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Anis Rosyidah
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agroteknologiunisma@gmail.com
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agroteknologiunisma@gmail.com
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Fakultas Pertanian Universitas Islam Malang Jl. M.T.Haryono No. 193 Malang Jawa Timur
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Kota malang,
Jawa timur
INDONESIA
AGRONISMA
Published by Universitas Islam Malang
ISSN : 23376449     EISSN : -     DOI : 10.33474
Core Subject : Education, Agriculture,
Agriculture, Biological Sciences & Forestry Education Other
Jurnal AGRONISMA merupakan media untuk publikasi tulisan asli yang berkaitan dengan budidaya tanaman secara luas, dalam Bahasa Indonesia. Fokus dalam bidang kajian mencakup ilmu tanaman, ilmu tanah-tanaman dan ilmu hama dan penyakit tanaman. Naskah dapat berupa hasil-hasil penelitian atau percobaan lapangan/laboratorium, baik yang dilakukan oleh dosen maupun mahasiswa untuk memfasilitasi artikel ilmiah mahasiswa yang telah memasuki tahap akhir studi. Naskah yang diterima akan ditelaah sebagai makalah ilmiah oleh tim penyunting ahli.
Arjuna Subject : Ilmu Pertanian dan Biologi (Semua) - Ilmu Pertanian dan Biologi (Lain-Lain)
Articles 9 Documents
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Search results for , issue "Vol. 8 No. 2 (2020)" : 9 Documents clear
APLIKASI PUPUK HAYATI VP3 DIBANDINGKAN DENGAN EMPAT MACAM PUPUK HAYATI YANG BEREDAR DIPASARAN TERHADAP HASIL KACANG HIJAU (Vigna radiata L.) DI LAPANG rosita dwi; Novi Arfarita; Maria Ulfah
AGRONISMA Vol. 8 No. 2 (2020)
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Abstract

ABSTRACTThe aims of this research is to determine the effect of application of VP3 biofertilizer compared with biofertilizers circulating in the market on the results of mungbean in field. The research was conducted on land in Bumi Asri Housing, Dau District, Malang Regency, and the Applied Laboratory, Faculty of Agriculture, Malang Islamic University from June to October 2019. The research used a Randomized Block Design (RBD) with 6 treatments and was repeated 3 times. The results showed that the treatment of VP3 biofertilizer when compared with biofertilizers circulating in the market in general gave better results to the growth and yield variables of mungbean in field. This was seen to be especially significant on the growth variable the number of root nodules, and on variable total seeds weight per plot. However, the content of the NPK elements of soil treatment of VP3 biofertilizer and biofertilizers circulating in the market shows the same results, namely the N element in the soil is low, while the P and K elements are high.
PERBANDINGAN APLIKASI PUPUK HAYATI VP3 BERSAMA KOMPOS DAN VERMIWASH PADA BERBAGAI KOMPOSISI TERHADAP HASIL PRODUKSI KEDELAI (Glycine max (L) Merr.) DILAPANG firman aprilianto dwi setiawan; Novi Arfarita; Indiyah Muwarni
AGRONISMA Vol. 8 No. 2 (2020)
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The aims of this research is to determine the effect of the application of VP3 biofertilizers with compost and vermiwash on the production of soybeans and to know the effect of the application of VP3 biofertilizers with compost and vermiwash compared a biofertilizer combined with compost and NPK fertilizer in the production of soybeans planted in the field. This investigation was carried out on dry land located in the residential area of Bumi Asri, Dau district, Malang. In addition to the Basic Laboratory, Faculty of Agriculture, Malang Islamic University, from June to August 2019. The design used was a simple randomized complete design with 8 treatments and it was repeated 3 times. Results showed that treatment of VP3 biofertilizers 100% (TKHA) showed a significant difference in the results of crop production (number of flowers, percentage of flowers to pods, number of pods, number of root nodules, pod weight, seed weight and seed weight of 100 seeds) and weight dried roots, stems, and leaves of soybean plants (Glycine max (L) Merr.).
