Formulation and Compound Identification of Citrus hystrix DC Essential Oil by GC-MS for Mosquito Repellent Activity Against Aedes aegypti

Debby Juliadi; Erna Cahyaningsih; Ni Made Dharma Shantini Suena

doi:10.36733/medicamento.v11i2.11352

Authors

Debby Juliadi Universitas Mahasaraswati Denpasar
Erna Cahyaningsih Universitas Mahasaraswati Denpasar
Ni Made Dharma Shantini Suena Universitas Mahasaraswati Denpasar

DOI:

https://doi.org/10.36733/medicamento.v11i2.11352

Keywords:

Aedes aegypti, essential oil, GC-MS, kaffir lime fruit, repellent

Abstract

Plant-based mosquito control offers a promising alternative to reduce the health and environmental risks associated with chemical insecticides. Citrus hystrix DC. (kaffir lime), a member of the Citrus genus, produces essential oils rich in bioactive compounds such as limonene, citronellal, and terpinolene, which are known for antimicrobial and insecticidal properties. This study focused on extracting essential oil from kaffir lime fruit, identifying its chemical constituents using gas chromatography–mass spectrometry (GC-MS), and evaluating the repellent efficacy of its spray formulation against Aedes aegypti. Essential oil was obtained through steam distillation and analyzed by GC-MS to determine its chemical profile. Repellent activity was assessed experimentally using 100 adult mosquitoes divided into five treatment groups, with spray formulations prepared at concentrations of 5%, 10%, and 15%. Data was analyzed using one-way ANOVA followed by post-hoc tests. GC-MS analysis revealed 90 compounds, with five major constituents: D-limonene (14.57%), limonene (13.92%), citronellal (6.66%), terpinolene (6.47%), and α-terpineol (5.74%). Repellent testing demonstrated that the 15% concentration provided the highest protection against mosquito landings. These findings confirm the potential of kaffir lime essential oil as an effective natural mosquito repellent and provide a scientific basis for developing eco-friendly, plant-derived vector control products. This research contributes to reducing dependence on synthetic insecticides and supports sustainable strategies for vector management that prioritize human health and environmental safety.

Author Biographies

Debby Juliadi, Universitas Mahasaraswati Denpasar

Department of Pharmaceutics, Faculty of Pharmacy

Erna Cahyaningsih, Universitas Mahasaraswati Denpasar

Department of Natural Medicine, Faculty of Pharmacy

Ni Made Dharma Shantini Suena, Universitas Mahasaraswati Denpasar

Department of Pharmaceutics, Faculty of Pharmacy

References

1. Yanti AHD, Wydiamala E, Hayatie L. Literature Review: Uji Aktivitas Repelen Ekstrak Etanol Daun Seledri (Apium graveolens) terhadap Nyamuk Aedes aegypti. Homeostasis. 2021;4(1):245-254. https://ppjp.ulm.ac.id/journals/index.php/hms/article/view/3394/2592

2. Zhu C, Jiang Y, Zhang Q, et al. Transcriptome analysis of Aedes aegypti midgut and salivary gland post-Zika virus infection. Curr Res Parasitol Vector-Borne Dis. 2025;7(February):100251. doi:10.1016/j.crpvbd.2025.100251

3. Maula AW, Fuad A, Utarini A. Ten-years trend of dengue research in Indonesia and South-east Asian countries: a bibliometric analysis. Glob Health Action. 2018;11(1):1504398. doi:10.1080/16549716.2018.1504398

4. Ardiansyah Akbar K, Kumala Fatma R, Elamouri F, Rockstroh JK. Climate change and dengue Fever: A 14-year study of mortality trends during 2010–2023 in Indonesia. Travel Med Infect Dis. 2025;67(November 2024):102893. doi:10.1016/j.tmaid.2025.102893

5. Harapan H, Michie A, Mudatsir M, Sasmono RT, Imrie A. Epidemiology of dengue hemorrhagic fever in Indonesia: analysis of five decades data from the National Disease Surveillance. BMC Res Notes. 2019;12(1):350. doi:10.1186/s13104-019-4379-9

