Essential oils (EO) of Mentha piperita L. and Cymbopogon citratus (DC.) Stapf is a potential source of molecules with bioparasiticidal activity. The development of optimized combinations of these natural substances would allow them to be used as biopesticides. Thus, the objective of this study is to determine the biopesticide efficacy of EO obtained by co-distillation of these two plants from western Burkina Faso. GC/MS analyses show that the EO obtained by co-distillation of the dry leaves of C. citratus and M. piperita (CC/MP: 80/20) contains mainly citral (49.26%), β-myrcene (10.98%), menthol (5.90%) and menthone (4.50%). The EO of C. citratus contains mainly citral (74.32%) and β-myrcene (13.66%) while that of M. piperita contains mainly menthol (37.4%), menthyl acetate (17.4%), menthone (12.7%), limonene (6.9%), menthofuran (6.8%) and 1,8-cineole (5.6%). All major constituents of the two pure EOs were identified in the component of their mixture (CC/MP*: 80/20), but at lower levels. All EOs inhibited 100% of the mycelial growth of Macrophomina phaseolina and Phoma sorghina at doses of 0.6 and 0.2%. At the lowest dose tested (0.05%), inhibition rates were 49.63; 39.52 ; 39.52% and 26.33% on M. phaseolina; 41.13 ; 40.90 ; 19.67% and 21.50% on P. sorghina for EO/CC/MP, C. citratus, M. piperita and CC/MP*, respectively. All EOs, with the exception of M. piperita, resulted in 100% mortality of the susceptible strain of Anopheles gambiae at a dose of 1%. However, at the same dose, on the resistant strain, the mortality rates were 21.11; 2.47 ; 8.56% and 3.33% for EO, CC/MP, C. citratus, M. piperita and CC/MP*, respectively. This study shows that the co-distillation of C. citratus and M. piperita improves the biopesticide efficacy of their EOs.

Keywords: C. citratus; M. piperita; co-distillation; essential oil; Efficacy of biopesticides

N.B. Likibi, G. Tsiba, A. Madiélé, S. Nsikabaka, J. Moutsamboté, J. Ouamba, Constituants chimiques de l’huile essentielle de Mentha piperata L.(Lamiaceae) du Congo, Journal of Applied Biosciences, 2015, 92, 8578-8585.

I.H.N. Bassolé, A. Lamien-Meda, B. Bayala, S. Tirogo C. Franz, J. Novak, R.C.H. Nebié, M.H. Dicko, Composition and Antimicrobial Activities of Lippia multiflora Moldenke, Mentha x piperita L. and Ocimum basilicum L. Essential Oils and Their Major Monoterpene Alcohols Alone and in Combination, Molecules, 2010, 15, 7825-7839.

D. Samate, Compositions chimiques d’huiles essentielles extraites de plantes aromatiques de la zone soudanienne du Burkina Faso, 2002, 250.

B. Bayala, I.H.N. Bassole, C. Gnoula, R. Nebie, A. Yonli, L. Morel, G. Figueredo, J.B. Nikiema, J.M.A. Lobaccaro, J. Simpore, Chemical composition, antioxidant, anti-inflammatory and anti-proliferative activities of essential oils of plants from Burkina Faso, PLoS one, 2014, e92122.

I.H.N. Bassolé, A. Lamien-Meda, B. Bayala, L.C. Obame, A.J. Ilboudo, C. Franz, J. Novak, R.H.C. Nébié, M.H. Dicko, Chemical composition and antimicrobial activity of Cymbopogon citratus and Cymbopogon giganteus essential oils alone and in combination, Phytomedicine Int. J. Phytother. Phytopharm., 2011, 18, 1070-1074.

M. balboné, Alternative à la résistance aux pyréthrinoïdes au Burkina Faso: Évaluation des activités insecticides et répulsives-irritantes d’huiles essentielles de plantes locales seules et en combinaison sur les populations de Anopheles gambiae et de Aedes aegypti (Diptera: Culicidae), Université Joseph KI-ZERBO, 2022.

J.D. Gbenou, J.F. Ahounou, H.B. Akakpo, A. Laleye, E. Yayi, F. Gbaguidi, L. Baba-Moussa, R. Darboux, P. Dansou, M. Moudachirou, Phytochemical composition of Cymbopogon citratus and Eucalyptus citriodora essential oils and their anti-inflammatory and analgesic properties on Wistar rats, Molecular biology reports, 2013, 40, 1127-1134.