KEMAMPUAN BAYAM CABUT (Amaranthus tricolor L.) DALAM MENTRANSLOKASIKAN LOGAM TIMBAL PADA BERBAGAI DOSIS DAN WAKTU PEMBERIAN EDTA ika aprilia rahayu putri; Anis Rosyidah; Siti Muslikah
AGRONISMA Vol. 8 No. 2 (2020)
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The ability of spinach extract (is needed to help the effectiveness of the phytoremediation process undertaken. The use of EDTA as a chelating agent that can increase the mobility of metals in the soil leading to plants. The purpose of this study was to determine the interaction of EDTA doses and the timing of administration of the ability of spinach to pull (Amaranthus tricolor L.) in translating Pb metal. Field experiments using a Randomized Block Design (RCBD) arranged factorial with a control with three replications. The first factor EDTA dose, EDTA dose P1 = 3 gr and P2 = 6 gr. The second factor when giving EDTA, W1 = 7 dbt, W2 = 7 dat and W3 = 14 dat. The results showed that there was a real interaction between EDTA dose and time of EDTA administration. the treatment of P1W2 (EDTA dose 3 gr + 7 dat ) results in good growth changes in the parameters of observation of plant height, number of leaves, leaf area, total root length, total chlorophyll, and total concentration of lead metal absorbed as much 619.48 ppm
PERBANDINGAN APLIKASI PUPUK HAYATI VP3 PADA BERBAGAI KOMBINASI TERHADAP PRODUKSI KACANG HIJAU (Vigna radiata L.) DILAPANG firman hidayat; Novi Arfarita; siti Muslikah
AGRONISMA Vol. 8 No. 2 (2020)
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Abstract

The aims of this study was to determine the effect of applying VP3 organic fertilizer with compost and vermiwash on the production of green bean plants and to determine the effect of applying VP3 organic fertilizer with compost and vermiwash compared to the combined organic fertilizer. with compost and NPK fertilizer in the production of green bean plants. planted in the field. This investigation was carried out on dry land located in the residential area of Bumi Asri, Dau district, Malang. In addition to the Basic Laboratory, Faculty of Agriculture, Malang Islamic University, from June to August 2019. The research design used was a simple randomized complete design (RBD) consisting of 8 treatments and was repeated 3 times. The study results showed that the treatment of the biological fertilizer VP3 combined with 75% NPK tended to provide the highest average yield in the production of mung bean crops, but not significantly different from the treatment of the biological fertilizer VP3 combined with 75% and 100% vermiwash.
POTENSI TANAMAN KANGKUNG DARAT (Ipomea reptans) DAN BAYAM CABUT (Amaranthus tricolor L.) SEBAGAI HIPERAKUMULATOR LOGAM BERAT TIMBAL (PB) TERHADAP PERTUMBUHAN DAN AKUMULASINYA retno dwi sisarti; Anis Rosyidah; Indiyah Muwarni
AGRONISMA Vol. 8 No. 2 (2020)
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Abstract

In Indonesia, the conversion of agricultural land into industrial areas is the initial cause of heavy metal pollution on agricultural land. Lead (Pb) is one of the pollutants at issue because it is toxic. One method that can be used to recover heavy metal pollution in the soil is to use a hyperaccumulator plant called a phytoremediation process. This research was conducted to find out how the growth and accumulation of  kale and spinach to lead stress (Pb) by giving different concentrations of lead. This study uses a randomized block design (RBD) experimental design composed of factorial and consists of 2 factors. The first factor, the type of plant (kale and spinach) The second factor, the concentration of lead heavy metals (Pb) which consists of three levels (0 mg / kg, 200 mg / kg, 400 mg / kg). The research results indicated that administration of lead (Pb) with a concentration of 400 mg / kg had the highest damage and was able to inhibit the growth of kale and spinach plants so that plant growth became stunted. 
