THE CONCEPT OF ORGANIC CULTIVATION AS A SUSTAINABLE AGRICULTURAL EDUCATION EFFORT

Hening Widowati;Agus Sutanto;Achyani; Fenny Thresia ;Nedi Hendri ; Mia Cholvistaria (2020) The Concept Of Organic Cultivation As A Sustainable Agricultural Education Effort, International Journal of Advanced Scien ce and Technology (IJAST)


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ABSTRAK

Farmers generally prefer non-organic farming. This study examines the residue of active ingredients due to the use of synthetic chemical pesticides. It conducted with organic farming methods that are environmentally friendly by utilizing fermented fertilizers and refugia biopesticides. It was randomly sampled the water, soil, and products of 9 types of vegetables with four replications in the vegetable field of Karangrejo Sub-District, North of Metro Lampung, Indonesia in April-September 2019. The non-organic farmed expose facto data was used as a control. Data were analyzed by means of the different t test, and descriptive by examining laboratory test documents for increasing land productivity and agricultural yields. The results showed that the levels of active residues of chlorfenapyr, diphenoconazole, and low fipronil below the permitted threshold were found in soil, water, and all types of non-organic vegetables, with significantly different residue levels of p ≤ 0.05. While organic management is only found in the soil where vegetables grow, those were not detected. The findings of organic farming are very significantly different for all parameters of active residues, as well as increased productivity of land and agricultural products can be socialized for healthy living and environmentally friendly farming and sustainable agricultural education effort.

