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All Journal Agrotekma: Jurnal Agroteknologi dan Ilmu Pertanian JURNAL PERTANIAN PRESISI (JOURNAL OF PRECISION AGRICULTURE) ZIRAA'AH MAJALAH ILMIAH PERTANIAN Agroradix : Jurnal Ilmu Pertanian
Ni’mawati Sakinah
Program Studi Agroteknologi Fakultas Pertanian Dan Perikanan Universitas 17 Agustus 1945 Banyuwangi
Agriculture, Biological Sciences & Forestry

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KOMBINASI JENIS BIBIT DAN KONSENTRASI ZAT PENGATUR TUMBUH GIBERELIN TERHADAP PERTUMBUHAN TANAMAN PORANG (Amorphophallus oncophillus) Fathurrahman Fathurrahman; Putri Istianingrum; Ni’mawati Sakinah
AGRORADIX : Jurnal Ilmu Pertanian Vol 6 No 1 (2022): December 2022
Publisher : Agroteknologi Fakultas Pertanian Universitas Islam Darul 'Ulum (UNISDA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52166/agroteknologi.v6i1.3788

Abstract

Porang is a tuber plant that has the opportunity to be developed in Indonesia. Efforts have been made to increase the production potential of porang, including through nurseries. The purpose of this study was to determine the effect of tuber origin and concentration of gibberellin growth regulators on porang growth. The research was conducted in Wonosobo Village, Srono District, Banyuwangi Regency from August to November 2020. This study used a Randomized Block Design (RBD) with two factors, namely the origin of the seeds and the concentration of gibberellin growth regulators with three replications. Factors of seed origin consisted of tubers (B1) and air bulbs (B2) while ZPT gibberellin concentration factors were 1 ml/l (A1), 2 ml/l (A2), 3 ml/l (A3), 4 ml/l ( A4) and 5 ml/l (A5), resulting in 10 treatment combinations. Observational variables include shoot height and number of leaves. On the seedling origin factor, the B2 treatment was the highest in terms of the observed parameters of shoot height and number of leaves. In the ZPT gibberellin concentration factor, it was shown that factor A1 was the highest in the observed variable of shoot height 20 dap (days after planting), while in the variable number of leaves 50 dap, factors A4 and A5 had the highest number of leaves. The interaction of seed origin and gibberellin concentrations showed that factor B1A4 had the highest shoot height at 20 dap observations, while B1A5 had the highest number of leaves at 40 and 50 dap observations.
TEKNOLOGI FARM MANAGEMENT SYSTEM UNTUK MENDUKUNG BUDIDAYA PERTANIAN BERKELANJUTAN Khoirul Bariyyah; Ahmad Hadi; Ni’mawati Sakinah; Putri Istianingrum; Annastia Loh Jayanti; Kanthi Pangestuning Prapti; Shinta Hiflina Yuniari; Moh. Fahrurrozi
Jurnal Pertanian Presisi (Journal of Precision Agriculture) Vol 7, No 1 (2023): Jurnal Pertanian Presisi
Publisher : Universitas Gunadarma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35760/jpp.2023.v7i1.8337

Abstract

FMS technology is a digital platform designed to collect environmental information on plant growth, microclimate monitoring and automation of fertilization and irrigation of cultivated plants. The FMS application has 4 main functions, namely land digitization, soil nutrient condition monitoring system (agrooscane), climate monitoring system (agrooclimate), monitoring and automation of fertilization and irrigation (agroomation). This study aims to determine the effectiveness of using agroscan, agroclimate, and agroomation tools on cultivated land in Kumendung Village, Muncar District, Banyuwangi Regency. This research method uses the experimental method. The results of the study, namely the FMS agroscan technology, are effectively used to recommend improving soil pH, adding N, P, and K fertilizer inputs according to the needs of cultivated plant commodities. FMS agroclimate technology, effective for monitoring microclimate (temperature, humidity, rainfall, irradiation duration, and wind speed). The data displayed in the FMS agrooclimate can be used for consideration in determining crop timing, using varieties resistant to pests and diseases that develop in cultivation environments, crop rotation, fertilizing and irrigation times. FMS Agroomation technology is effectively used for setting fertilization and irrigation schedules.
Respon Perkembangan Buah pada Tanaman Semangka terhadap Pemberian Asam Humat sebagai Dasar Budidaya Smart Farming Ni'mawati Sakinah; Khoirul Bariyyah; Ahmad Hadi
Agrotekma: Jurnal Agroteknologi dan Ilmu Pertanian Vol. 7 No. 2 (2023): Agrotekma: Jurnal Agroteknologi dan Ilmu Pertanian, Juni
Publisher : Universitas Medan Area

