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"Mikroplastik didefinisikan sebagai partikel plastik dengan ukuran <5 mm. Mikroplastik dapat masuk ke dalam tubuh organisme air khususnya ikan melalui oral dan insang. Penelitian ini bertujuan untuk mengetahui bentuk dan kelimpahan mikroplastik pada air, insang dan saluran pencernaan ikan mujair Oreochromis mossambicus (Peters, 1852) serta menguji perbedaan kelimpahan mikroplastik pada ikan mujair di Danau Kenanga dan Danau Agathis Universitas Indonesia. Penelitian dilakukan di Departemen Biologi FMIPA UI, Depok. Sampel ikan mujair diperoleh sebanyak total 20 ekor dari kedua danau dengan panjang tubuh relatif antara 16--19 cm. Insang dan saluran pencernaan dari 20 sampel ikan mujair diisolasi, kemudian diekstraksi dan dihancurkan menggunakan larutan asam nitrat (HNO3) 65%. Sampel yang telah diekstraksi kemudian diberi larutan NaCl jenuh agar mikroplastik mengapung ke permukaan. Sampel diteteskan sebanyak 1 ml pada Sedgwick Rafter Chamber kemudian diamati di bawah mikroskop dan dihitung jumlah mikroplastik berdasarkan bentuk partikelnya. Total kelimpahan rata-rata mikroplastik pada air Danau Kenanga sebesar 1.766,6 ± 40,11 partikel/L, sementara total kelimpahan rata-rata mikroplastik air pada Danau Agathis sebesar 1.885,53 ± 106,27 partikel/L. Total kelimpahan rata-rata mikroplastik ikan mujair pada Danau Kenanga di insang sebanyak 6.232 ± 1.898,66 partikel/ind dan di saluran pencernaan sebanyak 9.108 ± 4.027,14 partikel/ind, sementara total kelimpahan rata-rata mikroplastik ikan mujair pada Danau Agathis di insang sebanyak 6.716 ± 2.467,67 partikel/ind dan di saluran pencernaan sebanyak 4.038 ± 2.180,75 partikel/ind. Persentase komposisi bentuk mikroplastik yang ditemukan dominan pada Danau Kenanga terdapat bentuk fragmen sebesar 40% di air; fiber 80% di insang dan fiber 75% di saluran pencernaan, Sementara komposisi bentuk mikroplastik yang ditemukan dominan pada Danau Agathis terdapat bentuk fiber sebesar 43% di air; 75% di insang dan 67% di saluran pencernaan. Hasil analisis statistik Uji Mann-Whittney menunjukkan adanya perbedaan secara signifikan kelimpahan mikroplastik pada ikan mujair di Danau Kenanga dan Danau Agathis, Universitas Indonesia.

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Microplastics are define as plastic particles with a size of <5 mm. Microplastics can enter the body of aquatic organisms, especially fish through the mouth and gills. This study aims to determine the shape and abundance of microplastics in water, gill and digestive tract tilapia fish Oreochromis mossambicus (Peters, 1852) at Kenanga Pond and Agathis Pond, University of Indonesia and to analyze and examine differences in the abundance of microplastics in tilapia fish at Kenanga Pond and Agathis Pond, University of Indonesia. The study was conducted at Department of Biology FMIPA UI, Depok. Total 20 tilapia fish from the two lakes with relative length between 16--19 cm. Gills and digestive tract samples were obtained of tilapia fish were isolated, extracted and then crushed using a saturated solution of nitric acid (HNO3) 65%. The extracted sample is then given NaCl solution so that the microplastic floats to the surface. As much as 1 ml NaCl were dropped in the Sedgwick Rafter Chamber then observed under a microscope. The number of microplastic was calculated based on the type. The average total abundance of microplastics in the water of Kenanga Pond was 1.766,6 ± 40,11 particles/L, meanwhile the average total abundance of microplastics in the water of Agathis Pond was 1.885,53 ± 106,27 particles/L. The average total microplastics in tilapia gill at Kenanga Pond was 6.232 ± 1.898,66 particles/ind and in the digestive tract was 9.108 ± 4,027.14 particles/ind, meanwhile the average total abundance microplastics in tilapia gill at Agathis Pond was 6.716 ± 2.467,67 particles/ind and in the digestive tract was 4.038 ± 2.180,75 particles/ind. The percentage composition of the microplastic form that was found dominant at Kenanga Pond were as much as 40% fragments in the water; 80% fiber in the gills and 75% fiber in the digestive tract. Meanwhile, the percentage composition of the microplastic form that was found dominant at Agathis Pond were as much as 43% fiber in the water; 75% in the gills and 67% in the digestive tract. The results of the Mann-Whittney test statistical analysis showed that there was significant difference between abundance of microplastics in tilapia fish at of Kenanga Pond and Agathis Pond, University of Indonesia."