G. Nonviho, V.D. Wotto, J.P. Noudogbessi, F. Avlessi, M. Akogbeto, D.C. Sohounhloué, Insecticidal activities of essential oils extracted from three species of Poaceae on Anopheles gambiae spp, major vector of malaria, St. Cerc. CICBIA, 2010, 11, 411-420.

A.D. Bossou, S. Mangelinckx, H. Yedomonhan, P. Boko, M. Akogbeto, N. De Kimpe, F. Avlessi, D. Sohounhloue, Composition chimique et activité insecticide des huiles essentielles végétales du Bénin contre Anopheles gambiae (Gilles), Parasite Vecteurs, 2013, 6, 337.

I.L.V. Somda, P. Sérémé, Antifungal effect of Cymbopogon citratus, Eucalyptus camaldulensis and Azadirachta indica oil extracts on sorghum seed-borne fungi, Asian Journal of Plant Sciences, 2007, 6, 1182-1189.

B. Likibi, G. Tsiba, A. Madiélé, S. Nsikabaka, J. Moutsamboté, J. Ouamba, Constituants chimiques de l’huile essentielle de Mentha piperata L. (Lamiaceae) du Congo, J. Appl. Biosci., 2015, 92, 8578-8585.

Z. Zoran, L. Zika, M. Slavica, A. Dusan, M. Hibrahim, Supercritical CO2 extraction of (Mentha piperita L.) at different solvent densities, J. Serb. Chem. Soc., 2009, 74, 417-425.

G.R. Degnon, E. Adjou, G. SMetome, E. Dahouenon-Ahoussi, Efficacité des huiles essentielles de Cymbopogon citratus et de Mentha piperita dans la stabilisation du lait frais de vache au Sud du Bénin, Int. J. Biol. Chem. Sci., 2016, 10, 1894-1902.

S. Benazzeddine, Activité insecticide de cinq huiles essentielles vis-à-vis de Sitophilus oryzae (Coleoptera : Curculionidae) et Tribolium confusum (Coleoptera : Tenebrionidae), Ecole nationale supérieure agronomique El Harrach, Algérie, 2010.

J. Gwinner, R. Harnisch, O. Muck, J. Rannou, Manuel sur la manutention et la conservation des grains apres recolte, Deutsche Gesellschaft fur Technische Zusammenarbeit, Eschborn, 1991.

E. Hidalgo, D. Moore, G. Le Patourel, The effect of different formulations of Beauveria bassiana on Sitophilus zeamaisin stored maize, Journal of stored products research, 1998, 34, 171-179.

O. Zaki, F. Weekers, P. Thonart, E. Tesch, P. Kuenemann, P. Jacques, Limiting factors of mycopesticide development, Biological Control, 2020, 144, 104220.

C. Regnault-Roger, C. Vincent, J.T. Arnason, Essential oils in insect control: low-risk products in a high-stakes world, Annual review of entomology, 2012, 57, 405-424.

F.A.S. BakkaliF. D. Averbeck, M. Idaomar, Biological effects of essential oils, A Review, Food and Chemical Toxicology, 2008, 46, 446-475.

K.D. Amaral, L.C. Martínez, M.A.P. Lima, J.E. Serrão, T.M.C. Della Lucia, Azadirachtin impairs egg production in Atta sexdens leaf-cutting ant queens, Environmental pollution, 2018, 243, 809-814.

Y. Cho, H. Kim, L.R. Beuchat, J. H. Ryu, Synergistic activities of gaseous oregano and thyme thymol essential oils against Listeria monocytogenes on surfaces of a laboratory medium and radish sprouts, Food Microbiol, 2020, 86, 103357.

R.H.C. Nébié, A. Tiemtoré, R.T. Yaméogo, Etude de l'effet insecticide de mélanges d'huiles essentiell es sur Callosobruchus maculatus F. prédateur du niébé, Sciences Naturelles et Appliquées, 2009.

F. Devlieghere, A. Vermeulen, J. Debevere, Chitosan: Activité antimicrobienne, interactions avec les composants alimentaires et applicabilité en tant que revêtement sur les fruits et légumes, Inter. J. Microbiol Alimentaire, 2004, 21, 703-714.

B. Nébié, C.M. Dabiré, R.K. Bationo, S. Sosso, R.C.H. Nébié, E. Palé, P. Duez, Composition chimique et potentiel antioxydant de l’huile essentielle obtenue par co-distillation de Mentha piperita L. et Cymbopogon citratus (DC.) Stapf du Burkina Faso, Int. J. Biol. Chem. Sci., 2023, 17, 689-700.

