STATUS RESIDU BAHAN AKTIF IMIDAKLOPRID DAN PENDIMETALIN DI LAHAN SAWAH PETANI TEMBAKAU VIRGINIA DI PULAU LOMBOK
Authors
Lu'luil Mir'ah , Padusung Padusung , I Putu SilawibawaDOI:
10.29303/jsqm.v3i1.174Published:
2024-06-21Issue:
Vol. 3 No. 1 (2024): Jurnal Soil Quality and ManagementKeywords:
Imidakloprid, Pendimetalin, ResiduArticles
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Abstract
Abstrak: Tanaman tembakau Virginia (Nicotiana tabacum L) merupakan salah satu komoditas tanaman pertanian yang banyak dibudidayakan di Pulau Lombok. Pestisida dengan bahan aktif Imidakloprid dan Pendimetalin merupakan salah satu jenis pestisida yang banyak digunakan oleh petani tembakau di Pulau Lombok. Penggunaan pestisida yang berlebihan dan tidak tepat dapat mengakibatkan pencemaran lingkungan, salah satunya dapat meninggalkan residu di dalam tanah, tanaman, dan air. Tujuan dari penelitian ini adalah untuk mengetahui status residu insektisida berbahan aktif Imidakloprid dan herbisida berbahan aktif Pendimetalin di lahan sawah petani tembakau Virginia di Pulau Lombok. Hasil analisis laboratorium menunjukkan bahwa residu insektisida berbahan aktif Imidakloprid dan herbisida berbahan aktif Pendimetalin di lahan sawah petani tembakau Virginia di Pulau Lombok tidak terdeteksi adanya residu pada alat kromatografi dengan batas minimum deteksi 0,10 ppm. Kata Kunci: Imidakloprid, Pendimetalin dan Residu Abstract: Virginia tobacco plant (Nicotiana tabacum L) is one of the most widely cultivated agricultural commodities on Lombok Island. Pesticides with the active ingredients Imidacloprid and Pendimetalin are a type of pesticide that is widely used by tobacco farmers on Lombok Island. Excessive and inappropriate use of pesticides can lead to environmental pollution, one of which can leave residues in soil, plants and water. The purpose of this study was to determine the residual status of the insecticide with the active ingredient Imidacloprid and the herbicide with the active ingredient Pendimetalin in the paddy fields of Virginia tobacco farmers on Lombok Island. The results of laboratory analysis showed that residues of the insecticide with the active ingredient Imidacloprid and the herbicide with the active ingredient Pendimetalin in the paddy fields of Virginia tobacco farmers on Lombok Island were not detected by the chromatography tool with a minimum detection limit of 0.10 ppm. Keyword: Imidacloprid, Pendimethalin and ResidueReferences
Chopade, Harish, David Eigenberg, Eric Solon, and Paul Strzemienski. 2010. Skin Distribution of Imidacloprid by Micro Autoradiography After Topical Administration To Beagle Dogs. Vet Ther 11:1–10.
Cohen, S., Flint, M. L., and Hines, N. 2009. Lawn and Residential Landscape Pest Control: A Guide for Maintenance Gardeners. Agriculture and Natural Resource Publication 3510, University of California. Los Angeles. 26.
Direktorat Jenderal Perkebunan (Ditjenbun). 2018. Statistik Perkebunan Indonesia Komoditas Tembakau. Kementerian Pertanian. Jakarta. http://ditjenbun.pertanian.go.id
Gita, Kulshrestha, Shashi B singh, Shashi P Lal, and Nanjapur Yaduraju. 2000. Effect Of Long-Term Field Application of Pendimethalin : Enhanced Degradation In Soil. Society of Chemical Industry. Indian Agricultural Research Institute. 56 :202-206.
Gondar, D., Lopez, R., Antelo, J. and Arce, F. 2013. Effect of organic matter and pH on the adsorption of metalaxyl and penconazole by soils. Journal of Hazardous Materials 260: 627-633.
https://agrotanicipanas.blogspot.com/2018/07/keunggulan-bahan-aktif-imadakloprid-dan.html [28 Maret 2021].
http://data.ntbprov.go.id/dataset/rekapitulasi-produksi-luas-panen-dan-produktivitas-tembakau-virginia-di-provinsi-ntb-2# [29 Agustus 2023].
http://iklim.ntb.bmkg.go.id/buletin [29 Agustus 2023].
Karina, S.B. 2002. DSynamics of Organochlorine Pesticides in Soils From a Southeastern Region of Argentina. Environmental Toxicology and Chemistry. Vol 22. 712-717.
Leicht, W. 1993. Imidacloprid-a Chloronicotinyl Insecticide. Pestic Outlook. 4:17–2.
Noegrohati, S. 1997. Petunjuk Laboratorium Analisis Pestisida Organoklorin. PAU-Bio-teknologi, UGM Yogyakarta.
Samnani, Prakash, Kamlesh Vishwakarma, Pandey S Y. 2013. Persistence study of imidacloprid in different soils under laboratory conditions. Int J Environ Sci 4:151–157.
Stevenson, F.J. 1982. Humus Chemistry Wiley Inetrscience. New York.
Tahir. 2010. Toksikologi Lingkungan. Surabaya: Airlangga University Press.
Thuyet, DQ, Watanabe, H and Ok, J.. 2013. Effect of pH on The Degradation of Imidacloprid and Fipronil in Paddy Water. J Pestic Sci 38:223–227.
Walker A and Bond W. 1977. Persistence of the herbicide AC-92,553, N-(1-ethylpropyl)-2,6-dinitro-3,4-xylidine in soils. Pestic Sci 8:359-369.
