Evaluation of the aphicidal activity of Salvia microphylla (Lamiaceae) aqueous extracts against Aphis pomi (Aphididae)

[1] Gross, A. D. (2014), Botanical pesticides: Identification of a molecular target and mode of action studies. Doctoral dissertation, Iowa State University. Search in Google Scholar

[2] Weigand, S., Bishara, S. I. (1991), Status of insect pests of faba bean in the Mediterranean region and methods of control. Options Méditerranéennes: Série A 10, 67–74. Search in Google Scholar

[3] Gupta, P. K. (2016), Fundamentals of toxicology: Essential concepts and applications. Academic Press. Search in Google Scholar

[4] Saxena, H. O., Tripathi, Y. C., Pawar, G., Kakkar, K., Mohammad, N. (2014), Botanicals as biopesticides: Active chemical constituents and biocidal action. In: Khatri, P. K., Mesharm, P. B. (eds.), Familiarizing with local biodiversity notes on systematics of plants and insects. Tropical Forest Research Institute: India. 219–240. Search in Google Scholar

[5] Naboulsi, I., Aboulmouhajir, A., Kouisni, L., Bekkaoui, F., Yasri, A. (2018), Plants extracts and secondary metabolites, their extraction methods and use in agriculture for controlling crop stresses and improving productivity: A review. Academia Journal of Medicinal Plants 6, 223–240. Search in Google Scholar

[6] Kumar, S., Mahapatro, G. K., Yadav, D. K., Tripathi, K., Koli, P., Kaushik, P., Sharma, K., Nebapure, S. (2022), Essential oils as green pesticides: An overview. Indian Journal of Agricultural Sciences 92(11), 1298–1305. Search in Google Scholar

[7] Acharya, P., Mir, S. A., Nayak, B. (2017), Competence of biopesticide and neem in agriculture. International Journal of Environment, Agriculture and Biotechnology 2(6), 2958–2964. Search in Google Scholar

[8] Singh, B., Kaur, A. (2018), Control of insect pests in crop plants and stored food grains using plant saponins: A review. Lwt Food Science & Technology 87, 93–101. Search in Google Scholar

[9] De Geyter, E. D., Lambert, E., Geelen, D., Smagghe, G. (2007), Novel advances with plant saponins as natural insecticides to control pest insects. Pest Technology 1(2), 96–105. Search in Google Scholar

[10] Hassan Adeyemi, M. M. (2010), The potential of secondary metabolites in plant material as deterrents against insect pests: A review. African Journal of Pure and Applied Chemistry 4(11), 243–246. Search in Google Scholar

[11] Pavela, R. (2007), Possibilities of botanical insecticide exploitation in plant protection. Pest Technology 1(1), 47–52. Search in Google Scholar

[12] Barua, S., Gopalakrishnan, R., Veer, V. (2016), Extraction, purification and characterisation of insecticidal compounds from plants. In: Veer, V., Gopalakrishnan, R. (eds.), Herbal insecticides, repellents and biomedicines: Effectiveness and commercialization. New Delhi: Springer. 101–115. Search in Google Scholar

[13] Acheuk, F., Basiouni, S., Shehata, A. A., Dick, K., Hajri, H., Lasram, S., Yilmaz, M., Emekci, M., Tsiamis, G., Spona-Friedl, M., May-Simera, H. (2022), Status and prospects of botanical biopesticides in Europe and Mediterranean countries. Biomolecules 12(2), 311. Search in Google Scholar

[14] Duarte, M. R., Siebenrock, M. (2016), Microscopic features of the leaf and stem of Salvia microphylla Kunth, Lamiaceae. Visão Acadêmica 17(1), 5–18. Search in Google Scholar

[15] Aydoğmuş, Z., Yeşİlyurt, V., Topcu, G. (2006), Constituents of Salvia microphylla. Natural Product Research 20(8), 775–781. Search in Google Scholar

[16] Lowery, D. T., Smirle, M. J., Foottit, R. G., Beers, E. H. (2006), Susceptibilities of apple aphid and spirea aphid collected from apple in the Pacific Northwest to selected insecticides. Journal of Economic Entomology 99(4), 1369–1374. Search in Google Scholar

[17] Abbott, W. S. (1925), A method of computing the effectiveness of an insecticide. Journal of Economic Entomology 18, 265–267. Search in Google Scholar

[18] Singh, A., Kataria, R., Kumar, D. (2012), Repellence property of traditional plant leaf extracts against Aphis gossypii Glover and Phenacoccus solenopsis Tinsley. African Journal of Agricultural Research 7(11), 1623–1628. Search in Google Scholar

[19] Balog, A., Thiesz, R., Ferencz, L., Albert, J. (2007), The effects of plant extracts on apple aphid (Homoptera: Aphis pomi De Geer) under laboratory conditions. Romanian Biotechnological Letters 12(5), 3423. Search in Google Scholar

[20] Eman Musa, I. (2016), Effect of aqueous extract of some natural plants against sorghum aphid (Rhopalosiphum maidis). B.Sc. (Honours) Graduation Research Project in Plant Protection, Sudan University of Science and Technology. Search in Google Scholar

[21] Mapuranga, R., Jimu, F., Musiniwa, F., Muzemu, S., Madanzi, T. (2016). Efficacy of aqueous extracts of Aloe zebrina Baker, Capsicum annum L. and Melia azedarach L. against Aphis gossypii Glover (Homoptera: Aphididae). International Journal of Agronomy and Agricultural Research 9, 36–46. Search in Google Scholar