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31289/agr.v7i2.8480

Abstract

Kecukupan nutrisi dalam tanah menjadi faktor penting dalam mendapatkan hasil panen terbaik. Penerapan metode smart farming membantu mengidentifikasi kondisi tanah yang berpengaruh pada kebutuhan nutrisi tanaman. Tujuan dari penelitian pendahuluan ini adalah mengetahui respon perkembangan buah terhadap dosis penambahan asam humat, sehingga dapat dijadikan acuan dasar untuk data penerapan metode smart farming pada budidaya tanaman semangka di lahan sub optimal Desa Kumendung. Penelitian menggunakan faktor pemberian asam humat empat konsentrasi berbeda (0, 2, 4, 6, dan 8 g/L) dengan varietas semangka Amara dan Seri F1. Pengamatan meliputi pengukuran terhadap tinggi tanaman (21 hst), berat buah (kg), volume buah (cm3) dan nilai total kandungan gula (Brix). Hasil penelitian menunjukkan bahwa pemberian asam humat secara signifikan berpengaruh terhadap berat dan total gula buah. Perbedaan dosis tidak berpengaruh signifikan terhadap volume dan tinggi tanaman, ditunjukkan dengan hasil uji ANOVA nilai R square respon tinggi tanaman, berat, volume dan total gula buah secara berturut-turut adalah 0,231, 0,644, 0,383 dan 0,547. Angka tersebut menjelaskan bahwa peningkatan dosis asam humat tidak memberikan perubahan nyata pada hasil panen buah semangka. Dengan demikian, penggunaan asam humat sebagai suplemen hara tanah dapat diminimalisir dengan pemberian dosis paling rendahnya yaitu 2 g/L. Kata kunci: asam humat, smart farming, semangka
EFEKTIVITAS KOMBINASI ASAM AMINO DAN TIAMIN (VITAMIN B1) TERHADAP PRODUKTIVITAS TANAMAN MELON BUDIDAYA HIDROPONIK Ni'mawati Sakinah
ZIRAA'AH MAJALAH ILMIAH PERTANIAN Vol 48, No 3 (2023)
Publisher : Pusat Publikasi Jurnal Universitas Islam Kalimantan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31602/zmip.v48i3.11512

Abstract

Proper nutrition will help increase productivity, on the other hand, an imbalance of nutrients can cause damage to plants. Hydroponic cultivation is expected to play a role in saving the use of nutrients more effectively. The combination of amino acids and vitamin B1 was given at different concentrations (0, 10, 20, and 30 mL/L) respectively. Measurements included plant height (cm), weight (gram), diameter (mm), and fruit flesh thickness (mm) as well as the total sugar content (Brix). Results showed that increasing the concentration did not significantly affect the response. The results of the LSD test showed that the addition of amino acid and vitamin B1 at doses of 10 mL/L was significantly different for the fruit diameter, explaining that increasing the dose of nutrients does not always have the best impact. Thus, the addition of a combination of amino acids and vitamin B1 for melon cultivation can be given at it lowest dose (10 mL/L).
Co-Authors Ahmad Hadi Ahmad Hadi Annastia Loh Jayanti Bariyyah, Khoirul Fathurrahman Fathurrahman Kanthi Pangestuning Prapti Khoirul Bariyyah Moh. Fahrurrozi Putri Istianingrum Putri Istianingrum Shinta Hiflina Yuniari