Growth, Yield and Resistance Responses of Three Cultivars on True Seed Shallots to Twisted Disease with Salicylic Acid Application

Rachmanto Bambang Wijoyo, Endang Sulistyaningsih, Arif Wibowo

Abstract

Twisted disease is one of the main diseases on shallot caused by Fusarium sp. One method to increase the resistance of shallot cultivars to the twisted disease can be performed by using True Seed Shallot (TSS) combining with a salicylic acid application. TSS is known as free pathogen. The objective of the research was to examine the effects of a salicylic acid application to the growth, yield and resistance responses of TSS on Tuktuk, Sanren and Lokananta cultivars to the twisted disease. The research was arranged in factorial Completely Randomized Design (CRD), consisting of two factors with three replications. The first factor included Tuktuk, Sanren and Lokananta cultivars and the second factor comprised salicylic acid applications (without salicylic acid and inoculation, without salicylic acid with inoculation, immersion treatment of salicylic acid with inoculation, spray treatment with inoculation as well as immersion and spray treatment with inoculation). The results showed that the application of salicylic acid in different treatments had the same effects on the growth, yield and resistance of TSS. An interesting result is found, in which the application of salicylic acid by immersing and spraying could reduce the incidence of twisted disease by 12.5% in TSS. Therefore, the application of salicylic acid by immersing and spraying can be one of the recommended twisted disease management.

Keywords

induced systemic resistance; salicylic acid; true seed shallots

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References

Abbaspour, J., & Ehsanpour, A. (2016). The impact of salicylic acid on some physiological responses of Artemisia aucheri Boiss. under in vitro drought stress. Acta Agriculturae Slovenica, 107(2), 287. Crossref

Abo-Elyousr, K. A. M., Hussein, M. A. M., Allam, A. D. A., & Hassan, M. H. (2009). Salicylic acid induced systemic resistance on onion plants against Stemphylium vesicarium. Archives of Phytopathology and Plant Protection, 42(11), 1042–1050. Crossref

Agrios, G. (2005). Plant pathology: Fifth edition. In Plant Pathology: Fifth Edition. Crossref

Askari-khorasgani, O., & Pessarakli, M. (2019). Agricultural management and environmental requirements for production of true shallot seeds. Advances in Plants & Agriculture Research, 9(2), 318–322. Crossref

Astuti, L. T. W., Daryanto, A., Syaukat, Y., & Daryanto, H. K. (2019). Technical Efficiency of Shallot Farming in Central Java Province : Stochastic Frontier Modelling. International Journal of Progressive Sciences and Technologies, 13(2), 222–232. Retrieved from Link

BPS. (2017). Statistik Tanaman Sayuran dan Buah‐buahan Semusim Indonesia 2017. Retrieved from Link

Buda, I., Agung, I., & Ardhana, I. (2018). Nitrogen Fertilizer Increased Bulb Diameter and Yields of True Seed and Bulb –propagated Shallot Varieties. International Journal of Innovative Research in Science, Engineering and Technologi, 7(1), 80–86. Crossref

Cahyaningrum, H., Prihatiningsih, N., & Soedarmono, S. (2017). Intensitas dan Luas Serangan Beberapa Isolat Fusarium oxysporum f.sp. zingiberi pada Jahe Gajah. Jurnal Perlindungan Tanaman Indonesia, 21(1), 16-22. Crossref

Chang, P. L., Hsieh, M. M., & Chiu, T. C. (2016). Recent advances in the determination of pesticides in environmental samples by capillary electrophoresis. International Journal of Environmental Research and Public Health, 13(4), 1–20. Crossref

Dihazi, A., Serghini, M. A., Jaiti, F., Daayf, F., Driouich, A., Dihazi, H., & El Hadrami, I. (2011). Structural and Biochemical Changes in Salicylic-Acid-Treated Date Palm Roots Challenged with Fusarium oxysporum f. sp. albedinis. Journal of Pathogens, 2011, 1–9. Crossref

Fadhilah, S., Wiyono, S., & Surahman, M. (2014). Pengembangan Teknik Deteksi Fusarium Patogen Pada Umbi Benih Bawang Merah (Allium ascalonicum) di Laboratorium [ Development of Detection Technique for Fusarium Pathogen on Seedling Shallot ( Allium ascalonicum ) Bulb at Laboratorium ]. Hortikultura, 24(2), 171–178. Crossref

Gardner, F. P., Pearce, R. B., & Mitchell, R. L. (2008). Fisiologi Tanaman Budidaya. In UI Press. Jakarta: UI Press.

