Path of Science: International Electronic Scientific Journal

Shallots (Allium ascalonicum L.) are plants that are needed as a kitchen spice. Production decreases along with decreasing planting area and land fertility levels, so a solution is required to increase land fertility using biocompost. They should also require large amounts of N, P and K for their growth and development. This research aims to determine the effect of Trichoderma spp. biocompost application and NPK fertilization on the growth and yield of shallot plants. The experiment used a completely randomized factorial design consisting of two factors, namely biocompost dosage (b), which consists of four levels: 1) without biocompost (b0), 2) 1.25 t/ha (b1), 3) 2.50 t/ha (b2), 4) 3.75 t/ha (b3), and the NPK dose factor (n) has four levels, namely: 1) 400 kg/ha (n1), 2) 300 kg/ha (n2), 3) 200 kg/ha (n3), 4).100 kg/ha (n4). The research results show the following. Application of Trichoderma spp. biocompost had a significant effect on the number of tillers at 6 WAP, number of tubers per hill, wet tuber weight, dry tuber weight, tissue P and K nutrient uptake values and had no significant effect on plant height, number of leaves and tissue N nutrient uptake values. Various doses of NPK fertilizer substantially affected the number of tillers at 6 WAP, number of tubers per hill, wet weight of tubers per hill, dry weight of tubers and tissue N, P and K nutrient uptake values. It had no significant effect on plant height and number of leaves. Secondly, there is an interaction effect of the two treatments on tissue N and P nutrient uptake values, with the highest N uptake value obtained in a combination of 2.50 t/ha (b2) of biocompost with a 300 kg/ha (n2) (b2n2) NPK fertilizer dose. In contrast, the highest P uptake value was obtained in a combination of 3.75 t/ha (b3) of biocompost with an NPK fertilizer dose of 200 kg/ha (n3). The best yield tendency was obtained in a combination of 2.5 tons/ha (b2) of biocompost with a 300 kg/ha (n2) NPK fertilizer dose (b2n2).

Shallots; Biocompost Trichoderma spp., NPK Fertilizer Dosage

1. Alfian, D. F., Nelvia, N., & Yetti, H. (2015). Pengaruh Pemberian Pupuk Kalium Dan Campuran Kompos Tandan Kosong Kelapa Sawit Dengan Abu Boiler Terhadap Pertumbuhan Dan Hasil Tanaman Bawang Merah (Allium asacalonicum L.) [Effect of Potassium Fertiliser and Palm Oil Empty Bunch Compost Mixture with Boiler Ash on the Growth and Yield of Red Onion Plants (Allium asacalonicum L.)]. Jurnal Agroteknologi, 5(2), 1. doi: 10.24014/ja.v5i2.1348 (in Indonesian).

2. Firmansyah, I., Lukman, L., Khaririyatun, N., & Yufdy, M. P. (2016). Pertumbuhan dan Hasil Bawang Merah dengan Aplikasi Pupuk Organik dan Pupuk Hayati pada Tanah Alluvial [Growth and Yield of Shallot with Application of Organic Fertiliser and Biofertiliser on Alluvial Soil]. Jurnal Hortikultura, 25(2), 133. doi: 10.21082/jhort.v25n2.2015.p133-141 (in Indonesian).

3. Irawan, D., Idwar., & Murniati. (2017). Pengaruh Pemupukan N, P, dan K Terhadap Pertumbuhan dan Hasil Bawang Merah (Allium ascalonicum L.) Varietas Bima Brebes dan Thailand di Tanah Ultisol [Effect of N, P, and K Fertilisation on Growth and Yield of Red Onion (Allium ascalonicum L.) Varieties Bima Brebes and Thailand in Ultisol Soil]. Jom Faperta, 4(1), 1-14 (in Indonesian).

4. Jumadi, O., Junda, M., Caronge, M. W., & Syafruddin. (2021). Trichoderma dan Pemanfaatan [Trichoderma and Utilisation]. Retrieved from http://eprints.unm.ac.id/21426/1/1.%20TRICHODERMA%20DAN%20PEMANFAATAN_ISBN_Final.pdf (in Indonesian).

