Acaricidal activity of five essential oils against Rhipicephalus annulatus ticks and their GC-MS analyses

Abeer Moawad Elham Amin Waleed Arafa Khaled Hussein Khaled Hassan Asmaa Owis Hayam Ahmed   

Open Access   

Published:  May 15, 2024

DOI: 10.7324/JAPS.2024.172141

Rhipicephalus annulatus is regarded as the most common tick in transmitting cattle disease. Chemical acaricides resistance and toxicity have directed research on the use of essential plant oils which have great potential for pest management for safe food production. Therefore, the current study was designed to test the larvicidal activity of essential oils (EOs) of five medicinal plants; cilantro leaves, orange leaves, Tagetes flower, geranium herb, and sweet basil herb against R. annulatus larvae using the larval packet test. Analysis of EO chemical composition using gas chromatography-mass spectrometry (GC-MS) was also carried out to justify the assigned activities. Cilantro, orange, and Tagetes EOs showed 100.0% larval mortality with lethal concerntrations that kills 50% (LC50) of 1.46%, 0.88%, and 2.94%, respectively. Geranium and sweet basil herbs EOs showed 96.33% ± 3.18% and 92.33% ± 1.45% larval mortality with LC50 of 5.28% and 7.20%, respectively. Major compounds were identified by GC-MS as follows, [2(E)-decenal (49.72%), decanal (21.47%)] from cilantro EO, [methyl methanthranilate (63.45%), γ-terpinene (18.64%)] from orange EO, [trans-β-ocimene (24.93%) and isoartemisia ketone (8.84%)] in Tagetes EO, [β-citronellol (41.83%), citronellyl formate (10.41%), geraniol (9.47%)] from geranium EO, and [β-Linalool (55.63%), 1,8-cineole (9.66%)] from sweet basil. Our results showed the potential of EOs as eco-friendly and economic acaricides for tick control.

Keyword:     Cattle disease natural acaricides Rhipicephalus annulatus LPT essential oils GC-MS


Moawad A, Amin E, Arafa W, Hussein K, Hassan K, Owis A, Ahmed H. Acaricidal activity of five essential oils against Rhipicephalus annulatus ticks and their GC-MS analyses. J Appl Pharm Sci. 2024. Online First.

Copyright: © The Author(s). This is an open-access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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1. Yadav N, Upadhyay R. Tick saliva toxins, host immune responses and its biological effects. Int J Pharm Pharm Sci. 2021;13(8):9–19.

2. Abbas RZ, Zaman MA, Colwell DD, Gilleard J, Iqbal Z. Acaricide resistance in cattle ticks and approaches to its management: the state of play. Vet Parasitol. 2014;203(1–2):6–20. doi:

3. Rodríguez-Vivas RI, Hodgkinson JE, Trees AJ. Resistencia a los acaricidas en Rhipicephalus (Boophilus) microplus: situación actual y mecanismos de resistencia. Rev Mex Cienc Pecu. 2012; 3:9–24.

4. Sharma AK, Kumar R, Kumar S, Nagar G, Singh NK, Rawat SS, et al. Deltamethrin and cypermethrin resistance status of Rhipicephalus (Boophilus) microplus collected from six agro-climatic regions of India. Vet Parasitol. 2012;188(3–4):337–45. doi:

5. Aboelhadid S, Arafa WM, Mahrous LN, Fahmy MM, Kamel AA. Molecular detection of Rhipicephalus (Boophilus) annulatus resistance against deltamethrin in middle Egypt. Vet Parasitol Reg Stud Rep. 2018;13:198–204. doi:

6. Tabari MA, Youssefi MR, Maggi F, Benelli G. Toxic and repellent activity of selected monoterpenoids (thymol, carvacrol and linalool) against the castor bean tick, Ixodes ricinus (Acari: Ixodidae). Vet Parasitol. 2017;245:86–91. doi:

7. Khater H, Hendawy N, Govindarajan M, Murugan K, Benelli G. Photosensitizers in the fight against ticks: safranin as a novel photodynamic fluorescent acaricide to control the camel tick Hyalomma dromedarii (Ixodidae). Parasitol Res. 2016;115(10):3747–58. doi:

8. Aboelhadid SM, Arafa WM, Wahba A, Mahrous LN, Ibrahium SM, Holman PJ. Effect of high concentrations of lufenuron, pyriproxyfen and hydroprene on Rhipicephalus (Boophilus) annulatus. Vet Parasitol. 2018;256:35–42. doi:

9. Iori A, Grazioli D, Gentile E, Marano G, Salvatore G. Acaricidal properties of the essential oil of Melaleuca alternifolia Cheel (tea tree oil) against nymphs of Ixodes ricinus. Vet Parasitol. 2005;129(1–2):173–6. doi:

10. Ryan M, Byrne O. Plant-insect coevolution and inhibition of acetylcholinesterase. J Chem Ecol. 1988;14:1965–75. doi:

11. Arafa WM, Abolhadid SM, Moawad A, Abdelaty AS, Moawad UK, Shokier KA, et al. Thymol efficacy against coccidiosis in pigeon (Columba livia domestica). Prev Vet Med. 2020;176:104914. doi:

12. Arafa WM, Aboelhadid SM, Moawad A, Shokeir KM, Ahmed O, de León AAP. Control of Rhipicephalus annulatus resistant to deltamethrin by spraying infested cattle with synergistic eucalyptus essential oil-thymol-deltamethrin combination. Vet Parasitol. 2021;290:109346. doi:

13. Goudoum A, Ngamo T, Ngassoum M, Mbofung C. Biodegradation of insecticidal compounds of Clausena anisata and Plectranthus glandulosus essential oils applied as protectant on stored grains. J Agric. 2012;7(2):165–71.

14. Arafa WM, Aboelhadid SM, Moawad A, Shokeir KM, Ahmed O. Toxicity, repellency and anti-cholinesterase activities of thymol-eucalyptus combinations against phenotypically resistant Rhipicephalus annulatus ticks. Exp Appl Acarol. 2020;81(2):265–77. doi:

15. Silva F, Domeño C, Domingues FC. Coriandrum sativum L.: characterization, biological activities, and applications. Nuts and seeds in health and disease revention. ELSEVIER ACADEMIC PRESS: London, UK; 2020. pp 497–519.

16. Shavandi MA, Haddadian Z, Ismail MHS. Eryngium foetidum L. Coriandrum sativum and Persicaria odorata L.: a review. JASR. 2012;2(8):410–26.

17. Delaquis PJ, Stanich K. Antilisterial properties of cilantro essential oil. J Essent Oil Res. 2004;16(5):409–14. doi:

18. Torres-Cabra E, Lagos-López MI. Evaluation of essential coriander (Coriandrum sativum L.) oil against the red poultry mite (Dermanyssus gallinae) (De Geer, 1778) (Acari: Dermanyssidae) under laboratory conditions. Cienc Tecnol Agropecuaria. 2019;20(1):53–68.

19. Kim J, Seo S-M, Lee S-G, Shin S-C, Park I-K. Nematicidal activity of plant essential oils and components from coriander (Coriandrum sativum), oriental sweetgum (Liquidambar orientalis), and valerian (Valeriana wallichii) essential oils against pine wood nematode (Bursaphelenchus xylophilus). J Agric Food Chem. 2008;56(16):7316–20. doi:

20. Islam M, Hasan MM, Xiong W, Zhang S, Lei C. Fumigant and repellent activities of essential oil from Coriandrum sativum (L.) (Apiaceae) against red flour beetle Tribolium castaneum (Herbst) (Coleoptera: tenebrionidae). J Pest Sci. 2009;82(2):171–7. doi:

21. Khalid KA, Essa EF, Ismaiel HM, Elsayed AA. Effects of geographical locations on essential oil composition of navel orange leaves and flowers. J Essent Oil Bear Plants. 2020;23(1):139–48. doi:

22. Hamdan DI, Mohamed ME, Abdulla RH, Mohamed SM, El-Shazly AM. Anti-inflammatory, insecticidal and antimicrobial activities and chemical composition of the essential oils of different plant organs from navel orange (Citrus sinensis (L.) Osbeck var. Malesy) grown in Egypt. J Med Plant Res. 2013;7(18):1204–15. doi:

23. Chungsamarnyary N, Jansawan W. Acaricidal activity of peel oil of Citrus spp. on Boophilus microplus. Agric Nat Resour. 1996;30(1):112–7.