Pengaruh Pupuk KCl dan Jenis Pupuk kandang terhadap Pertumbuhan dan Hasil Tanaman Ubi Jalar (Ipomoea batatas L.) achmad turmudzi; Indiyah Muwarni; Mahayu Woro Lestari
AGRONISMA Vol. 8 No. 2 (2020)
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This study aims to determine the effect of interactions between KCl fertilizer in combination with fertilizer on the growth and yield of sweet potato (Ipomea batatas L). Study using factorial RBD. Factor 1 is a dose of potassium (K) composed of three levels: K1 = 50 kg.ha-KCl, K2 = 100 kg.ha-KCl and K3 = 150 kg.ha-KCl. Factor 2 is a fertilizer (N) type consisting of three levels: P0 = no fertilizer, P1 = buffalo fertilizer, P2 = chlorine fertilizer. Each treatment was repeated 3 times with each sample of 3 sweet potato plants. According to the results of this study, applying 50 kg / ha of KCl fertilizer and buffalo fertilizer gave better results with a plant length of 166.38 cm at an age of 120 HST and 100 kg / ha of KCl fertilizer and chlorine fertilizer. The result was obtained. More leaves and about 1,350 leaves. 67 strands compared to other treatments. Applying KCl fertilizer treatment at different doses had no substantial effect on sweet potato growth and yield. Also, applying buffalo fertilizer will result in plant length, number of leaves, leaf area, weight of new stove, fresh weight of tubers, number of tubers, dry weight of stove, but no effect dry bulbs
Pengaruh Metode Aplikasi dan Dosis Vermikompos terhadap Pertumbuhan dan Hasil Tanaman Melon (Cucumis melo L.) Hidroganik m alvin alfalah; Siti Muslikah; Nurhidayati Nurhidayati
AGRONISMA Vol. 8 No. 2 (2020)
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Melon cultivation can be planted either conventionally or hydroponically (without soil). Along with the narrowing of productive agricultural land and decreasing soil quality,it encourages farmers to cultivate melons with a hydroponic system. There are various kinds of hydroponic media using inorganic fertilizers for melon cultivation, but it is still rarely found using organic fertilizers for hydroponic melon cultivation. This study developed a soilless cultivation system using vermicompost organic fertilizer. The aim of this study is to examine the effect of vermicompost application method and dosage on the growth and yield of melon plants which are planted hydraulically. This experiment used a factorial randomized block design with controls. Factor 1 of the vermicompost application method consists of two levels, namely M1 = 100% solid vermicompost immersed, M2 = 50% solid vermicompost immersed and 50% vermicompost thawed. Factor 2 doses of vermicompost consist of four levels, namely V1 = 200 grams, V2 = 400 grams, V3 = 600 grams, and V4 = 800 grams per polybag, plus control treatment using inorganic fertilizers. The results showed that the interaction between the application method and vermicompost dose significantly affected the growth and yield of melons. The best treatment combination is the application of 100% solid vermicompost at a dose of 800 g / polybag with plant height growth of 173.94 cm, number of leaves 25.33, and leaf area 2445.51 cm2. The results were achieved for fruit weights 601.11 g / plant and fruit diameter 10.19 cm / plant. The results of this study suggest that the application of 100% solid vermicompost can be used as a nutrient source in the cultivation of hydro-organic melon plants.
EFEK RESIDU VERMIKOMPOS TERHADAP PERTUMBUHAN DAN HASIL TANAMAN KANGKUNG (Ipomoea reptans Poir) SELAMA TIGA PERIODE PENANAMAN SECARA HIDROGANIK burhanudin firdaus; Nurhidayati Nurhidayati; Abdul Basit
AGRONISMA Vol. 8 No. 2 (2020)
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Hydroganic is a hydroponic planting system that uses organic fertilizers, one of which is vermicompost, which is a high-quality organic fertilizer derived from an overhaul of organic material by earthworms that contain high enough nutrients so that it can provide residual effects on subsequent plants. This study aims to determine how long the effect of vermicompost residue can provide optimum productivity in hydroganic media. The experiment was carried out using a factorial randomized block design (RCBD) with control using 2 factors. The first factor is the vermicompost application method (100% solid vermicompost, 50% solid vermicompost 50% liquid vermicompost, 100% liquid vermicompost) and the second factor is a vermicompost dose of 100-500 g / polybag. The parameters observed were plant height, number of leaves, fresh weight of plantations, fresh weight per plant, dry weight per plant, dry weight per plant. the results of this study showed that the best yield was in the M1V4 treatment (100% solid Vermicompost at a dose of 400 g / polybag) with an average yield of fresh weight per polybag 178.27 g (first planting period). There was a decrease in production over the three planting periods in M1 treatment production decreased by 25.29% (residual effect 1), 36.05% (residual effect 3), and 52.22% (third residual effect). In the M2 treatment, it was 4.40% (residual effect 1), 23.44% (residual effect 2), and 26.82% (residual effect 3) and in M3 treatment there was a decrease of 19.19% (residual effect 1), 28.19 (residual effect 2), and 41.98 (residual effect 3).