5. Kirana, S. N., & Nurhayati, A. D. (2022). Identifikasi Area Kebakaran Hutan dan Lahan di Kabupaten Merauke Provinsi Papua Selatan. Journal of Tropical Silviculture, 13(03), 253–258. doi: 10.29244/j-siltrop.13.03.253-258

6. Marutop, Y., Djaja, I., & Sarijan, A. (2019). Pengaruh Dosis Pupuk NPK Phonska terhadap Produksi Bawang Merah (Allium ascalonicum L) [Effect of NPK Phonska Fertiliser Dosage on Red Onion (Allium ascalonicum L) Production]. Musamus Journal of Agrotechnology Research (MJAR), 1(2), 54–60 (in Indonesian).

7. NTB Satu Data. (2022). Luas Panen, Produktivitas, dan Produksi Bawang Merah Tahun 2022 [Harvested Area, Productivity, and Production of Shallot in 2022]. Retrieved from https://data.ntbprov.go.id/dataset/rekapitulasi-luas-panen-produktivitas-dan-produksi-bawang-merah-di-ntb (in Indonesian).

8. Pandiangan, E., Mariati., & Ginting, J. (2015). Respons Pembungaan dan Hasil Biji Bawang Merah Terhadap Aplikasi GA3 dan Fosfor [Flowering Response and Seed Yield of Red Onion to GA3 and Phosphorus Application]. Jurnal Online Agroekoteknologi, 3(3), 1153–1158 (in Indonesian).

9. Rohimah, H. S., Lestari., & Palobo, F. (2019). Pengaruh Dosis Pupuk NPK Terhadap Pertumbuhan dan Hasil Bawang Merah, Kabupaten Jayapura, Papua [Effect of NPK Fertiliser Dosage on Growth and Yield of Red Onion, Jayapura Regency, Papua]. Ziraa’ah, 44(2), 164-170 (in Indonesian).

10. Suradi, V. P. S., Saidah, & Basri, Z. (2022). Pertumbuhan Dan Hasil Tanaman Bawang Merah (Allium ascalonicum L.) Pada Kombinasi Trichoderma asperellum Dan Pupuk Kandang [Growth and Yield of Red Onion (Allium ascalonicum L.) Plants on a Combination of Trichoderma asperellum and Manure]. Jurnal Agrotech, 12(1), 1–9. doi: 10.31970/agrotech.v12i1.81 (in Indonesian).

11. Sudantha, I. M., Isnaini, M., Astiko, W., & Ernawati. (2018). Pengaruh Inokulasi Fungi Mikoriza Abuskular dan Bioktivator (Mengandung Jamur Trichoderma Spp, dan Ekstrak Daun Legundi) Terhadap Penyakit Layu Fusarium dan Hasil Bawang Merah [Effects of Abuscular Mycorrhizal Fungi Inoculation and Bioctivators (Containing Trichoderma Spp Fungi, and Legundi Leaf Extract) on Fusarium Wilt Disease and Yield of Shallots]. Crop Agro, 11(2), 94-103 (in Indonesian).

12. Sumarni., Rosliani, R., & Basuki, R. S. (2012). Respons Pertumbuhan, Hasil Umbi, dan Serapan Hara NPK Tanaman Bawang Merah terhadap Berbagai Dosis Pemupukan NPK pada Tanah Alluvial [Growth Response, Tuber Yield, and NPK Nutrient Uptake of Shallot Plants to Various Doses of NPK Fertilisation in Alluvial Soils]. Retrieved from https://media.neliti.com/media/publications/80385-ID-respons-pertumbuhan-hasil-umbi-dan-serap.pdf (in Indonesian).

13. Supariadi., Yetti, H., & Yoseva, S. (2017). Pengaruh Pemberian Pupuk kandang dan Pupuk N, P dan K Terhadap Pertumbuhan dan Produksi Tanaman Bawang Merah (Allium ascalonicum L.) [Effect of Manure and N, P and K Fertilisers on the Growth and Production of Shallot Plants (Allium ascalonicum L.)]. JOM Faperta, 4(1), 1–17 (in Indonesian).

