International network for natural sciences – research journal
  • mendeley icon
  • linkedin icon
  • google plus icon
  • twitter icon
  • google scholar icon
  • facebook icon

Biochemical effects of deodar oil in comparison to imidacloprid and carbosulfan on pupae of mealworm Tenebrio molitor (Coleoptera: Tenebrionidae)

By: Islam Dad Buneri, Masarrat Yousuf, Mohammad Attaullah, Bakht Tarin Khan, Muhammad Amin

Key Words: Cedrus deodara, AChE, ALP, Mealworms, Carbosulfan, Imidacloprid.

J. Bio. Env. Sci. 12(3), 343-348, March 2018.

Certification: jbes 2018 0024 [Generate Certificate]

Abstract

This study was conducted to evaluate the biochemical changes in the pupae of mealworm treated with LC50 concentration of Deodar oil in comparison to imidacloprid and carbosulfan insecticides. The larvae of mealworm beetle were treated with deodar oil (3.41 %), carbosulfan (0.086 %) and imidacloprid (0.023 %) through feeding method. The trerated larvae when able to reach the pupal stage successfully were crushed at the pupal stage for the biochemical analysis. Deodar oil and carbosulfan inhibited cholinesterase activity while imidacloprid enhanced this activity in the pupae of mealworm. ALP activity was inhibited with Deodar oil while enhanced when treated with imidacloprid and carbosulfan in the pupae of mealworm. It is concluded that the chronic effects of insecticides are carried out in the next developmental stage of mealworm pest from larvae to pupae. Deodar oil, a biopesticide has a strong biochemical effect on pupae of mealworm pest by altering their enzymatic activities. Deodar oil is environment friendly and can be effectively used as a substitute of synthetic insecticides.

| Views 28 |

Biochemical effects of deodar oil in comparison to imidacloprid and carbosulfan on pupae of mealworm Tenebrio molitor (Coleoptera: Tenebrionidae)

Arfat Y, Mahmoodb N, Tahir MU, Rashidd M, Anjum S, Zhaoa F, Lia DJ, Suna YL, Hua L, Zhihaoa C, Yina C, Shanga P, Qiana AR. 2014. Effect of imidacloprid on hepatotoxicity and nephrotoxicity in male albino mice. Toxicology reports 1, 554-561.

Ayub H, Azmi MA, Akhter K. 2005. Toxicity determination of phytopesticides, Argemone mexicana and Lantana camara (Leaves extract) against Sitophilus oryzae and their effects on enzymes and proteins. Pakistan Journal of Entomology Karachi 20, 5-9.

Azab MM, El-Lakwah FA, Abd-El Wahab H, Khattab MM, El-Ghanam MSM. 2011. Impact of certain insecticides on enzymes activity of whitefly Bemisia tabaci (Genn.) and aphids Aphis gossypii (Glover) on cucumber plants. Annals of Agriculture Science 49, 191-199.

Bloomquist JR. 2009. Insecticides chemistries and characteristics. In E. B.Radcliffe, W. D. Hutchinson, and R.E. Cancelado (eds.), Radcliffe’s IPM World Textbook. University of Minnesota, St. Paul, Minnesota.

Boily M, Sarrasin BDeblois CAras P, Chagnon M. 2013. Acetylcholinesterase in honey bees (Apis mellifera) exposed to neonicotinoids, atrazine and glyphosate: laboratory and field experiments. Environmental Science and Pollution Research International 20, 5603-14.

Cheng WX, Wang JJ, Ding W, Zhao ZM. 2004. Inhibition kinetics on carboxylesterase and acetylcholinesterase of Liposcelis bostrychophila and Liposcelis entomophila (Psocop., Liposcelididae) of two insecticides. Journal of Applied Entomology 128, 292-297.

El-Mageed AEM, Anwar EM, Elgohary LR. 2008. Biochemical side effects of some commercial biocides on cotton leafworm. Archives of Phtopathology and Plant Protection 41, 227-232.

Finney DJ. 1971. Probit Analysis second edition Cambridge University Press Cambridge United Kingdom.

Gamble JS. 1922. A manual of Indian timbers. Sampson low .Marston and Co Ltd, London. UK.

Grainge MS, Ahmed WC, Mitchell-Hylin JW. 1984. Plant species reportedly possessing pest-control properties. Á database. Resource Systems East-West Center.

Heong KL, Tan KH, Garcia, CPF, Fabellar LT, Lu Z. 2011. Research Methods in Toxicology and Insecticide Resistance Monitoring of Rice Plant hoppers. International Rice Research Institute (IRRI) 11-12.

