The Effectiveness of Several Repellent Plants to Control Thrips (Thrips sp.) in Small Chile (Capsicum frutescens L.)

Penulis

Ruth Stella Thei

Diterbitkan:

2023-04-25

Terbitan:

Vol 1 No 2 (2021): December 2021

Kata Kunci:

Insect population, Thrips sp, repellent plants, chili, edge plants

Articles

Unduhan

Abstrak

Insect pests such as Thrips sp. can result in yield losses in chili up to 23%. To suppress its attacks while reducing pesticide use, repellent plants can be grown at the edges as the barrier of the insects to decrease pest populations. This study aimed to determine the effectiveness of several types of edge plants as repellents to control the population and intensity of Thrips attack on small chili (Capsicum frutescens L), by conducting a experiment in the field located in the village of Nyiur Lembang, Narmada District, West Lombok Regency. The experimental design used was a randomized block design (RBD) with four treatments, namely chili + basil, chili + marigold, chili + onion and monocropped chili (control), each of which was replicated six times. Data were analyzed with analysis of variance (ANOVA) and Tukey’s HSD at 5% significance level. The results showed that the use of basil, marigold and shallots as repellents was effective in reducing the population and intensity of Thrips pest attacks on chili plants. The Thrips population on chili planted with basil, marigold, and shallots was significantly lower than the control plants. The highest average population of Thrips was in control plants (3.52 individuals), while in the plants treated with basil, marigold and shallot were 2.40; 2.60 and 2.79 individuals, respectively. The intensity of attack by Thrips sp was significantly higher in the control (3.70%) than in the treated chili plants, i.e. only 2.91% under the treatment with basil, 3.15% with marigold, and 3.32% with shallots.

Referensi

Aini, R., Widiastuti, R., & Nadhifa, N. A. (2016). Uji efektifitas formula spray dari minyak atsiri herba kemangi (Ocimum Sanctum L) sebagai repellent nyamuk Aedes aegypti. Jurnal Ilmiah Manuntung, 2(2), 189-197.

Al-Maskri, A. Y., Hanif, M. A., Al-Maskari, M. Y., Abraham, A. S., Al-sabahi, J. N., & Al-Mantheri, O. (2011). Essential oil from Ocimum basilicum (Omani Basil): a desert crop. Natural product communications, 6(10), 1934578X1100601020.

Azare-Bediako, E, Addo-Quaye, A & Mohammed, A 2010, ‘Control of diamondback moth (Plutella xylostella) on cabbage (Brassica oleracea var capitata) using intercropping with non host crops’, Am. J. Food Technol, vol. 5, no. 4, pp. 569–574

Dardouri, T., Gautier, H., Ben Issa, R., Costagliola, G., & Gomez, L. (2019). Repellence of Myzus persicae (Sulzer): evidence of two modes of action of volatiles from selected living aromatic plants. Pest management science, 75(6), 1571-1584.

Deviyanti PN, Anggo AD. 2015. Jurnal Pengolahan dan bioteknologi hasil perikanan Volume 4, Nomor 1, Tahun2015, Halaman 7-14. J Pengolah dan Bioteknol. Has.Perikan. 4(3):1-6.

Irfayanti, N. A., & Jasmiadi, J. (2022). Formulation and Activity Test of Repellent Spray Marigold Flower Essential Oil (Tagetes erecta L.) in Aedes aegypti Mosquitoes. Journal Syifa Sciences and Clinical Research, 4(2).

Karamaouna, F, Kimbaris, A, Michaelakis, A, Papachristos, D, Poissiou, M, Papatsakona, P & Tsora, E 2013, ‘Insecticidal activity of plant essential oils against the vine mealybug, Planococcus ficus’, J. Insect Sci. vol. 13, issue 1.

Khalid, K, Hendawy, S & El-Gezawy, E 2006, ‘Ocimum basilicum L. production under organic farming’, Res. J. Agric. & Biol. Sci., vol. 2, no. 1, pp. 25–32

Kumalasari, M. L. F., & Andiarna, F. (2020). Uji fitokimia ekstrak etanol daun kemangi (Ocimum basilicum L). Indonesian Journal for Health Sciences, 4(1), 39-44.

Ridhwan, M., & Isharyanto, I. (2016). Potensi Kemangi sebagai Pestisida Nabati. Serambi Saintia: Jurnal Sains dan Aplikasi, 4(1), DOI: https://doi.org/10.32672/jss.v4i1.112.

Putri, M.C.K., & Anggraeni, W. (2018). Penerapan Metode Campuran Autoregressive Integrated Moving Average Dan Quantile Regression (Arima-Qr) Untuk Peramalan Harga Cabai Sebagai Komoditas Strategis Pertanian Indonesia. Jurnal Teknik ITS. Vol 7, No 1 (2018). DOI: 10.12962/j23373539.v7i1.28219

Pare, PW & Tumlinson, JH 1999, ‘Plant volatiles as a defense against insect herbivores’, Plant Physiol’, vol. 121, no. 2, pp. 325–332. 17. Parker, JE, Snyd

Prabaningrum, L & Moekasan, T 2014, ‘Pengelolaan organisme pengganggu tumbuhan pada budidaya cabai merah di dataran tinggi’, J. Hort., vol. 24, no. 2, pp. 179–188

Rante, C. S., & Manengkey, G. S.J. (2017). Preferensi hama Thrips sp. (Thysanoptera : Thripidae) terhadap perangkap berwarna pada tanaman cabai. Eugenia, 23(3), 113-119. DOI: https://doi.org/10.35791/eug.23.3.2017.18963.

Sarma, D.S., & Babu, A. (2011). Pharmacognostic and phytochemical studies of Ocimum americanum. Journal of chemical and pharmaceutical research, 3.

Setiawan, D., & Yetri, M. (2022). Implementasi IOT Untuk Mendeteksi Kelembapan Tanah Pada Tanaman Cabai Menggunakan Teknik Simplex Berbasis Arduino. Jurnal Cyber Tech, 1(5).

Setiawati, W, Sumarni, N, Koesanoriani, Y, Hasyim, A, Uhan, TS & Sutarya, R 2013, ‘Penerapan tehnologi pengendalian hama terpadu pada tanaman cabai merah untuk mitigasi dampak perubahan iklim’, J. Hort., vol. 23, no. 2, pp. 174–183.

Setiawati, W., Murtiningsih, R., Gunaeni, N., & Rubiati, T. (2008). Tumbuhan bahan pestisida nabati dan cara pembuatannya untuk pengendalian organisme pengganggu tumbuhan (OPT).

Shiraga, T 2009, ‘P104 specific inhibitory effect of celery extract on peptide transporter PEPT 1 expression in human intestinal CaCO2 cells’, Shiraga., T, vol. 4, no. 2, p. 69.

Vina, S & Chaves, A 2006, ‘Antioxidant responses in minimally processed celery during refrigerated storage’, Food Chemistry, vol. 94, no. 1, pp. 68–74

Zahra, S, & Iskandar, Y. (2015). Review Artikel: Kandungan Senyawa Kimia dan Bioaktivitas Ocimum Basilicum L. Farmaka, 15(3):1 43-52

Biografi Penulis

Ruth Stella Thei, Faculty of Agriculture, University of Mataram

Lisensi

Hak Cipta (c) 2023 Ruth Stella Thei

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