6. Lobo NF, Achee NL, Greico J, Collins FH. Modern Vector Control. Cold Spring Harb Perspect Med. 2018;8(1):a025643. doi:10.1101/cshperspect.a025643

7. Ghali H, Albers SE. An updated review on the safety of N, N‐diethyl‐meta‐toluamide insect repellent use in children and the efficacy of natural alternatives. Pediatr Dermatol. 2024;41(3):403-409. doi:10.1111/pde.15531

8. Roy DN, Goswami R, Pal A. The insect repellents: A silent environmental chemical toxicant to the health. Environ Toxicol Pharmacol. 2017;50:91-102. doi:10.1016/j.etap.2017.01.019

9. Wood MJ, Bull JC, Kanagachandran K, Butt TM. Development and laboratory validation of a plant-derived repellent blend, effective against Aedes aegypti [Diptera: Culicidae], Anopheles gambiae [Diptera: Culicidae] and Culex quinquefasciatus [Diptera: Culicidae]. Vall-llosera Camps M, ed. PLoS One. 2024;19(3):e0299144. doi:10.1371/journal.pone.0299144

10. Corzo-Gómez JC, Espinosa-Juárez JV, Ovando-Zambrano JC, Briones-Aranda A, Cruz-Salomón A, Esquinca-Avilés HA. A Review of Botanical Extracts with Repellent and Insecticidal Activity and Their Suitability for Managing Mosquito-Borne Disease Risk in Mexico. Pathogens. 2024;13(9):737. doi:10.3390/pathogens13090737

11. Anwar Y, Pasaribu G, V MN. Review on Bioactive Potential of Indonesian Forest Essential Oils. Pharmacogn J. 2023;14(6):873-879. doi:10.5530/pj.2022.14.182

12. Nabi MH Bin, Ahmed MM, Mia MS, Islam S, Zzaman W. Essential oils: Advances in extraction techniques, chemical composition, bioactivities, and emerging applications. Food Chem Adv. 2025;8(June):101048. doi:10.1016/j.focha.2025.101048

13. Md Zaki NA, Jai J, Shahrizan ISK, Fardhyanti DS, Megawati M, Imani NAC. An overview of the potential of Citrus hystrix (kaffir lime) essential oil as mosquito repellent. Int J Adv Appl Sci. 2022;11(4):360. doi:10.11591/ijaas.v11.i4.pp360-366

14. Othman HI Al, Alkatib HH, Zaid A, et al. Phytochemical Composition, Antioxidant and Antiproliferative Activities of Citrus hystrix, Citrus limon, Citrus pyriformis, and Citrus microcarpa Leaf Essential Oils against Human Cervical Cancer Cell Line. Plants. 2022;12(1):134. doi:10.3390/plants12010134

15. Naibaho NM, Safitri ASM, Rudito, et al. Chemical composition and antibacterial activity of essential oil kaffir lime (Citrus hystrix DC) leaves from East Borneo. Food Res. 2024;8(1):250-256. doi:10.26656/fr.2017.8(1).100

16. Thonglem S, Khumweera P, Lahpun N. GC-MS analysis, Antioxidant Activity and Antimicrobial Activity of Kaffir Lime (Citrus hystrix DC.) and Key Lime (Citrus aurantifolia (Christm.) Swingle.) Peel Essential Oils. J Curr Sci Technol. 2023;13(3):620-629. doi:10.59796/jcst.V13N3.2023.888

17. Machado CA, Oliveira FO, de Andrade MA, Hodel KVS, Lepikson H, Machado BAS. Steam Distillation for Essential Oil Extraction: An Evaluation of Technological Advances Based on an Analysis of Patent Documents. Sustainability. 2022;14(12):7119. doi:10.3390/su14127119

18. Dao TP, Nguyen TV, Tran TYN, et al. Central Composite Design, Kinetic Model, Thermodynamics, and Chemical Composition of Pomelo (Citrus Maxima (Burm.) Merr.) Essential Oil Extraction by Steam Distillation. Processes. 2021;9(11):2075. doi:10.3390/pr9112075

