Kajian Ontologi Peran dan Posisi Pestisida Kimia Sintetik dalam Pertanian Berkelanjutan
DOI:
https://doi.org/10.36312/ej.v5i2.2448Keywords:
Pestisida Kimia Sintetik, Pertanian Berkelanjutan, OntologiAbstract
Pertanian berkelanjutan telah menjadi prioritas global dalam menghadapi tantangan perubahan iklim, degradasi lahan, dan ketahanan pangan. Meskipun penggunaan pestisida kimia sintetik efektif dalam meningkatkan produktivitas pertanian, dampaknya terhadap lingkungan, kesehatan, dan keanekaragaman hayati menimbulkan kekhawatiran serius. Artikel ini bertujuan untuk menganalisis posisi dan peran pestisida kimia sintetik dalam sistem pertanian berkelanjutan melalui pendekatan ontologis. Kajian ini dilakukan dengan metode Literatur Review menggunakan publikasi ilmiah dari tahun 2018-2024. untuk mengeksplorasi dampak ekologis, kesehatan, dan sosial dari penggunaan pestisida kimia sintetik, serta membandingkannya dengan alternatif ramah lingkungan seperti biopestisida dan pengendalian hayati. Hasil analisis menunjukkan bahwa penggunaan pestisida kimia sintetik memiliki dampak kompleks terhadap kestabilan ekosistem dan biodiversitas, termasuk penurunan populasi mikroorganisme tanah hingga 40-60%, gangguan pada fauna tanah sebesar 35%, dan penurunan keragaman serangga polinator sampai 40% dalam lima tahun. Analisis komparatif mengungkapkan bahwa meskipun pestisida kimia sintetik memiliki efektivitas pengendalian hama 85-90%, metode pengendalian alternatif yang ramah lingkungan menunjukkan potensi signifikan dengan efektivitas 60-75% disertai keuntungan ekologis substansial. Penelitian ini merekomendasikan transformasi sistem pertanian melalui implementasi Pengendalian Hama Terpadu, pengembangan kapasitas petani, inovasi pestisida alternatif, reformasi kebijakan, dan adopsi teknologi ramah lingkungan untuk mewujudkan pertanian berkelanjutan.
Ontological Study of The Role Nnand Position of Synthetic Chemical Pesticides in Sustainable Agriculture
Abstract
Sustainable agriculture has become a global priority in addressing the challenges of climate change, land degradation, and food security. Although the use of synthetic chemical pesticides is effective in increasing agricultural productivity, its impacts on the environment, health, and biodiversity raise serious concerns. This article aims to analyze the position and role of synthetic chemical pesticides in sustainable agricultural systems through an ontological approach. This study was conducted using the Literature Review method using scientific publications from 2018-2024. to explore the ecological, health, and social impacts of the use of synthetic chemical pesticides, and compare them with environmentally friendly alternatives such as biopesticides and biological control. The results of the analysis show that the use of synthetic chemical pesticides has complex impacts on ecosystem stability and biodiversity, including a decrease in soil microorganism populations by 40-60%, disturbances in soil fauna by 35%, and a decrease in insect pollinator diversity by 40% in five years. The comparative analysis revealed that although synthetic chemical pesticides have an 85-90% pest control effectiveness, environmentally friendly alternative control methods show significant potential with an effectiveness of 60-75% with substantial ecological benefits. This study recommends transformation of agricultural systems through the implementation of Integrated Pest Management, farmer capacity development, innovation of alternative pesticides, policy reform, and adoption of environmentally friendly technologies to realize sustainable agriculture.
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References
Ajitha, D., & Mathew, L. 2022. Impact of Organochlorine Pesticides on Soil Microflora and Soil Fertility. In Pesticides Bioremediation (pp. 3-30). Cham: Springer International Publishing.
Anakha, Mariya, Jacob. 2024. Betting on Biodiversity. Practice, progress, and proficiency in sustainability, 14-22. doi: 10.4018/979-8-3693-6950-0.ch002
Ardiwinata, Asep & Ginoga, Lin & Sulaeman, Eman & Harsanti, Elisabeth. 2020. Pesticide Residue Monitoring on Agriculture in Indonesia. Jurnal Sumberdaya Lahan. 12. 133. 10.21082/jsdl.v12n2.2018.133-144.
Baker, B. P., Green, T. A., & Loker, A. J. 2020. Biological control and integrated pest management in organic and conventional systems. Biological Control, 140, 104095.
Balkrishna, A. (Ed.). 2021. Sustainable Agriculture for Food Security: A Global Perspective. CRC Press.
Barzman, M., Bàrberi, P., Birch, A. N. E., Boonekamp, P., Dachbrodt-Saaydeh, S., Graf, B., & Sattin, M. 2015. Eight principles of integrated pest management. Agronomy for sustainable development, 35, 1199-1215.
Durham, T. C., & Mizik, T. 2021. Comparative economics of conventional, organic, and alternative agricultural production systems. Economies, 9(2), 64.
