Evaluation of the Efficiency of some Methods in Biological Control of Phlebotomus Papatasi (Diptera:Psychoididae). | ||
Kirkuk Journal of Science | ||
Article 3, Volume 17, Issue 4, December 2022, Pages 27-33 PDF (218.2 K) | ||
Document Type: Research Paper | ||
DOI: 10.32894/kujss.2022.136011.1075 | ||
Author | ||
Rabah Hassan Saady* | ||
Salahedin Education Directorate, Ministry of Education, Tikrit, Iraq. | ||
Abstract | ||
The research studies the biological efficiency of the fungus Verticillium lacanii and the alcoholic extract leaves Nerium sp Capparis sp and Lawsonia sp against fourth larval instar and adults of male and female Phlebotomus papatasi. The study was conducted at the laboratory condition at a temperature of 25±2°C, relative humidity. 65 ± 5% and a period of illumination of 12 hours / day . The suspension of Verticillium lacanii at a concentration of 1×810 spores / ml gave the highest mortality 86.74% for the fourth larval instar after 24 hours of treatment, while the suspension of Verticillium lacanii at concentration of 1×810 spores / ml gave the highest mortality of 78.16% for the male Phlebotomus papatasi after after 24 hours of treatment, the suspension of Verticillium lacanii at a concentration of 1 x 810 spores/ml gave the highest mortality rate of 46.75 % for female after 24 treatment. Alcoholic extract of Capparis gave highest mortality 89.57.% for the fourth larval instar, 76.18% for males, and 87.71% for the female Phlebotomus papatasi after 24 hours at concentration 0.07 mg/l . The alcoholic extract of Lawsonia sp showed the lowest mortality was 43.01 % for the fourth larval instar, 29.21% for males, 31.86% for female sand fly Phlebotomus papatasi after 24 hours of treatment at concentration 0.01 mg/l respectively. | ||
Keywords | ||
Keyword: Verticillium lacanii; Phlebotomus papatasi; suspension; alcoholic extracts | ||
References | ||
[1] Yousrya M Abdel-Hamid. Life table characteristics of the female sandfly, phlebotomus papatasi (scopoli)(diptera: Psychodidae) under three food regimes. Journal of Vector Borne Diseases, 49(4):226, 2012.
[2] Jose E Calzada, Azael Saldana, Chystrie Rigg, Anayansi ˜ Valderrama, Luz Romero, and Luis Fernando Chaves. Changes in phlebotomine sand fly species composition following insecticide thermal fogging in a rural setting of western panama.´ PLoS One, 8(1):e53289, 2013.
[3] Athraa H Jasim Al-Rahmany. Surveyoffliesdistributed in samarra city by using the adhesive colloidtraps during 2014. Kirkuk University Journal-Scientific Studies, 12(1):351–371, 2017.
[4] Luis Fernando Chaves, Jose E Calzada, Chystrie Rigg, Anayansi Valderrama, Nicole L Gottdenker, and Azael Saldana. Leishmaniasis sand fly vector density reduc- ˜ tion is less marked in destitute housing after insecticide thermal fogging. Parasites & vectors, 6(1):1–13, 2013.
[5] Jun-Yun Wang, Gang Cui, Hai-Tang Chen, Xiao-Nong Zhou, Chun-Hua Gao, and Yue-Tao Yang. Current epi-demiological profile and features of visceral leishmaniasis in people’s republic of china. Parasites & vectors, 5(1):1–11, 2012.
[6] Omar Hamarsheh and Ahmad Amro. Characterization of simple sequence repeats (ssrs) from phlebotomus papatasi (diptera: Psychodidae) expressed sequence tags (ests). Parasites & vectors, 4(1):1–7, 2011.
[7] H Kassiri, E Javadian, and AA Hanafi-Bojd. Species composition of phlebotomine sandflies (diptera: Psycho-didae) in nikshahr county, south-eastern iran. Journal of vector borne diseases, 48(3):159, 2011.
[8] Gunter C M ¨ uller, Vasiliy D Kravchenko, Leonid Rybalov, ¨ and Yosef Schlein. Characteristics of resting and breeding habitats of adult sand flies in the judean desert. Journal of Vector Ecology, 36:S195–S205, 2011.
[9] V. Christodoulou E Dokianakis C.Kourouniotis B. Al-ten N. Tsirigotakis, C. Pavlou and M. Antoniou. Phle-botomine sand flies (diptera: Psycho-didae) in the greek aegean islands: ecological approaches. Parasites Vectors, 11(1):10371–1318, 2018.
[10] Rajinder S Mann and Phillip E Kaufman. The seasonal abundance of phlebotomine sand flies, lutzomyia species in florida. Journal of the American mosquito control association, 26(1):10–17, 2010.
[11] MR Yaghoobi-Ershadi. Phlebotomine sand flies (diptera: Psychodidae) in iran and their role on leishmania transmission. Journal of arthropod-borne diseases, 6(1):1, 2012.
[12] Rabah H Saady and Abdulrahman Jihad Mansoor. Laboratory evaluation of the entomopathogenic fungi penicillium marneffei and verticillium lecanii against culex pipeins molestus. Indian Journal of Forensic Medicine & Toxicology, 15(1), 2021.
[13] Sohaib Sabah Al-Salihi. Inhibitory effect of aqueous extract of pomegranate peel on escherichia. Kirkuk Uni[1]versity Journal-Scientific Studies, 9(1):11–18, 2014.
[14] A.K. Al-Yasir. The effect of some biocontrol agents on some biological.aspects of home fly musca domestica l. (diptera: Muscidae). The Egyptian Journal of Hospital Medicine, 42:33–48, 2011.
[15] James C.Bull Tariq M.Butt Abeer M.Alkhaibari, Thierry Maffeis. Combined use of the entomopathogenic fungus, metarhizium brunneum, and the mosquito predator, toxorhynchites brevipalpis, for control of mosquito larvae: Is this a risky biocontrol strategy? Journal of Invertebrate Pathology, 153:38–50, 2018.
[16] H.H. Aleoia R.H Saady. Biological efficacy of metarrhizium anisopliae and entomophothra muscae in biological control of culex quinquefasciatus say. International Journal of Physics: Conference Series, 1660(1), 2020.
[17] A.G. Al-Mihna. Evaluation of the efficiency of the fungus metarhizium anisoplia in controlling two species of mosquitoes culicidae diptera: in al-diwaniyah governorate. Master’s thesis, College of Science, University of Al-Qadisiyah, Iraq., 2017.
[18] R. H. Saady and A. J. Mansoor. Comparing the effects of ethyl elcoholic and aquatic extracts and alkaline compounds of some plants on the bioefficacy of culex pipiens (diptera:culicidae). Iraqi Journal of Science, 9(2):50–35, 2021.
[19] A.D. Mohekar J.A. Chavan A.A. Jagtap A.K. Mohite S.G. Parte, A.S. Kharat and R.N. Patil. Efficacy of plant extracts for management of cimex lectularius (bed bug). International Journal of Pure Applied Bioscience, 3(2):506–508, 2015. | ||
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