REFERENSI

[1] Jeffry, E. S., & Bambang S. S., The Effect of Rice Farming Intensification on Increasing Production and Farmer Income in Manokwari Regency. Journal of Informatika Pertanian, 22(2), (2013), 73-79. [2] Parlindungan Lumbanraja, Sustainable Agriculture. Agroecotechnology Study Program. Medan: Faculty of Agriculture, University of HKBP Nommensen Medan, (2018). [3] Asep, N. A., The Pesticide Residues and its Identification and Handling Techniques Using Materials Around Us. Agro Inovasi. Science Innovation Networks. Agricultural Environment Research Institute. Agricultural Research and Development Agency. Indonesian Ministry of Agriculture, (2018). [4] Julita, H., Muhammad, R., & Triana, D. H., Risk Analysis of Organic Rice Production in Rowosari Village, Sumberjambe District, Jember Regency. Jurnal Agribisnis Indonesia, 6(1), (2018), 23-34. [5] South Sumatra Province Food Security Agency. BKP Activity Report of South Sumatra Province 2009-2013. BKP of South Sumatra, Palembang, (2013). [6] Claeys, W. L., Schmit, J. F., Bragard, C., Maghuin-Rogister, G., Pussemier, L., & Schiffers, B. Exposure of Several Belgian Consumer Groups to Pesticides Residues through Fresh Fruit and Vegetable Consumption. Food Control, 22(3-4), (2011), 508-516. [7] Food Crops and Horticultural Protection Agency of South Sumatra Province. Activities Report, Palembang, (2013). [8] Miskiyah, & Munarso, S. J., Pesticide Residue Contamination in Red Chili, Lettuce and Onion (Case Study in Bandungan and Brebes, Central Java and Cianjur, West Java). J. Hort., 19(1), (2009), 101-111. [9] Agus, S., Achyani, Hening, W., Feny, T., & Nedi, H., Campus Intellectual Product Development Program (PPUPIK) Service Report. Institute of Research and Community Service. LPPM of Muhammadiyah Metro University, (2019). [10] Madi, S., Insecticide Made from Chlorphenapir. Teknologi Informasi, (2015). [11] Ida, K., Rusdy, S. N., Ramadhani, E. P., Agus, D. P., & Mia, R., Toxicity of Several Types of Commercial Fungicides in Pollinating Insects, Trigona (Tetragonula) laeviceps Smith. Indonesian Journal of Entomology, 14(1), (2017), 29–36. [12] Indah, N., Abdul, B., Indiyah, M., & Heri, P., Evaluation of the Effects of Fipronil and Diafentiuron Mixtures in Controlling Tobacco Leaf Caterpillars (Spodoptera litura Fabricius) in Tobacco Plants (Nicotiana tabacum L.). Folium Journal, 1(2), (2018), 79-87. [13] Saptana, & Ashari, Sustainable Agriculture Development Through Business Partnerships. Jurnal Litbang Pertanian, 26(4), (2007), 123-124. International Journal of Advanced Science and Technology Vol. 29, No. 7s, (2020), pp. 144-157 ISSN: 2005-4238 IJAST 157 Copyright ? 2020 SERSC [14] Maryati, H., Idham, A., & Dwi, The Comparison of Productivity Levels and Income of Farmers Using Organic Fertilizers in Different Land Agroecosystems in South Sumatra. National Seminar on Suboptimal Land, (2014). [15] Gita, A., Pesticides in Our Vegetables. Republika. Co. id. Wednesday, (2018). [16] Badan Standardisasi Nasional (National Standardization Agency), Maximum Limits of Pesticide Residues in Agricultural Products. SNI 7313, (2008). [17] Connell, D. W., & Miller, G. J., Chemical and Ecotoxicology of Pollution (Y. Koestoer (trans.). Jakarta: University of Indonesia Press, (2006). [18] Sartono, Poison and Poisoned. Jakarta: Widya Medika, (2002). [19] Zhang, Z. Y., X. Liu, X. Yu, C. Zhang, & X. Hong, Pesticides Residue in Spring Cabbage (Brassica oleracea L. var. capitata) Grown in Open Field. J. Foodcont., 18(6), (2007), 723- 730. [20] Euis, A., Benny, J., & Sunardi, S., Pesticide Residues in Horticultural Plants (Case Study in Cihanjuang Rahayu Village, Parongpong District, West Bandung Regency). Journal of Agriculture, 27(1), (2016), 23-29. [21] Untung, K., Basics of Integrated Pest Management. Yogyakarta: Gadjah Mada University Press, (2001). [22] Jorge, C., Pesticide Residues in Vegetables and Fruits Can Reduce Sperm Quality. Reuters: Detikhealt, (2015). [23] Cox, C., Insecticide Factsheet Permethin. Journal of Pesticide Reform, 18(2), (1998), 14-19. [24] Tjahjadi, & Gayatri, Remember the Dangers of Pesticides: Collection of Pesticide Residues and Alternatives. Jakarta: PAN Indonesia, (1994). [25] Djojosumarto, Pesticides and The Applications. Jakarta: PT. Agromedia Pustaka, (2008). [26] Fahrunnisa, Y., Orryani, L., & Suwastika, I. N., The Abundance of Soil Microorganisms in Semi-Intensive and Non-Intensive Cocoa Plantation Systems (Theobroma cacao L.). Journal of Science and Technology, 6(3), (2107), 194-205. [27] Munzuroglu, O., Obek, E., Karatas, F., & Tatar, S. Y. Effects of Simulated Acid Rain on Vitamin A, E, and C in Strawberry (Fragariavesca). Pakistan Journal of Nutrition, 4(6), (2005), 402-406. [28] Lilis Zakiyatunnufus, Knowledge, Attitudes, and Actions of Vegetable Farmers in the Use of Pesticides in Pandeglang District, Banten. Thesis. Department of Plant Protection. Faculty of Agriculture. Bogor: Bogor Agricultural University, (2015). [29] Sutanto, The Application of Correctional Organic Agriculture and Its Development. Yogyakarta: Kanisius, (2002). [30] Walangadi, The Pesticide Residue Regulation Policy: Implementation on Horticultural Commodities. Thesis, Indonesia: Bogor Agricultural University, (2000).


Type:Other
Depositing User:Admin Universitas
Date Deposited:21 January 2022
Last Modified:21 January 2022
URI:https://repository.ummetro.ac.id/view/3750