TOKSISITAS NANOEMULSI EKSTRAK BIJI Annona muricata DAN Leucaena leucocephala DENGAN METODE FASE INVERSI DAN HOMOGENISASI TERHADAP HAMA Spodoptera frugiperda

Sigit Ardiansyah; Ni Siluh Putu Nuryanti

doi:10.23960/ja.v24i2.11573

Authors

Sigit Ardiansyah Jurusan Budidaya Tanaman Pangan, Politeknik Negeri Lampung http://orcid.org/0000-0002-3020-7403
Ni Siluh Putu Nuryanti Jurusan Budidaya Tanaman Pangan, Politeknik Negeri Lampung

DOI:

https://doi.org/10.23960/ja.v24i2.11573

Abstract View: 27

Abstract

Spodoptera frugiperda is a polyphagous insect pest that attacks corn, sorghum, soybeans, wheat, and horticultural crops. The feeding activities of S. frugiperda larvae can lead to significant economic losses for farmers. Current efforts to control S. frugiperda still rely heavily on the use of chemical insecticides. However, the excessive or inappropriate use of chemical insecticides can lead to the survival of pests that are resistant to these treatments. Bioinsecticides are considered to have lower toxicity to both living organisms and the environment, which makes them a potentially ideal option for agricultural use. This study aims to test the toxicity both individually and in combination as well as the interaction properties of a mixture of Annona muricata and Leucaena leucocephala seed extracts in various ratios as bioinsecticides against S. frugiperda in sweet corn plants. The research methods consist of rearing S. frugiperda, extraction, bioinsecticide formulation, single and mixed toxicity tests, and the interaction properties of the mixture. The results of the study showed that the method of making nanoemulsions by homogenization showed better toxicity activity compared to the method of making nanoemulsions by inversion phase. The toxicity of nanoemulsions of mixed extracts of A. muricata and L. leucocephala seeds against S. frugiperda pests at a ratio of 1:2 was more toxic than the ratios of 2:1 and 1:1. The nature of the interaction of nanoemulsions of mixed extracts of A. muricata and L. leucocephala was more dominantly antagonistic.

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Author Biography

Sigit Ardiansyah, Jurusan Budidaya Tanaman Pangan, Politeknik Negeri Lampung

Horticulture

References

Adelia, Y., and Iskandar, D. (2020). Uji efektivitas ekstrak biji lamtoro ( Leucaena leucocephala ) sebagai Insektisida terhadap Kecoa Amerika ( Periplaneta americana ). Riset kimia 11(2): 72–79. DOI: DOI: https://doi.org/10.25077/jrk.v11i2.354

Chou, T.C., and P. Talalay. (1984). Quantitative analysis of dose-effect relationships: the combined effects of multiple drugs or enzyme inhibitors. Adv Enzyme Regl 22(3): 27–55.

Finney, D. J. (1982). Probit analysis: a statistical treatment of the sigmoid response curve. Cambridge University Press, Cambridge.

Hendrival, Safriyanur, A., Hafifah, Munauwar, M. M., dan Baidhawi. (2022). Toksisitas tunggal dan campuran serbuk daun pepaya dan biduri terhadap keong mas. Jurnal Agrotek Tropika 10(3): 403–411.

Hernandez-Carlos, B. and Gamboa-Angulo, M. (2019). Insecticidal and Nematicidal Contributions of Mexican Flora in the Search for Safer Biopesticides. Molecules, 24: 1-34.

Hoesain, M., Prastowo, S., and Pandu, A. (2023). Investigating the plant metabolite potential as botanical insecticides against Spodoptera litura with different application methods Investigating the plant metabolite potential as botanical insecticides against Spodoptera litura. Cogent Food & Agriculture Cogent 9(1). DOI: 10.1080/23311932.2023.2229580

Indra, Budiasih, R., Masnenah, E., and Ria, E. R. (2022). Pengaruh Dosis Tepung Biji Sirsak (Annona muricata L.) terhadap mortalitas hama gudang (Sitophilus oryzae L.) Pada Beras Hitam (Oryza sativa L.). Paspalum: Jurnal Ilmiah Pertanian 10(1): 73–79.

