insecticides do not interfere with the proposed method, the method that was applied to determine cypermethrin in environmental samples was effective and satisfactory.

References

Al-Mallah, Nizar Mustafa and Al-Jubouri, Abdul Razzaq Younes (2012). Chemical pesticides, their aggregates and the methods of their effect and metabolism on organisms and the environment, College of Agriculture, University of Mosul: Page 341- 1

Al-Hamdany, M. H. S. (2020). KNOWLEDGE MANAGEMENT OF FARMERS'BEHAVIOR AND THEIR REIATIONSHIP TO SCIENTIFIC SOURCES OF INFORMATION AND RECOMMENDATIONS TO REDUCE THE EFFECT OF CHEMICA FERTIIZERS AND PESTICIDES ON ENVIRONMENT AND HUMAN HEALTH. Diyala Agricultural Sciences Journal (DASJ), 12, 1

Khan, S. U., Marriage, P. B., & Saidak, W. J. (1975). Residues of paraquat in an orchard soil. Canadian Journal of Soil Science, 55(1), 73- 75

Ghazouani, L., Feriani, A., Mufti, A., Tir, M., Baaziz, I., Mansour, H. B., & Mnafgui, K. (2020). Toxic effect of alpha cypermethrin, an environmental pollutant, on myocardial tissue in male wistar rats. Environmental Science and Pollution Research, 27(6), 5709- 5717.

Janghel, E. K., Rai, J. K., Rai, M. K., & Gupta, V. K. (2007). A new sensitive spectrophotometric determination of cypermethrin insecticide in environmental and biological samples. Journal of the Brazilian Chemical Society, 18, 590-594.

- Saied, E., Fouda, A., Alemam, A. M., Sultan, M. H., Barghoth, M. G., Radwan, A. A., ... & Hassan, S. E. D. (2021). Evaluate the Toxicity of Pyrethroid Insecticide Cypermethrin before and after Biodegradation by Lysinibacillus cresolivuorans Strain HIS7. Plants, 10(9), 1903.

Janghel, E. K., Rai, J. K., Rai, M. K., & Gupta, V. K. (2007). A new sensitive spectrophotometric determination of cypermethrin insecticide in environmental and biological samples. Journal of the Brazilian Chemical Society, 18, 590-594. 8. -Tamrakar, U., Gupta, V. K., & Pillai, A. K. (2012). A spectrophotometric method for the determination of fenvalerate and cypermethrin in presence of each other. Journal of analytical chemistry, 67(5), 437-442.

Kanyika-Mbewe, C., Thole, B., Makwinja, R., & Kaonga, C. C. (2020). Monitoring of carbaryl and cypermethrin concentrations in water and soil in Southern Malawi. Environmental Monitoring and Assessment, 192(9), 1-14.

Rani, M., Saini, S., & Kumari, B. (2014). Leaching behaviour of chlorpyriphos and cypermethrin in sandy loam soil. Environmental monitoring and assessment, 186(1), 175-182.

Senoro, D. B., Maravillas, S. L., Ghafari, N., Rivera, C. C., Quiambao, E. C., & Lorenzo, M. C. M. (2016). Modeling of the residue transport of lambda cyhalothrin, cypermethrin, malathion and endosulfan in three different environmental compartments in the Philippines. Sustainable Environment Research, 26(4), 168-176.

World Health Organization. (1992). Alpha-cypermethrin. World Health Organization.

Downloads

Published

2022-04-30

How to Cite

Esraa ahmed saied, Mazin Nazar Fadhel, & Nief Rahman. (2022). INVESTIGATION OF CONTAMINATION WITH ALPHA-CYPERMETHRIN MED IN AGRICULTURAL LANDS ON THE LEFT SIDE OF THE CITY OF MOSUL. World Bulletin of Social Sciences, 9, 210-217. Retrieved from https://scholarexpress.net/index.php/wbss/article/view/925

Issue

Vol. 9 (2022): WBSS

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Most read articles by the same author(s)