Jacobson M. 1982. Plants, insect and man—their interrelationship. Economic botany 36, 346-354.

Kind PRH, King EJ. 1954. Journal of Clinical Pathology 7, 322.

Liu Z, Williamson MS, Lansdell SJ, Denholm I, Han Z, Millar NS. 2005. A nicotinic acetylcholine receptor mutation conferring target-sit resistance to imidacloprid in Nilaparvata lugens (brown planthopper). Proceeding National Academy of Science 14, 8420-8425.

Megahed MMM, EL-Tawil MF, El-Bamby MMM, Abouamer WL. 2013. Biochemical Effects of Certain Bioinsecticides on Cotton Leaf Worm, Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae). Research Journal of Agriculture and Biological Sciences 9, 308-317.

Morakchi S, Maiza A, Farine P, Aribi N, Soltani N. 2005. Effects of a neonicotinoid insecticide (acetamiprid) on acetylcholinesterase activity and cuticular hydrocarbons profile in German cockroaches. Communication in Agricultural and Applied Biological Sciences 70, 843–848.

Ramos-Elorduy J, Avila Gonzalez E, Rocha Hernandez A, Pino JM. 2002. Use of Tenebrio molitor (Coleoptera: Tenebrionidae) to recycle organic wastes and as feed for broiler chickens. Journal of Economic Entomology 95, 214-220.

Rana H, Khan MF, Akbar MF, Tahir HM, Khan MS, Ahmed Z. 2015. Cholinesterase inhibition effects of Azadirachta indica a. juss fresh leave extract and its effects on Musca domestica L. larval mortality, pupation, adult emergence, fecundity and fertility. International Journal of Agricultural and Applied Sciences 7, 28-36.

Rao IG, Singh A, Singh VK, Singh DK. 2003. Effect of single and binary combinations of plant-derived molluscicides on different enzyme activities in the nervous tissue of Achatina fulica. Journal of Applied Toxicology 23, 19-22.

Singh A, Singh DK. 2003. Enzyme inhibition by herbal molluscicides in the nervous tissue of the snail Lymnaea acuminate. Journal of Sciences, Islamic Republic of Iran 14, 227-233

Singh D, Agarwal SK. 1988. Himachalol and himachalene: insecticida principles of Himalayan cedarwood oil. Journal of Chemical Ecology 14, 1145-1151.

Singh D, Rao SM, Tripathi AK. 1984. Cedarwood oil as a potential insecticidal agent against mosquitoes. Naturwissenschaften 71, 265-266.

Singh D, Rao SM. 1985. Toxicity of cedarwood oil against pulse beetle, Callosobruchus chinensis Linn. Indian Perfumer 29, 201-204.

Singh D, Siddiqui MS, Sharma S. 1989. Reproduction retardant and fumigant properties in essential oils against rice weevil (Coleoptera: Curculionidae) in stored wheat. Journal of Economic Entomology 82, 727-732.

Yadav A, Singh RK, Sharma B. 1998. Interaction of carbofuran with the acetylcholinesterase from the brain of the teleost, clarias batrachus. Toxicological & Environmental Chemistry 65, 245-254.

Yousuf MJ, Anjum SI, Rabiya F. 2015. Toxicological attributes of plant chemicals and their biochemical impacts on cholinesterase and protein levels in relation with conventional insecticides against mosquito larvae of Karachi city. Toxicological and Environmental chemistry 96, 1088-1095.

Zhu YC, Yao J, Adamczyk J, Luttrell R. 2017. Feeding toxicity and impact of imidacloprid formulation and mixtures with six representative pesticides at residue concentrations on honey bee physiology (Apis mellifera). PLoS ONE 12, e0178421.

Islam Dad Buneri, Masarrat Yousuf, Mohammad Attaullah, Bakht Tarin Khan, Muhammad Amin.
Biochemical effects of deodar oil in comparison to imidacloprid and carbosulfan on pupae of mealworm Tenebrio molitor (Coleoptera: Tenebrionidae).
J. Bio. Env. Sci. 12(3), 343-348, March 2018.
https://innspub.net/jbes/biochemical-effects-deodar-oil-comparison-imidacloprid-carbosulfan-pupae-mealworm-tenebrio-molitor-coleoptera-tenebrionidae/
Copyright © 2018
By Authors and International Network for
Natural Sciences (INNSPUB)
https://innspub.net
brand
innspub logo
english language editing
  • CALL FOR PAPERS
    CALL FOR PAPERS
    Publish Your Article
  • CALL FOR PAPERS
    CALL FOR PAPERS
    Submit Your Article
INNSPUB on FB
Email Update