APLIKASI BERBAGAI KONSENTRASI GA3 DAN PUPUK NPK TERHADAP PERTUMBUHAN TANAMAN ANGGREK BULAN (PHALAENOPSIS AMABILIS L.) istiqoma Rusdiana Rahayu; Sunawan Sunawan; Mahayu Woro Lestari
AGRONISMA Vol. 8 No. 2 (2020)
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In the vegetative phase, orchids grow very slowly. Orchid plants need a higher element N (nitrogen) which aims to form organs in the vegetative phase (leaves, roots, and stems), besides the orchid plants require ZPT GA3 which functions for cell division. The research was conducted at the Agriculture Faculty Screenhouse, Malang Islamic University, Lowokwaru District, Malang City. The study was conducted in October 2019 until February 2020. The factorial experimental design was prepared using a Randomized Block Design (RBD) consisting of 2 treatment factors. Factor 1: Concentration of growth regulator GA3, consists of 3 levels: G0: GA3 concentration 0 ppm, G2: GA3 concentration 2 ppm, G4: GA3 concentration 4 ppm. Factor 2: NPKfertilizer concentration, consisting of 3 levels: P0: NPKFertilizer 0 g/ l, P1: NPKFertilizer 1 g/ l, P3: NPKFertilizer 3 g/ l. the tools needed are flexible cup, camera, stationery, bucket, spectrophotometer, etc. The materials used were orchid seedlings aged 6 months, charcoal, kadaka roots, cocofiber, moss, NPKgrowmore, GA3. Observed//variables,,included./plant height, number of leaves,,.leaf area, total chlorophyll. Data obtained in the analysis using analysis of variance to determine the effect between treatments. If there is an influence between treatments continued using the Least Significant Difference test (LSD) level of 5%. The results showed that in general the application of various concentrations of GA3 and NPKfertilizer showed a significant effect on the growth of orchid plants. At plant height the results of analysis of variance showed that in general there were no real interactions at each age of observation. Orchid plants have the best number of leaves in the treatment P1 (concentration of 1 gL-1). In the leaf area there was a significant interaction at the age of 45 hsr observed in the G4P0 treatment (GA3 4 ppm and NPK fertilizer 0 g L-1) but, not significantly different from the G0P3 treatment (GA3 0 ppm and NPK fertilizer 3 g L-1). In the stem diameter there was a significant interaction at the age of 75 hsr observed in the treatment of G4P1 (GA3 4 ppm and NPK fertilizer 1 g L-1), but not significantly different from G0P1 (GA3 0 ppm and NPK fertilizer 1 g L-1) and G0P3 (GA3 0 ppm and NPK fertilizer 3 g L-1). In the chlorophyll content obtained the highest value in the treatment of G4P3 (GA3 4 ppm and NPK fertilizer 3 g L-1), but not significantly different from the treatment of G2P3 (GA3 2 ppm and NPK fertilizer 3 g L-1). Based on these results the use of GA3 andNPK fertilizer on the growth of orchids gives tangible results, the function of GA3 which is aimed at cell division, while theNPK fertilizer which functions to stimulate vegetative growth of the whole plant (leaf area, number of leaves, roots, and stems).

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