Irmawati, Masriany, and Iqbal, A. (2023). Pengaruh pemberian pestisida nabati terhadap larva Tenebrio molitor (ulat hongkong) pada tanaman sawi (Brassica juncea) di BBPP Batangkaluku Provinsi Sulawesi Selatan. Filogeni: Jurnal Mahasiswa Biologi Universitas Islam Negeri Alauddin Makassar 3(1): 33–37. DOI: 10.24252/filogeni.v3i1.30314

Kusumawati, D. E., dan Istiqomah. (2022). Pestisida nabati sebagai pengendali OPT (Organisme Pengganggu Tanaman). Madza Media, Malang.

Larasati, S. P., and Jusnita, N. (2020). Formulasi nanoemulsi ekstrak kunyit (Curcuma longa L.) sebagai antioksidan. Journal of Pharmaceutical And Sciences 3(1). DOI: 10.36490/journal-jps.com.v3i1.38

Li, W., Abudukadier, A., Chen, Z., Zhan, C., Zhang, S., Liu, J., Zhao, Y., and Peng, Y. (2023). Combining tea saponin and matrine botanical insecticides is highly effective against fall armyworm Spodoptera frugiperda. Entomologia Generalis 43(6): 1089–1098. DOI: 10.1127/entomologia/2023/2120

Lina, E. C., Sonia, H., and Holeng, F. (2023). Nanoemulsion of the mixture of Citronella Grass Distillation Waste and Piper aduncum essential oil to control Spodoptera frugiperda ( Lepidoptera : Noctuidae). Journal of Science 152(3): 1131–1137. DOI: 10.56899/152.03.30

Lusiyana, N., Citraningrum, N., and Aqidah, F. (2018). Larvicidal activity of different solvent extracts of Leucaena leucocephala againts Aedes aegypti. Journal of Entomology and Zoology Studies 6(3): 589–593.

Montezano, D. G., Specht, A., Sosa-Gomez, D. R., Roque-Specht, V. F., Sousa-Silva, J. C., Paula-Moraes, S. V., Peterson, J. A., and Hunt, T. E. (2018). Host plants of Spodoptera frugiperda (Lepidoptera : Noctuidae) in the Americas Published By : Entomological Society of Southern Africa Review article Host plants of Spodoptera frugiperda ( Lepidoptera : Noctuidae ) in the Americas. African Entomology 26(2): 286–300.

Mustafa, I. F., and Hussein, M. Z. (2020). Synthesis and technology of nanoemulsion-based pesticide formulation. Nanomaterials MDPI AG. DOI: 10.3390/nano10081608

Ngegba, P. M., Cui, G., Khalid, M. Z., and Zhong, G. (2022). Use of botanical pesticides in agriculture as an alternative to synthetic Pesticides. Agriculture MDPI 12(5): 1–24. DOI: 10.3390/agriculture12050600

Nguyễn, P. S., Candra, E., and Busniah, M. (2022). Synergism of Tephrosia vogelii and Piper aduncum based nanoemulation against Spodoptera frugiperda. International Journal Of Agricultural Sciences 6(2): 80–87. DOI: 10.25077/ijasc.6.2.80-87.2022

Nuryanti, N. S. P., Budiarti, L., Dulbari, Sutrisno, H., Sudrajat, D., Yuriansyah, Priyadi, Rahmadi, R., Rochman, F., Sari, E. Y., and Maharani, J. S. (2023). Activity of nanoemulsion botanical insecticides from Myristica fragrans and Jatropha curcas essential oil against Sitophilus zeamais. Biodiversitas Society for Indonesian Biodiversity 24(10): 5610–5617. DOI: 10.13057/biodiv/d241042

Nuryanti, N. S. P., Martono, E., Ratna, E. S., and Dadang. (2018). The bioactivities of selected piperaceae and asteraceae plant extracts against brown plant hopper (Nilaparvata lugens stål.). Journal of the International Society for Southeast Asian Agricultural Sciences 24(2): 70–78.