24. Pérez Gutierrez R, Hernández Luna H, Hernández Garrido S. Antioxidant activity of Tagetes erecta essential oil. J Chil Chem Soc. 2006;51(2):883–6. doi:

25. Marotti M, Piccaglia R, Biavati B, Marotti I. Characterization and yield evaluation of essential oils from different Tagetes species. J Essent Oil Res. 2004;16(5):440–4.

26. Ogunwande IA, Olawore NO. The essential oil from the leaves and flowers of “African Marigold,” Tagetes erecta L. J Essent Oil Res. 2006;18(4):366–8. doi:

27. Tonuci LR, Melo NId, Dias HJ, Wakabayashi KA, Aguiar GP, Aguiar DP, et al. In vitro schistosomicidal effects of the essential oil of Tagetes erecta. Rev Bras Farmacogn. 2012;22:88–93.

28. Singh G, Singh OP, De Lampasona M, Catalan CA. Studies on essential oils. Part 35: chemical and biocidal investigations on Tagetes erecta leaf volatile oil. Flavour Fragr J. 2003;18(1):62–5. doi:

29. Nardoni S, Ebani VV, D’Ascenzi C, Pistelli L, Mancianti F. Sensitivity of entomopathogenic fungi and bacteria to plants secondary metabolites, for an alternative control of Rhipicephalus (Boophilus) microplus in cattle. Front Pharmacol. 2018;9:937. doi:

30. Ibrahium SM, Aboelhadid SM, Wahba AA, Farghali AA, Miller RJ, Abdel-Baki A-AS, et al. Preparation of geranium oil formulations effective for control of phenotypic resistant cattle tick Rhipicephalus annulatus. Sci Rep. 2022;12(1):1–13. doi:

31. Pazinato R, Volpato A, Baldissera MD, Santos RC, Baretta D, Vaucher RA, et al. In vitro effect of seven essential oils on the reproduction of the cattle tick Rhipicephalus microplus. J Adv Res. 2016;7(6):1029–34. doi:

32. Martinez-Velazquez M, Castillo-Herrera GA, Rosario-Cruz R, Flores-Fernandez JM, Lopez-Ramirez J, Hernandez-Gutierrez R, et al. Acaricidal effect and chemical composition of essential oils extracted from Cuminum cyminum, Pimenta dioica and Ocimum basilicum against the cattle tick Rhipicephalus (Boophilus) microplus (Acari: Ixodidae). Parasitol Res. 2011;108(2):481–7. doi:

33. Wang HV, Pickett LJ, Faraone N. Repellent and acaricidal activities of basil (Ocimum basilicum) essential oils and rock dust against Ixodes scapularis and Dermacentor variabilis ticks. Exp Appl Acarol. 2022;86(4):583–98. doi:

34. Aboelhadid SM, Mahran HA, El-Ela FAI, Shokeir KM, Henedy KH, Gadelhaq SM, et al. Synthesis of nanocomposites layered double hydroxide via Ocimum basilicum and its acaricidal efficacy against multi-resistance Rhipicephalus annulatus tick. J Biomed Nanotechnol. 2020;16(12):1765–75. doi:

35. Hüe T, Cauquil L, Fokou J, Dongmo P, Bakarnga-Via I, Menut C. Acaricidal activity of five essential oils of Ocimum species on Rhipicephalus (Boophilus) microplus larvae. Parasitol Res. 2015;114(1):91–9. doi:

36. Umerie S, Anaso H, Anyasoro L. Insecticidal potentials of Ocimum basilicum leaf-extract. Bioresour Technol. 1998;64(3):237–9. doi:

37. Refaat M, Momen F, Amer S. Acaricidal activity of sweet basil and French lavender essential oils against two species of mites of the family Tetranychidae (Acari: Tetranychidae). Acta Phytopathol Entomol Hung. 2002;37(1–3):287–98. doi:

38. Pavela R, Chermenskaya T. Potential insecticidal activity of extracts from 18 species of medicinal plants on larvae of Spodoptera littoralis. Plant Prot Sci. 2004;40(4):145–50. doi:

39. Murugan K, Murugan P, Noortheen A. Larvicidal and repellent potential of Albizzia amara Boivin and Ocimum basilicum Linn against dengue vector, Aedes aegypti (Insecta: Diptera: Culicidae). Bioresour Technol. 2007;98(1):198–201. doi:

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