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All Journal AGARICUS: Advances Agriculture Science & Farming
Eko Bahtiyar Ciptono
Sekolah Tinggi Pertanian Flores Bajawa
Agriculture, Biological Sciences & Forestry

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Composition Analysis of Bokashi Organic Fertilizer from Fish Flour Fishery Waste Eko Bahtiyar Ciptono; Musa Khoir
AGARICUS: Advances Agriculture Science & Farming Vol 2 No 1 (2022): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/agaricus.v2i1.2767

Abstract

Dead fish after upwelling in Cirata Reservoir might cause environmental pollution if it is not well managed. A solution that can be used is utilizing the waste into bokashi organic fertilizer. The purpose of this research were to process fish wastes into bokashi organic fertilizer that meet standards of SNI, and to apply on kale growth. Research was divided into three stages. The first stage was production of fish meal from Cirata Reservoir fisheries waste. The second stage was production of bokashi organic fertilizer by mixing fish meal, rice bran and coconut dregs with fish meal concentration of 30%, 40%, 50% and 60%. The third stage was fertilizer application on kale. Bokashi organic fertilizer product had organic C of 13,98%-17,77%, N total of 3,23%-7,80%, C/N ratio of 1,69- 5,50, P total of 1,46%-2,90%, and K total of 0,92%-1,46%. In general, bokashi organic fertilizer product did not meet standard of SNI because C/N ratio was below the standard. Bokashi organic fertilizer with 30% fish meal combination resulted the highest kale growth (p < 0,05).
Liquid Organic Fertilizer Waste Painage Skin on Tomato Growth and Production in Alluvial Soil Eko Bahtiyar Ciptono; Yoshep Ramtalungi; Lukman Pragustavi
AGARICUS: Advances Agriculture Science & Farming Vol 2 No 1 (2022): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/agaricus.v2i1.2795

Abstract

This study aims to obtain a concentration of POC of pineapple skin waste that can provide the best growth and yield of tomatoes in alluvial soils. The research was carried out from December 1, 2, 2019 to March 05, 2020 at the location located on Jalan Silat Baru, untan komplek. Pontianak City. The study used the Complete Randomized Design (RAL) method with one factor, which consisted of 5 treatments with 5 tests and each test consisted of 4 sample plants. The treatment in question is k1 = 10% POC pineapple skin waste, k2 = 15% POC pineapple skin waste, k3= 20% POC pineapple skin waste, k4 = 25% POC pineapple skin waste, k5 = 30% POC pineapple skin waste. The variables observed in this study were plant height, root volume, dry weight of plants, Number of Fruits Per plant, Fruit Weight Per Plant, and Weight Per Fruit. Based on the results of the study, it can be concluded that the application of POC pineapple skin waste with a concentration of 15% and 20% shows good growth at plant height 1 and 2 weeks after planting. Based on the results of the study, it can be concluded that from the administration of PINEAPPLE SKIN WASTE POC, it is not found that the best concentration but an efficient concentration for tomato growth and yield is 10% POC of pineapple skin waste.
Co-Authors Lukman Pragustavi Musa Khoir Yoshep Ramtalungi