Hayat, Q., Hayat, S., Irfan, M., & Ahmad, A. (2010). Effect of exogenous salicylic acid under changing environment: A review. Environmental and Experimental Botany, 68(1), 14–25. Crossref

Hayat, S., Ahmad, A., & Alyemeni, M. N. (2013). Salicylic acid. Plant growth and development. In Reactions Weekly. Crossref

Juwanda, M., Khotimah, K., & dan Amin, M. (2016). Peningkatan Ketahanan Bawang Merah Terhadap Penyakit Layu Fusarium Melalui Induksi Ketahanan Dengan Asam Salisilat Secara Invitro. Agrin, 20(1), 15–28. Retrieved from Link

Kamarulzaman, N. H., Mazlan, N., Rajendran, S. D., & Mohayidin, M. G. (2012). Role of biopesticides in developing a sustainable vegetable industry in Malaysia. International Journal of Green Economics, 6(3), 243–259. Crossref

Khotimah, K., Sulistyaningsih, E., & Wibowo, A. (2017). In Vitro Induced Resistance of Fusarium Wilt Disease (Fusarium oxysporum f.sp. cepae) by Salicylic Acid in Shallot CV ‘Bima Brebes.’ Ilmu Pertanian (Agricultural Science), 2(1), 001–008. Crossref

Krishardianto, A., & Sukma, D. (2017). Morphological Characterization and Effects of Treatments Fertilization and Gift Silica (Si) on Genotype Hybrid Cattleya Orchids. Bul. Agrohorti, 5(2), 167–175. Crossref

Leino, M. W., Solberg, S., Tunset, H. M., Fogelholm, J., Strese, E. M. K., & Hagenblad, J. (2018). Patterns of Exchange of Multiplying Onion (Allium cepa L. Aggregatum-Group) in Fennoscandian Home Gardens. Economic Botany, 72(3), 346–356. Crossref

Lestiyani, A. (2015). Identifikasi, patogenisitas dan variabilitas penyebab penyakit moler pada bawang merah (Universitas Gadjah Mada). Retrieved from Link

Mandal, S., Mallick, N., & Mitra, A. (2009). Salicylic acid-induced resistance to Fusarium oxysporum f. sp. lycopersici in tomato. Plant Physiology and Biochemistry, 47(7), 642–649. Crossref

Minh, N. P. (2019). Technical Factors Affecting To Pickle Shallot (Allium Ascalonicum) Fermentation. J. Pharm. Sci. & Res, 11(3), 879–881. Retrieved from Link

Murphy, A. M., Gilliland, A., Eng Wong, C., West, J., Davinder, D. P., & Carr, J. P. (2001). Signal transduction in resistance to plant viruses. European Journal of Plant Pathology, 107(1), 121–128. Crossref

Muthulakshmi, S., & Lingakumar, K. (2017). Role of salicylic acid (SA) in plants – A review. International Journal of Appl Ied Research, 3(3), 33–37. Retrieved from Link

Pangestuti, R., & Sulistyaningsih, E. (2011). Potensi Penggunaan True Seed Shallot (TSS) Sebagai Sumber Benih Bawang Merah Di Indonesia. Semiloka Nasional “Dukungan Agro-Inovasi Untuk Pemberdayaan Petani” Kerjasama UNDIP, BPTP Jateng Dan Pemprov Jawa Tengah, (August 2011), 258–266. Retrieved from Link

Saidah, Muchtar, Syafruddin, & Pangestuti, R. (2019). Pertumbuhan dan hasil panen dua varietas tanaman bawang merah asal biji di Kabupaten Sigi, Sulawesi Tengah. PROS SEM NAS MASY BIODIV INDON, 5(1), 213–216. Crossref

Shimeles, A. (2014). The performance of true seed shallot lines under different environments of Ethiopia. Journal of Agricultural Sciences, 59(2), 129–139. Crossref

Sinta, A. (2018). Aplikasi Bahan Organik dan Trichoderma sp. Untuk Menekan Perkembangan Penyakit Moler pada Bawang Merah (Gadjah Mada University). Retrieved from Link

Soemirat, J., & Ariesyadi, H. D. (2017). Toksikologi Lingkungan (Vol. 00). Retrieved from Link

Sumarni, N., Sopha, G. A., & Gaswanto, R. (2016). Respons Tanaman Bawang Merah Asal Biji True Shallot Seeds terhadap Kerapatan Tanaman pada Musim Hujan. Jurnal Hortikultura, 22(1), 23. Crossref

Suwandi, Sophan, G. A., & Hermanto, C. (2016). PETUNJUK TEKNIS (JUKNIS) PROLIGA BAWANG MERAH 40 T/HA ASAL TSS (= True Shallot Seed). Balai Penelitian Tanaman Sayuran Puslitbang Hortikultura, Badan Litbang Pertanian. Retrieved from Link

Warrier, R. R., Paul, M., & Vineetha, M. V. (2013). Estimation of salicylic acid in Eucalyptus leaves using spectrophotometric methods. Genetics and Plant PhysioloGy, 3(1–2), 90–97. Retrieved from Link

Wiyatiningsih, S. (2011). Populasi Fusarium oxysporum f.sp. cepae, Intensitas Penyakit Moler, dan Hasil Umbi Bawang Merah di Tiga Daerah Sentra Produksi. Retrieved from Link

Yusidah, I., & Istifadah, N. (2018). The abilities of spent mushroom substrate to suppress basal rot disease (Fusarium oxysporum f.sp cepae) in shallot. International Journal of Biosciences, 13(1), 440–448. Crossref

Zakariyya, F. (2016). Menimbang indeks luas daun sebagai variabel penting pertumbuhan tanaman kakao. Warta, (3), 8–12. Retrieved from Link

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