19. Fiehn O. Metabolomics by Gas Chromatography–Mass Spectrometry: Combined Targeted and Untargeted Profiling. Curr Protoc Mol Biol. 2016;114(1):232-235. doi:10.1002/0471142727.mb3004s114

20. Ranjan Maji S, Roy C, Sinha SK. Gas chromatography-mass spectrometry (GC-MS): a comprehensive review of synergistic combinations and their applications in the past two decades. J Anal Sci Appl Biotechnol. 2023;5(2):72-85. doi:10.48402/IMIST.PRSM/jasab-v5i2.40209

21. Abrantes DC, Rogerio CB, de Oliveira JL, et al. Development of a Mosquito Repellent Formulation Based on Nanostructured Lipid Carriers. Front Pharmacol. 2021;12(October):1-13. doi:10.3389/fphar.2021.760682

22. Irfayanti NA, Jasmiadi J, Tari A. Formulation and Activity Test of Repellent Spray Marigold Flower Essential Oil (Tagetes erecta L.) in Aedes aegypti Mosquitoes. J Syifa Sci Clin Res. 2022;4(2):363-370. https://ejurnal.ung.ac.id/index.php/jsscr/article/view/14161

23. Johar V, Iftitah ED, Madiana D. Formulation and Physicochemical Properties of Kaffir Lime Oil-in-Water Beverage Emulsions and Antibacterial Test. Indones Green Technol J. 2022;11(01):13-20. doi:10.21776/ub.igtj.2022.011.01.02

24. Budiarto R, Sholikin MM. Kaffir Lime Essential Oil Variation in the Last Fifty Years: A Meta-Analysis of Plant Origins, Plant Parts and Extraction Methods. Horticulturae. 2022;8(12):1132. doi:10.3390/horticulturae8121132

25. Mustapa MA, Guswenrivo I, Zurohtun A, Khairul Ikram N, Muchtaridi M. Analysis of Essential Oils Components from Aromatic Plants Using Headspace Repellent Method against Aedes aegypti Mosquitoes. Molecules. 2023;28(11):4269. doi:10.3390/molecules28114269

26. Bayuadi B, Purwati P, Panjaitan RS. Repellent Activity Test Of Essential Oil Gel Of Cinnamommum Burmanii Bi Leaves Against Aedes Aegypti Mosquitoes. Indones J Pharm Res. 2023;2(2):34-44. doi:10.31869/ijpr.v2i2.4180

27. Saputra A, Mulyadi D, Khumaisah LL. E-Liquid Formulation of Citronella Oil (Cymbopogon nardus) as Repellent Against Aedes aegypti. Chim Nat Acta. 2020;8(3):126-132. doi:10.24198/cna.v8.n3.26257

28. Yadav AA, Chikate SS, R. B V, Suryawanshi MA, Kumbhar GB. Review on Steam Distillation: A Promising Technology for Extraction of Essential Oil. Int J Adv Eng Res Dev. 2017;4(4):667-671. https://ijaerd.org/index.php/IJAERD/article/view/2641/2502

29. Kim Ngan TT, Hien TT, Le XT, et al. Physico-Chemical Profile of Essential oil of Kaffir Lime (Citrus hystrix DC) Grown in An Giang Province, Vietnam. Asian J Chem. 2019;31(12):2855-2858. doi:10.14233/ajchem.2019.22167

30. Anwar Y, Bonita E, Putra AM. Identification of Chemical Compounds of Citrus hystrix Essential Oil Using Gas Chromatography–Mass Spectrophotometry (GC-MS). Bioedukasi. 2023;22(2). doi:10.19184/bioedu.v22i2.47857

31. Adams RP. Identification of Essential Oil Components by Gas Chromatography/Mass Spectrometry. 4.1. Allured Publishing; 2017.

