Optimalisasi Penggunaan Gandasil D Untuk Meningkatkan Produktivitas Tanaman Kale (Barassica Ileracea Var. Acephala) Pada Sistem Hidroponik

Alpyanto Sali; Tarsislus Jefri Lumalan; Fonny Patisa; Dirga Pabate; Sepsriyanti Kannapadang; Yusuf La’lang Limbongan; Willy Yavet Tandirerung; Adewidar Marano Pata’dungan

doi:10.55606/jurrit.v4i2.6729

Authors

Alpyanto Sali Program Studi Agroteknologi, Universitas Kristen Indonesia Toraja
Tarsislus Jefri Lumalan Program Studi Agroteknologi, Universitas Kristen Indonesia Toraja
Fonny Patisa Program Studi Agroteknologi, Universitas Kristen Indonesia Toraja
Dirga Pabate Program Studi Agroteknologi, Universitas Kristen Indonesia Toraja
Sepsriyanti Kannapadang Program Studi Pengelolaan Perkebunan Kopi, Universitas Kristen Indonesia Toraja
Yusuf La’lang Limbongan Program Studi Pengelolaan Perkebunan Kopi, Universitas Kristen Indonesia Toraja
Willy Yavet Tandirerung Program Studi Pengelolaan Perkebunan Kopi, Universitas Kristen Indonesia Toraja
Adewidar Marano Pata’dungan Program Studi Pengelolaan Perkebunan Kopi, Universitas Kristen Indonesia Toraja

DOI:

https://doi.org/10.55606/jurrit.v4i2.6729

Keywords:

AB MIX, Farming Business Analysis, Gandasil D, Hydroponics, Kale Cultivation

Abstract

A research project entitled Optimisation of Gandasil D Use to Increase Kale (Barassica Oleracea Var. Acephala) Productivity in Hydroponic Systems was conducted at the Pakkea Experimental Garden, Faculty of Agriculture, North Toraja Regency, from March to June 2025. This research project aims to determine the response of Ab mix nutrients and Gandasil D fertiliser in the DFT system to the growth and production of kale plants. The method used in this study was a randomised block design (RAK) with 6 levels of Gandasil D concentration. (KO = Control), (K1 = 0.5 grams/litre of water), (K2 = 1 gram/litre of water), (K3 = 1.5 grams/litre of water), (K4 = 2 grams/litre of water), (K5 = 2.5 grams/litre of water) with 3 replications and with AB MIX concentrations, 0 to 7 days after planting = 400 ppm, 8 to 14 days after planting = 600 ppm, 15 to 21 days after planting = 800 ppm, 22 to 28 days after planting = 1000 ppm, 29 to 35 days after planting = 1200 ppm, 36 days and onwards until harvest = 1500 ppm. The variables observed in this study were plant height, leaf length, leaf width, number of leaves, and plant stem diameter. The results showed that a concentration of Gandasil D 2.5 grams/litre of water gave the best results with an average plant height of 37.93 cm, 12.56 leaves, leaf length of 24.16 cm, leaf width of 14.31 cm, stem diameter of 11.69 mm, and harvest weight of 232.89/plant. The data were analysed using analysis of variance (ANOVA) and followed by a post hoc test at a significance level of 0.05. The analysis of the feasibility of farming showed an R/C ratio of 1.03, which means that kale cultivation using a hydroponic system and the aforementioned nutrient concentration is feasible and profitable.

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References

Pratama, I. Y. (2020). Tanaman kale, klasifikasi, ciri morfologi, manfaat, dan cara budidaya. Diambil kembali dari dosenpertanian.com: https://dosenpertanian.com/tanaman-kale/diakses kembali pada 23 Januari 2024.

Adiwijaya, H. D. (2024). Pengaruh media tanam dan konsentrasi larutan AB Mix terhadap pertumbuhan dan hasil tanaman kale. OrchidAgro, 4(2), 16-22.

Deka, R. E., et al. (2022). Pemberdayaan ibu rumah tangga melalui pelatihan budidaya tanaman secara hidroponik. Jurnal Pembelajaran Pemberdayaan Masyarakat (JP2M), 3(3), 213-218.

Pangaribuan, R. D. P. (2022). Respon tanaman kale (Brassica oleracea L.) terhadap pemberian nutrisi AB Mix dan Eco Enzyme dalam sistem hidroponik sumbu.

Fajri, L. N., & Soelistyono, R. (2018). Pengaruh kerapatan tanaman dan pupuk urea terhadap pertumbuhan dan hasil tanaman kale (Brassica oleracea var. acephala). Plantropica, 3(2), 133-140.

Rahayu, A., Ginanjar, M., & Tobing, O. L. (2021). Pertumbuhan dan produksi tanaman kailan (Brassica oleracea var. alboglabra) pada berbagai media tanam dan konsentrasi nutrisi AB Mix dengan sistem hidroponik substrat. Jurnal Agronida, 7(2), 86-93.

Puspita, S. D., et al. (2024). Manajemen pemasaran budidaya tanaman hidroponik pada Central Hydroponik Bengkulu. Jurnal Dehasen Mengabdi, 3(2), 155-160.

Setyo, P. S. R., & Y, Y. (2024). Respon tanaman bayam merah (Amaranthus tricolor L.) terhadap perbedaan konsentrasi Gandasil D dan jenis sumbu secara hidroponik.

Setiawan, A. A. (2021). Pengaruh pola panen terhadap produktivitas tanaman kale curly (Brassica oleracea var. acephala). (Skripsi, Universitas Bosowa Makassar).

Vidianto, D. Z., Fatimah, S., & Wasonowati, C. (2013). Penerapan panjang talang dan jarak tanaman dengan sistem hidroponik NFT (Nutrient Film Technique) pada tanaman kailan (Brassica oleracea var. alboglabra). Agrovigor: Jurnal Agroteknologi, 6(2), 128-135.

Agustina, H., & Inchniarsyah, A. N. (2019). Efektivitas KNO3 terhadap pertumbuhan dan kandungan vitamin C kale. Agrin, 22(1), 46.

Hidayat, S. & Rahmawati, S. (2023). The role of nutrient solutions in the growth and yield of kale in hydroponic systems. Jurnal Agrikultura, 9(1), 55-62.

Dwianto, M. & Wulandari, L. (2022). The effect of light intensity and temperature on the growth of kale in a hydroponic system. Indonesian Journal of Hydroponics, 4(3), 122-128.

Alamsyah, A., & Setiawan, D. (2024). Impact of organic fertilizers on kale growth in a vertical hydroponic system. Agricultural Science Journal, 6(2), 105-110.

Sutrisno, H. & Lestari, E. (2021). Evaluating the efficiency of hydroponic systems for kale cultivation in urban farming. Journal of Sustainable Agriculture, 14(2), 88-96.

Optimalisasi Penggunaan Gandasil D Untuk Meningkatkan Produktivitas Tanaman Kale (Barassica Ileracea Var. Acephala) Pada Sistem Hidroponik

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