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All Journal Jurnal Triton Jurnal Riset Rumpun Ilmu Tanaman
Yusuf La’lang Limbongan
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Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Environmental Science Social Sciences Veterinary

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Keragaan Agronomi Beberapa Galur F4 Padi (Oriza sativa L.) Tipe Baru pada Empat Lingkungan Suhu Rendah Trisday Yiin Parari; Syukur Karamang; Yusuf La’lang Limbongan
JURNAL TRITON Vol 16 No 2 (2025): JURNAL TRITON (Issue in Progress)
Publisher : Politeknik Pembangunan Pertanian Manokwari

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47687/jt.v16i2.1336

Abstract

Sebagian besar lahan sawah Indonesia berada pada lokasi ketinggian yang memiliki suhu rendah yang berdampak buruk bagi produktivitas padi. Perakitan varietas unggul baru berproduksi tinggi telah banyak dilepas oleh Kementerian Pertanian, tetapi pada dasarnya hanya ditujukan pada kondisi lingkungan optimal padi. Penelitian ini bertujuan untuk menguji keragaan agronomi beberapa galur harapan F4 padi tipe baru hasil persilangan. Penelitian ini dilaksanakan pada lahan sawah di empat Kecamatan di Kabupaten Tana Toraja dan Toraja Utara yaitu Kecamatan Bittuang dengan ketinggian 1400 m dpl, Kecamatan Rantebua (680 m dpl), Kecamatan Sesean (1600 m dpl), dan Kecamatan Tallunglipu (850 m dpl). Penelitian ini berlangsung pada bulan Mei 2022 hingga Januari 2023. Penelitian ini disusun dalam rancangan kelompok pada masing-masing lokasi dan dilanjutkan analisis ragam gabungan. Jumlah genotipe yang digunakan yaitu 30 galur PTB F4 dan 6 varietas pembanding yang diulang 3 kali, sehingga total 108 petak percobaan pada setiap lokasi. Data pengamatan yang diperoleh dianalisis ragam gabungan dan dilanjutkan dengan uji BNT 5%, serta dilakukan pengamatan suhu dan kelembapan. Hasil penelitian yaitu galur yang memiliki produktivitas di atas 6 ton/ha pada lokasi Rantebua yaitu G10, G27, G13, G16, G7, G6, G18, G14, G26, G24, G29, G8, G23, G22, dan G19 dengan produksi berturut-turut. Galur yang memiliki produktivitas di atas 6 ton/ha pada lokasi Tallunglipu yaitu G10, G13, G6, G27, G16, G8, G26, G24, G7, G18, G15, G14, G30, G23, dan G22.
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
Jurnal Riset Rumpun Ilmu Tanaman Vol. 4 No. 2 (2025): Oktober : JURRIT: Jurnal Riset Rumpun Ilmu Tanaman
Publisher : Pusat riset dan Inovasi Nasional

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55606/jurrit.v4i2.6729

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.
Potensi Produksi Tanaman Pare (Momordica charantia L.) Menggunakan POC Azolla dan AB Mix pada Sistem Deep Flow Techniaque (DFT) Dewinka Suma; Arianto Sapu; Yusuf La’lang Limbongan; Willy Yafet Tandirerung
Jurnal Riset Rumpun Ilmu Tanaman Vol. 4 No. 2 (2025): Oktober : JURRIT: Jurnal Riset Rumpun Ilmu Tanaman
Publisher : Pusat riset dan Inovasi Nasional

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55606/jurrit.v4i2.6739

Abstract

The research project is titled Production Potential of Bitter Melons (Momordica charantia L.) Using POC Azolla and AB Mix on the Deep Flow Technique (DFT) System was carried out in Bungin, North Makale District, Tana Toraja Regency from May to August 2025. This study aims to determine the economic potential of bitter melon plants by providing AB Mix and POC Azolla nutrients in hydroponic methods and analyze the best influence of these nutrient combinations on the growth and production of bitter melon plants. The research method used was a Group Random Design (RAK) with four treatments, namely 100% AB Mix, AB Mix 80% + POC Azolla 20%, AB Mix 70% + POC Azolla 30%, and AB Mix 60% + POC Azolla 40%. The results of the study showed that P1 treatment (AB Mix 80% + POC Azolla 20%) had the best influence on the vegetative and generative growth of bitter melon plants. This treatment results in a higher average plant height, leaf count, and fruit weight than other treatments. This proves that the combination of Azolla liquid organic fertilizer (POC) with AB Mix is able to provide a balance of nutrients that support photosynthesis, tissue formation, and fruit quality. In addition, the application of the DFT hydroponic system has been proven to increase the efficiency of water and fertilizer use, reduce the risk of soil pest attacks, and produce more hygienic bitter melon products. These findings show that hydroponic cultivation innovation with the use of POC Azolla can be a sustainable solution in supporting food security while being environmentally friendly. Thus, this research makes an important contribution to the development of modern agricultural technology, especially in optimizing the production of vegetables with high economic value.
Co-Authors Adewidar Marano Pata’dungan Alpyanto Sali Arianto Sapu Dewinka Suma Dirga Pabate Fonny Patisa Karamang, Syukur Sepsriyanti Kannapadang Tarsislus Jefri Lumalan Trisday Yiin Parari Willy Yafet Tandirerung Willy Yavet Tandirerung