[22] Lebbal, S., Hedjazi, N., Tabti, I., Ouarghi, H., Zeraib, A. (2018), Aphicidal activity of plant extracts against Aphis fabae (Scopoli, 1763) (Hemiptera: Aphididae). Acta Entomologica Serbica 23(1), 1–7. Search in Google Scholar

[23] Lebbal, S., Ouarghi, H., Boubekeur, F., Zeraib, A. (2018), Test of the insecticidal activity of four plants against black bean aphid (Aphis fabae). In: XI European Congress of Entomology, Italy, 2–6 July 2018. Book of abstracts. 176. Search in Google Scholar

[24] Sabeghi Khosroshahi, Z., Abbasipour, H., Rezazadeh, A. (2021), Inhibitory effect of aqueous bean extract, Phaseolus vulgaris (fabaceae), on α-amylase of the cabbage aphid, Brevicoryne brassicae. Archives of Agronomy and Soil Science 67(10), 1425–1433. Search in Google Scholar

[25] Kareem, K. T., Olayinka, R. B., Ugwu, J. A., Oduwaye, O. F. (2022), Effects of neem aqueous extract (Azadirachta indica) against aphids and aphid-borne virus in cowpea (Vigna unguiculata L. Walp). Tanzania Journal of Science 48(1), 47–56. Search in Google Scholar

[26] Romo-Asunción, D., Ávila-Calderón, M. A., Ramos-López, M. A., Barranco-Florido, J. E., Rodríguez-Navarro, S., Romero-Gomez, S., Aldeco-Pérez, E. J., Pacheco-Aguilar, J. R., Rico-Rodríguez, M. A. (2016), Juvenomimetic and insecticidal activities of Senecio salignus (Asteraceae) and Salvia microphylla (Lamiaceae) on Spodoptera frugiperda (Lepidoptera: Noctuidae). Florida Entomologist 99(3), 345–351. Search in Google Scholar

[27] Ateyyat, M., Abdel-Wali, M., Al-Antary, T. (2012), Toxicity of five medicinal plant oils to woolly apple aphid, Eriosoma lanigerum (Homoptera: Aphididae). Australian Journal of Basic and Applied Sciences, 6, 66–72. Search in Google Scholar

[28] Pavela, R., Neugebauerová, J. (2008), Screening of insecticidal activity of some Salvia species on Spodoptera littoralis Boisduval larvae. In: Proceedings of the Fifth Conference on Medicinal and Aromatic Plants of Southeast European Countries (5th CMAPSEEC), Brno, Czech Republic, 2–5 September 2008. Mendel University of Agriculture and Forestry in Brno. Search in Google Scholar

[29] Benoufella-Kitous, K., Aoaur-Sadli, M., Fellag, H. (2020), Evaluation of insecticidal properties of sage, Salvia officinalis leaves against Aphis fabae Scopoli, 1763 (Homoptera: Aphididae). Journal of Entomological Research 44(1), 35–40. Search in Google Scholar

[30] Goławska, S., Leszczynski, B., Wieslaw, O. (2006), Effect of low and high-saponin lines of alfalfa on pea aphid. Journal of Insect Physiology 52(7), 737–743. Search in Google Scholar

[31] Yan, H., Xie, N., Zhong, C., Su, A., Hui, X., Zhang, X., Jin, Z., Li, Z., Feng, J., He, J. (2018), Aphicidal activities of Amaryllidaceae alkaloids from bulbs of Lycoris radiata against Aphis citricola. Industrial Crops and Products 123, 372–378. Search in Google Scholar

[32] Chaieb, I. (2010). Saponins as insecticides: A review. Tunisian Journal of Plant Protection 5(1), 39–50. Search in Google Scholar

[33] Lattanzio, V., Arpaia, S., Cardinali, A., Di Venere, D., Linsalata, V. (2000), Role of endogenous flavonoids in resistance mechanism of Vigna to aphids. Journal of Agricultural and Food Chemistry 48(11), 5316–5320. Search in Google Scholar

[34] Assis, F. A., Moraes, J. C., Assis, G. A. (2007), Effect of the aqueous extract of garlic bulbs on the aphid Myzus persicae (Sulzer) (Hemiptera: Aphididae) on potato. Ecossistema 32(1/2), 63–66. Search in Google Scholar

[35] Mina, C. R. B. (2020), Efficacy of aqueous flower extract of African marigold (Tagetes erecta L.) against cotton aphid (Aphis gossypii Glover) and green peach aphid (Myzus persicae Sulzer) of sweet pepper (Capsicum annuum L.) (unpublished special paper). Central Philippine University, Jaro, Iloilo City. Search in Google Scholar

[36] Yousuf, I., Buhroo, A. A., Nisa, G. (2021), Repellent activities of some plant extracts against rose aphid, Macrosiphum rosae (Hemiptera: Aphididae). Munis Entomology & Zoology 16(2), 1045–1055. Search in Google Scholar

[37] Dhawan, A. K., Grewal, G. K., Sanjeev, K., Arora, J. K. (2010), Bioefficacy of neem seed aqueous extract against the mustard aphid, Lipaphis erysimi (Kalt.) on Indian mustard (Brassica juncea L.) under laboratory conditions. Pest Management and Economic Zoology 18(1/2), 165–172. Search in Google Scholar

[38] Powell, G., Tosh, C. R., Hardie, J. (2006), Host plant selection by aphids: Behavioral, evolutionary, and applied perspectives. Annual Review of Entomology 51, 309–330. Search in Google Scholar

[39] Wójcicka, A. (2010), Cereal phenolic compounds as biopesticides of cereal aphids. Polish Journal of Environmental Studies 19(6), 1337–1343. Search in Google Scholar