14. Sutriana, S., & Nur, M. (2020). Aplikasi Pupuk Kompos Dan Frekuensi Pemupukan Npk Dalam Meningkatkan Produksi Bawang Merah (Allium Ascalonicum L) Pada Tanah Gambut [Application of Compost Fertiliser and Npk Fertiliser Frequency in Increasing Red Onion (Allium Ascalonicum L) Production in Peat Soil]. Dinamika Pertanian, 34(3), 201–210. doi: 10.25299/dp.2018.vol34(3).5413 (in Indonesian).

15. Suwandi., Sopha., & Yufdy, M. P. (2015). Efektivitas Pengelolaan Pupuk Organik, NPK, dan Pupuk Hayati terhadap Pertumbuhan dan Hasil Bawang Merah [Effectiveness of Organic, NPK, and Biofertiliser Management on Growth and Yield of Shallots]. Retrieved from https://media.neliti.com/media/publications/84068-ID-efektivitas-pengelolaan-pupuk-organik-np.pdf (in Indonesian).

16. Syawal, Y., Marlina., & Kunianingsih, A. (2019). Budidaya Tanaman Bawang Merah (Allium Cepa L.) dalam Polybag dengan Memanfaatkan Kompos Tandan Kosong Kelapa Sawit (Tkks) pada Tanaman Bawang Merah [Cultivation of Shallot (Allium Cepa L.) in Polybags by Utilising Oil Palm Empty Bunch Compost (EFB) on Shallot Plants]. Jurnal Pengabdian Sriwijaya, 7(1), 671–677 (in Indonesian).

17. Tarigan, S. S., Hapsoh., & Yoseva, S. (2017). Pengaruh Kompos Jerami Padi dan Pupuk NPK Terhadap Pertumbuhan dan Produksi Bawang Merah (Allium ascalonicum L.) [Effect of Rice Straw Compost and NPK Fertiliser on the Growth and Production of Red Onion (Allium ascalonicum L.)]. Jom, 4(1), 1–8 (in Indonesian).

18. Wahyudi, I. (2013). Perubahan Tingkat Serapan Nitrogen, Fosfor dan Kalium oleh Tanaman Bawang Merah Lokal Palu Akibat Pemberian Ekstrak Kompos Limbah Organik Pasar pada Entisol Poboya [Changes in Nitrogen, Phosphorus and Potassium Uptake Rates by Palu Local Shallot Plants as a Result of Application of Market Organic Waste Compost Extract on Poboya Entisol]. Agroland, 20(1), 14–20 (in Indonesian).

19. Widiana, S., Yunarti, A., Sofyan, E.T., & Sara, D. S. (2020). Pengaruh upuk NPK Majemuk terhadap N-Total, Serapan N, dan Hasil Umbi Bawang Merah (Allium ascalonicum L.) pada Inceptisols Asal Jatinangor [Effect of Compound NPK fertiliser on N-Total, N Uptake, and Yield of Red Onion (Allium ascalonicum L.) Bulbs on Inceptisols of Jatinangor Origin]. Soilrens, 18(1), 50–56 (in Indonesian).

20. Widyaswari, E., Ninuk, H., & Mudji, S. (2017). Pengaruh Biourin Sapi dan Pupuk Anorganik pada Tanaman Bawang Merah (Allium ascalonicum L.) [Effect of Cow Biourin and Inorganic Fertiliser on Red Onion (Allium ascalonicum L.) Crops]. Jurnal Produksi Tanaman, 5(10), 1700–1707 (in Indonesian).

21. Yusmalinda., & Ardian. (2017). Respon Tanaman Bawan Merah (Allium ascalonicum L.) Dengan Pemberian Beberapa Dosis Kompos Tandan Kosong Kelapa Sawit (TKKS) [Response of Red Pepper (Allium ascalonicum L.) Plants by Giving Several Doses of Oil Palm Empty Bunch Compost (TKKS)]. JOM, 4(1), 1–10 (in Indonesian).