32. Lachenmeier DW. Safety evaluation of topical applications of ethanol on the skin and inside the oral cavity. J Occup Med Toxicol. 2008;3(1):26. doi:10.1186/1745-6673-3-26

33. Zore S, Panaskar T, Nale D, Sawant S. Alcohol-Based Hand Sanitizers: A Systematic Review on Effectiveness and Effects. Int J Adv Res Sci Commun Technol. 2021;5(Figure 1):138-147. doi:10.48175/IJARSCT-1930

34. Gina M, Ofenloch R, Schwebke I, Hübner N, Brüning T, Fartasch M. The Effect of Alcohol‐Based Virucidal Hand Sanitizers on Skin Barrier Function—A Randomised Experimental Study. Contact Dermatitis. 2025;93(2):119-130. doi:10.1111/cod.14808

35. Barnes TM, Mijaljica D, Townley JP, Spada F, Harrison IP. Vehicles for Drug Delivery and Cosmetic Moisturizers: Review and Comparison. Pharmaceutics. 2021;13(12):2012. doi:10.3390/pharmaceutics13122012

36. Dayan N, ed. Handbook of Formulating Dermal Applications: A Definitive Practical Guide. Scrivener Publishing; 2017. doi:10.1002/9781119364221

37. Aulton ME, Taylor KMG. Aulton’s Pharmaceutics: The Design and Manufacture of Medicines. 6th ed. (Taylor KMG, Aulton ME, eds.). Elsevier; 2021.

38. Lukić M, Pantelić I, Savić SD. Towards Optimal pH of the Skin and Topical Formulations: From the Current State of the Art to Tailored Products. Cosmetics. 2021;8(3):69. doi:10.3390/cosmetics8030069

39. Sinko PJ. Martin’s Phycical Pharmacy and Pharmaceutical Sciences: Physical Chemical and Biopharmaceutical Principles in the Pharmaceutical Sciences. Eighth. (Sinko PJ, Singh Y, eds.). Lippincott Williams & Wilkins, a Wolters Kluwer business; 2023.

40. Nararak J, Sathantriphop S, Kongmee M, Bangs MJ, Chareonviriyaphap T. Excito-repellency of Citrus hystrix DC leaf and peel essential oils against Aedes aegypti and Anopheles minimus. J Med Entomol. 2017;54(1):178-186. doi:10.1093/jme/tjw143

41. Subekti N, Puraedah A, Indriyanti DR, Soegianto A. Larvicidal and pupicidal activities from Citrus hystrix against Aedes aegypti mosquitoes. Ecol Environ Conserv. 2020;26(3):1313-1318. https://www.envirobiotechjournals.com/issues/article_abstract.php?aid=10780&iid=316&jid=3

42. Yoon JK, Kim KC, Cho Y, et al. Comparison of Repellency Effect of Mosquito Repellents for DEET, Citronella, and Fennel Oil. J Parasitol Res. 2015;2015:1-6. doi:10.1155/2015/361021

43. World Health Organization (WHO). Guidelines for efficacy testing of mosquito repellents for human skin. Who/Htm/Ntd/Whopes/20094. Published online 2009:1-6.

44. Rasydy LO., Kuncoro.B, Hasibuan M. Formulation of the Spray Leaves and Citronella Stems (Cymbopogon nardus L.) as Repellens of the Culex s.p Mosquito. J Farmagazine. 2020;7(1):45-50. https://ejournals.stfm.ac.id/index.php/JurnalFarmagazine/article/view/150

45. Nurfany RF, Purwati P. Uji Aktivitas Repellent Sediaan Gel Minyak Atsiri Herba Lemon Balm (Melissa officinalis L.) terhadap Nyamuk Aedes aegypti. Arch Pharm. 2020;2(2):64-81. https://ejurnal.esaunggul.ac.id/index.php/AP/article/view/3395/2787

46. Nurhadianty V, Sarosa AH, Wahyuningsih I, Cahyani C. Improving yield and quality characteristics of kaffir lime oil (citrus hystrix DC) by solid fermentation pretreatment using tempeh yeast. Malaysian J Fundam Appl Sci. 2020;16(4):493-496. doi:10.11113/mjfas.v16n4.1525

47. Latifah F, Taufiq H, Fitriyana NM. Uji Antioksidan dan Karakterisasi Minyak Atsiri dari Kulit Jeruk Purut (Citrus hystrix D. C). JPSCR J Pharm Sci Clin Res. 2023;8(1):46. doi:10.20961/jpscr.v8i1.67396