Overton, K., Maino, J. L., Day, R., Umina, P. A., Bett, B., Carnovale, D., Ekesi, S., Meagher, R., and Reynolds, O. L. (2021). Global crop impacts , yield losses and action thresholds for fall armyworm ( Spodoptera frugiperda ): A review. Crop Protection Elsevier Ltd 145: 105641. DOI: 10.1016/j.cropro.2021.105641

Passara, H., Pumnaun, J., and Thipmanee, K. (2022). Evaluating the insecticidal effect of essential oil nanoemulsion against the cutworm , Spodoptera litura. International Journal of Agricultural Technology 18(5): 2161–2170.

Pavana, J. K., Deshmukh, S. S., Mallikarjuna, H. B., Kalleshwaraswamy, C. M., Naik, T. B., and Mota-sanchez, D. (2023). Sublethal effects of botanicals on the growth and development of fall armyworm , Spodoptera frugiperda ( J . E . Smith ) (Lepidoptera: Noctuidae). Current science 125(1): 75–80.

Phambala, K., Tembo, Y., Kasambala, T., and Kabambe, V. H. (2020). Bioactivity of Common Pesticidal Plants on Fall. plants 9(112): 1–10.

Puspitasari, M., Rochana, A. N. A., and Widjastuti, T. (2022). The potential of young and old Euphorbia hirta leaves extract as antibacterial against Escherichia coli and antihelminthic against Ascaridia galli obtained in Sentul chickens. Biodiversitas 23(6): 3243–3250. DOI: 10.13057/biodiv/d230652

Ramadhan, R. A. M., and Firmansyah, E. (2023). Bioaktivitas Ekstrak Annona muricata , Chromolaena odorata , dan Tinospora cordifolia terhadap larva Spodoptera frugiperda. Jurnal Agroekoteknologi 16(1): 22–27. DOI: https://doi.org/10.21107/agrovigor.v16i1.10668

Ramadhan, R. A. M., and Nurhidayah, S. (2022). Bioaktivitas ekstrak biji A. muricata L . terhadap Spodoptera frugiperda J . E . Smith (Lepidoptera : Noctuidae). Jurnal Agrikultura 33(1): 97–105.

Rosida, D. F. (2022). Lamtoro Gung Produk, Sifat Fungsional dan Manfaatnya. (Y. M. Supriyadi, ed.) Indomedia Pustaka, Sidoarjo.

Sharma, S., Upadhayaya, S., and Tiwari, S. (2022). Biology and integrated management of tobacco caterpillar, Spodoptera litura Fab.: A systematic review. Journal of Agriculture and Applied Biology 3(1): 28–39. DOI: 10.11594/jaab.03.01.04

Syarifah, R. K. (2020). Pemanfaatan gulma mimosa invisa sebagai pengendali organisme pengganggu tanaman. Biofarm Jurnal Ilmiah Pertanian 16(2): 59–67.

Vetal, D. S., and Pardeshi, A. B. (2019). Insecticidal potential of ethanol and hexane solvent seed extract of Annona squamosa against Spodoptera litura Fab . Journal of Pharmacognosy and Phytochemistry 8(3): 842–845.

Wahyuni, D. P., and Yuliani. (2023). Efektivitas ekstrak daun lamtoro (Leucaena leucocephala), daun pepaya (Carica papaya) dan kombinasinya terhadap aktivitas antimakan dan mortalitas Spodoptera litura F. Lentera Bio 12(3): 290–298.

Yasin, N., Maharani, T., Hariri, A. M., and Wibowo, L. (2022). Aktivitas insektisida ekstrak biji sirsak (Annona muricata L.) terhadap Spodoptera frugiperda JE Smith. Journal Tabaro Agriculture Science 6(1): 639–646.