"Ikan mujair (Oreochromis mossambicus) merupakan salah satu jenis ikan air tawar dari famili Cichlidae dan genus Oreochromis yang memiliki bentuk adaptasi serta tingkat toleransi yang tinggi terhadap kondisi habitatnya, misalnya pada tingkat salinitas yang tinggi. Danau Laut Mati Oemasapoka di Perairan Pulau Rote merupakan salah satu danau air asin yang menjadi habitat ikan mujair. Penelitian ini dilakukan untuk mengetahui hubungan kekerabatan spesies ikan mujair yang diperoleh dari Danau Laut Mati Oemasapoka dengan ikan mujair dari danau air tawar, Danau Ledulu yang berada pada perairan yang sama dengan melakukan identifikasi molekuler menggunakan metode DNA barcoding dengan gen CO1. Tahapan DNA barcoding terdiri atas ekstraksi DNA, amplifikasi gen CO1 melalui reaksi PCR, dan sekuensing. Hasil penelitian menunjukkan gen CO1 mampu mengidentifikasi bahwa ikan mujair yang hidup di danau air asin, Danau Laut Mati Oemasapoka merupakan jenis spesies yang sama dengan ikan mujair yang hidup di danau air tawar, Danau Ledulu dengan persentase kemiripan sebesar 99,53—100%. Rekonstruksi pohon filogenetik yang dibentuk dengan metode Maximum Likelihood, model evolusi Kimura 2-Parameter, dan uji bootstrap 1000x menunjukkan bahwa ikan mujair dari Danau Laut Mati Oemasapoka dan Danau Ledulu berada dalam satu klade yang sama dengan jarak genetik sebesar 0,000—0,004. Analisis keragaman haplotipe dari ikan mujair yang diperoleh dari Danau Laut Mati Oemasapoka dan Danau Ledulu terdapat satu haplotipe dengan nilai keragaman sebesar 0,0824. Rendahnya nilai keragaman haplotipe tersebut dapat disebabkan karena ikan mujair Danau Laut Mati Oemasapoka dan Danau Ledulu memiliki tingkat migrasi yang rendah.

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Tilapia fish (Oreochromis mossambicus) is one type of freshwater fish from the family Cichlidae and genus Oreochromis which has a form of adaptation and a high level of tolerance to habitat conditions, for example at high salinity levels. Dead Sea Lake Oemasapoka, Rote Island is one of the saltwater lakes that is a habitat for tilapia fish. This study was conducted to determine the relationship between tilapia species obtained from Dead Sea Lake Oemasapoka and tilapia fish from freshwater lake, Lake Ledulu which are in the same waters by conducting molecular identification using DNA barcoding method with CO1 gene. The DNA barcoding stages consist of DNA extraction, CO1 gene amplification through PCR reactions, and sequencing. The results of this study indicate that the CO1 gene is able to identify that tilapia fish that live in saltwater lakes, Dead Sea Lake Oemasapoka are the same species as tilapia fish that live in freshwater lakes, Lake Ledulu with a similar percentage of 99,53-100%. Reconstruction of the phylogenetic tree using the Maximum Likelihood method Kimura 2-Parameter evolution model, and 1000x bootstrap test showed that tilapia fish from Dead Sea Lake Oemasapoka and Lake Ledulu were in the same clade with a genetic distance of 0.000-0.004. Analysis of haplotype diversity of tilapia fish obtained from Dead Sea Lake Oemasapoka and Lake Ledulu there is one haplotype with a diversity value of 0.0824. The low value of this haplotype diversity can be caused by a low migration rate."

"An analysis of pesticide contamination in farm sites was conducted to investigate the impacts of organochlorine contamination in environmental matrices leading to pesticide residue in animal products and to identifya biocumulator of freshwater (mujair) fish (Sarotherodon mossambica)....."