48. Astuti IP, Palupi KD, Damayanti F. Essential Oils Composition of Kaffir Lime (Citrus hystrix DC.) Collection of Bogor Botanic Gardens from Central Java and East Sumba. J Trop Biodivers Biotechnol. 2022;7(1):66061. doi:10.22146/jtbb.66061

49. Iryani AS, Deka A. Pembuatan Minyak Atsiri dari Kulit Jeruk Purut (Citrus Histrix) dengan Metode Ekstraksi. In: Prosiding Seminar Hasil Penelitian (SNP2M). Vol 2018. Politeknik Negeri Ujung Pandang; 2018:159-161. https://jurnal.poliupg.ac.id/index.php/snp2m/article/view/838/729

50. Simanjuntak TO, Mariani Y, Yusro F. Komponen Kimia Minyak Atsiri Daun Jeruk Purut (Citrus hystrix) dan Bioaktivitasnya terhadap Bakteri Salmonella typhi dan Salmonella typhimurium. Cendekia Eksakta. 2021;6(1):49-56. doi:10.31942/ce.v6i1.4410

51. Subaryanti S, Sulistyaningsih YC, Iswantini D, Triadiati T. Essential Oil Components, Metabolite Profiles, and Idioblast Cell Densities in Galangal (Kaempferia galanga L.) at Different Agroecology. AGRIVITA J Agric Sci. 2021;43(2):245-261. doi:10.17503/agrivita.v43i2.2631

52. Thakur BK, Shivani S, Mahajan M, Pal PK. Chemical Diversity of Essential Oil of Valeriana jatamansi from Different Altitudes of Himalaya and Distillation Methods. Molecules. 2022;27(8):2387. doi:10.3390/molecules27082387

53. Zubaydah WOS, Aspadiah V, Ammar M. Development Of Spray Gel From Ethanol Extract Of Bamboo (Polygonum pulchrum Blume) Plants Using Viskolam® and Hydroxypropyl Methyl Cellulose (HPMC) Gel Combination Base. Medula. 2022;10(1):53-65. doi:10.46496/medula.v10i1.26555

54. Angelia A, Putri GR, Shabrina A, Ekawati N. Formulasi Sediaan Spray Gel Ekstrak Kulit Jeruk Manis (Citrus Sinensis L.) sebagai Anti-Aging. Generics J Res Pharm. 2022;2(1):44-53. doi:10.14710/genres.v2i1.13213

55. Lopez AD, Whyms S, Luker HA, Galvan CJ, Holguin FO, Hansen IA. Repellency of Essential Oils and Plant-Derived Compounds Against Aedes aegypti Mosquitoes. Insects. 2025;16(1):51. doi:10.3390/insects16010051

56. Mishra P, Kumar J, Prabahar AE, Verma A, Verma AK. Linalool based herbal mosquito repellant. Int J Mosq Res. 2023;10(3):15-23. doi:10.22271/23487941.2023.v10.i3a.674

57. Sharma S, Verma DA, Srivastava N. A review on medicinal plants having mosquito repellents activity. J Pharmacogn Phytochem. 2024;13(3):82-85. doi:10.22271/phyto.2024.v13.i3b.14944

58. Sougoufara S, Yorkston-Dives H, Aklee NM, Rus AC, Zairi J, Tripet F. Standardised bioassays reveal that mosquitoes learn to avoid compounds used in chemical vector control after a single sub-lethal exposure. Sci Rep. 2022;12(1):2206. doi:10.1038/s41598-022-05754-2

59. WHO. Guidelines for testing the efficacy of insecticide products used in aircraft. World Heal Organ. Published online 2012:19.

60. Haris A, Azeem M, Abbas MG, Mumtaz M, Mozūratis R, Binyameen M. Prolonged Repellent Activity of Plant Essential Oils against Dengue Vector, Aedes aegypti. Molecules. 2023;28(3):1351. doi:10.3390/molecules28031351