S. Stein, D. Mirokhin, D. Tchekhovskoi, G. Mallard, A. Mikaia, V. Zaikin, D. Sparkmanm, The NIST mass spectral search program for the NIST/EPA/NIH mass spectra library, Gaithersburg, MD: Standard Reference Data Program of the National Institute of Standards and Technology, 2002.

V. Babushok, P. Linstrom, I. Zenkevich, Retention indices for frequently reported compounds of plant essential oils, Journal of Physical and Chemical Reference Data, 2011, 40, 043101.

S. Mathur, O. Kongsdal, Common laboratory seed health testing methods for detecting fungi, International Seed Testing Association, 2003.

E.S. Adjou, M. Aoumanou, Efficacité des extraits de plantes dans la lutte contre les moisissures toxinogènes isolées de l’arachide en post-récolte au Bénin, Journal of Applied Biosciences, 2013, 70, 5555-5566.

A. Kumar, F. Malik, S. Bhushan, V.K. Sethi, A.K. Shahi, S.C. Taneja, G.N. Qazi, J. Singh, An essential oil and its major constituent isointermedeol induce apoptosis by increased expression of mitochondrial cytochrome c and apical death receptors in human leukaemia HL-60 cells, Chemico-biological interactions, 2008, 171, 332-347.

K.H. Toé, C.M. Jones, S. N’Fale, H.M. Ismail, R.K. Dabiré, H. Ranson, Increased pyrethroid resistance in malaria vectors and decreased bed net effectiveness, Burkina Faso, Emerging infectious diseases, 2014, 20, 1691.

W.D. Wangrawa, Activité biologique et modes d’action d’extraits de quatre plantes aromatiques contre anopheles gambiae s.l. au burkina faso, Université Ouaga I Pr Joseph KI-ZERBO, 2017.

M.D. Sokovic, J. Vukojevic, P.D. Marin, D.D. Brkić, V. Vajs, L.J.L.D. Griensven, Chemical Composition of Essential Oils of Thymus and Mentha Species and Their Antifungal Activities, Molecules, 2009, 14, 238-249.

Y.O.M. Hay, La complexité des simples caractérisations chimique et biologique de combinaisons hydrolats-huiles essentielles et huiles essentielles-huiles essentielles pour l'objectivation d'effets conservateurs de produits phyto-thérapeutiques In Institut National Polytechnique de Toulouse, 2015.

F. Tchoumbougnang, P.M.J. Dongmo, M.L. Sameza, E.G.N. Mbanjo, G.B.T. Fotso, P.H.A. Zollo, C. Menut, Activité larvicide sur Anopheles gambiae Giles et composition chimique des huiles essentielles extraites de quatre plantes cultivées au Cameroun, Biotechnol. Agron. Soc. Environ., 2009, 13, 77-84.

N. Benayad, Les huiles essentielles extraites des plantes médicinales marocaines: moyen efficace de lutte contre les ravageurs des denrées alimentaires stockées, Projet de thèse de Doctorat de l’Université Mohammed V, 2008.

M. Fiaz, L.C. Martínez, M. Da Silva Costa, J.F.S. Cossolin, A. Plata-Rueda, W.G. Gonçalves, A.E.G. Sant’Ana, J.C. Zanuncio, J.E. Serrão, Squamocin induce histological and ultrastructural changes in the midgut cells of Anticarsia gemmatalis (Lepidoptera: Noctuidae), Ecotoxicology and environmental safety, 2018, 156, 1-8.

J.A.J. García-Díez, A.L. Pinto, V. Falco M.J. Fraqueza L. Patarata, L. Synergistic Activity of Essential Oils from Herbs and Spices Used on Meat Products against Food Borne Pathogens, Natural Product Communications, 2016, 12, 281-286.

A. Ultee, R. Slump, G. Steging, E. Smid, Antimicrobial activity of carvacrol toward Bacillus cereus on rice, Journal of Food Protection, 2000, 63, 620-624.

S. Chabni, A. Belabbas, Activité insecticide des huiles essentielles de la sauge officinale (Salvia officinalis L.) et la menthe poivrée (Mentha piperita L.) à l’égard des adultes de la bruche chinoise Callasobruchus chinensis L.(Coleoptera: Chrysomelidae), Université Mouloud Mammeri, 2022.

D.W. Wangrawa, E. Ochomo, F. Upshur, N. Zanré, D. Borovsky, C. Lahondere, C. Vinauger, A. Badolo, A. Sanon, Essential oils and their binary combinations have synergistic and antagonistic insecticidal properties against Anopheles gambiae sl (Diptera: Culicidae), Biocatalysis and Agricultural Biotechnology, 2022, 42, 102347.