Goldstein, A., Fink, L., & Ravid, G. 2021. A framework for evaluating agricultural ontologies. Sustainability, 13(11), 6387.
Indiati, Sri W., and Marwoto Marwoto. 2017. Penerapan Pengendalian Hama Terpadu (Pht) pada Tanaman Kedelai. Buletin Palawija, vol. 15, no. 2, 2017, pp. 87-100, doi:10.21082/bul palawija.v15n2.2017.p87-100.
Jamhari, M. 2023. Analisis Kandungan Pestisida pada Ikan Air Tawar yang Ada di Desa Poly Kec. Tinombo Selatan dan Pemanfaatannya sebagai Media Pembelajaran. Journal of Biology Science and Education, 11(1), 17-22.
Jan, S., Singh, R., Bhardwaj, R., Ahmad, P., & Kapoor, D. 2020. Plant growth regulators: a sustainable approach to combat pesticide toxicity. 3 Biotech, 10(11), 466.
Jouzi, Z., Azadi, H., Taheri, F., Zarafshani, K., Gebrehiwot, K., Van Passel, S., & Lebailly, P. 2017. Organic farming and small-scale farmers: Main opportunities and challenges. Ecological economics, 132, 144-154.
Ledouble, H. 2020. Term circulation and conceptual instability in the mediation of science: Binary framing of the notions of biological versus chemical pesticides. Discourse & Communication, 14(5), 466-488.
Millard, J., Outhwaite, C. L., Kinnersley, R., Freeman, R., Gregory, R. D., Adedoja, O., ... & Newbold, T. 2021. Global effects of land-use intensity on local pollinator biodiversity. Nature Communications, 12(1), 2902.
Mira, Lieberman. 2024. Assessing the impact of pesticides on natural capital and biodiversity. Burleigh Dodds series in agricultural science, 111-132. doi: 10.19103/as.2023.0128.11
Oerke, E.C. 2006. Crop losses to pests. The Journal of Agricultural Science, 144(1), 31–43. doi:10.1017/S0021859605005708
Pathak, V. M., Verma, V. K., Rawat, B. S., Kaur, B., Babu, N., Sharma, A., ... & Cunill, J. M. 2022. Current status of pesticide effects on environment, human health and it’s eco-friendly management as bioremediation: A comprehensive review. Frontiers in microbiology, 13, 962619.
Prashantkumar, B., Sathvara., J., Anuradha., Sandeep, Tripathi., R., Sanjeevi. 2024. Current Scenario of Biodiversity Loss Due to Developmental Activities. Practice, progress, and proficiency in sustainability, 50-69. doi: 10.4018/979-8-3693-6950-0.ch005.
Pretty, J., Benton, T. G., Bharucha, Z. P., Dicks, L. V., Flora, C. B., Godfray, H. C. J., ... & Wratten, S. 2018. Global assessment of agricultural system redesign for sustainable intensification. Nature Sustainability, 1(8), 441-446.
Rani, L., Thapa, K., Kanojia, N., Sharma, N., Singh, S., Grewal, A. S., & Kaushal, J. 2021. An extensive review on the consequences of chemical pesticides on human health and environment. Journal of cleaner production, 283, 124657.
Serra AA, Bittebière AK, Mony C, Slimani K, Pallois F, Renault D, Couée I, Gouesbet G, Sulmon C. Local-scale dynamics of plant-pesticide interactions in a northern Brittany agricultural landscape. Sci Total Environ. 2020 Nov 20;744:140772. doi: 10.1016/j.scitotenv.2020.140772. Epub 2020 Jul 16. PMID: 32711307.
Smith, P., Soussana, J. F., Angers, D., Schipper, L., Chenu, C., Rasse, D. P., ... & Klumpp, K. 2020. How to measure, report and verify soil carbon change to realize the potential of soil carbon sequestration for atmospheric greenhouse gas removal. Global Change Biology, 26(1), 219-241.
Susanti, W. I., Cholidah, S. N., & Agus, F. 2024. Agroecological Nutrient Management Strategy for Attaining Sustainable Rice Self-Sufficiency in Indonesia. Sustainability, 16(2), 845.
Theresia, E. S., Alfiansyah, H., Ardikoesoema, N., Saputra, Y. A., & Gunandar, C. M. 2023. Instrumen pencegahan pencemaran lingkungan akibat pestisida. Journal of Character and Environment, 1(1).
Tian, Z., Wang, J. W., Li, J., & Han, B. 2021. Designing future crops: challenges and strategies for sustainable agriculture. The Plant Journal, 105(5), 1165-1178.
Yadav, A., Yadav, K. 2018. Nanoparticle-Based Plant Disease Management: Tools for Sustainable Agriculture. In: Abd-Elsalam, K., Prasad, R. (eds) Nanobiotechnology Applications in Plant Protection. Nanotechnology in the Life Sciences. Springer, Cham. https://doi.org/10.1007/978-3-319-91161-8_2.
Zaller, J. G., & Zaller, J. G. 2020. Pesticide impacts on the environment and humans. Daily poison: pesticides-an underestimated danger, 127-221.
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