We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
MIKROPLASTIK PADA INSANG DAN SALURAN PENCERNAAN DIIKAN TONGKOL Euthynnus affinis (Cantor, 1849) DAN IKAN TERIStolephorus indicus (van Hasselt, 1823) HASIL TANGKAPANNELAYAN PPP LEMPASING
Summary
Researchers examined microplastics in the gills and digestive tracts of two commercially important fish species — bullet tuna (Euthynnus affinis) and Indian anchovy (Stolephorus indicus) — caught by fishers at PPP Lempasing, Indonesia. The study documented microplastic contamination in both fish organs, with findings reflecting the contribution of Indonesia's significant marine plastic waste load to microplastic ingestion in coastal fisheries.
Indonesia telah menyumbang sampah sebanyak 3,2 juta ton pertahunnya. 192 negara pesisir, termasuk Indonesia setidaknya sudah membuang sampah ke laut sebesar 12,7 juta ton per tahuannya yang dapat menjadi ancaman bagi ekosistem laut. Sampah laut tersebut akan terdegrdasi menjadi mikroplatik, dimana mikroplastik dapat menjadi ancaman kesehatan bagi lingkungan perairan, biota laut bahkan manusia. Telah dilakukan penelitian mikroplastik pada insang dan saluran pencernaan di E. affinis dan S. indicus. hasil tangkapan nelayan PPP Lempasing. Penelitian dilakukan dengan tujuan mengetahui kelimpahan, bentuk, warna, dan ukuran mikroplastik di saluran pencernaan dan saluran pernafasan (insang) E. affinis dan S. indicus serta menganalisis korelasi mikroplastik. Hasil penelitian menunjukkan kelimpahan mikroplastik pada E. affinis adalah 17,5 par/ekor sedangkan untuk S. indicus 0,19 par/ekor. Bentuk mikroplastik yang ditemukan didominasi oleh fiber, ukuran mikroplastik large microplastic particle (LMP), untuk warna didominasi oleh hitam dan biru. Korelasi antara jumlah mikroplastik saluran pencernaan, insang dan total mikroplastik pada S. indicus tidak memiliki hubungan atau berkorelasi terhadap jumlah mikroplastik pada saluran pencernaan E. affinis. Kata kunci: E. affinis, Korelasi, Mikroplastik, PPP Lempasing, S. indicus.
Sign in to start a discussion.
More Papers Like This
IDENTIFIKASI MIKROPLASTIK PADA IKAN TONGKOL (Euthynnus affinis) SEBAGAI BIOINDIKATOR DI PERAIRAN TELUK KOTA KUPANG
This Indonesian study examined microplastic contamination in the digestive tracts of tongkol fish (Euthynnus affinis) from two sites in Kupang Bay. Microplastics were found in all 16 sampled fish, with fibers and fragments being the most common shapes, confirming fish as indicators of coastal plastic pollution.
Analisis Kandungan Mikroplastik Pada Saluran Pencernaan Ikan Di Ppi Selili Samarinda Kalimantan Timur
Researchers examined the digestive tracts of five commercially important fish species caught at a fish landing site in East Kalimantan, Indonesia, and found microplastics in all of them, with fibres and fragments being the most common types. This documents microplastic contamination in seafood from Indonesian waters and raises concerns about human dietary exposure through fish consumption.
Analisis Mikroplastik Pada Saluran Pencernaan Ikan Kembung (Rastrelliger Sp.) di Pelabuhan Perikanan Samudera Belawan, Sumatera Utara
Indonesian researchers analyzed microplastics in the digestive tracts of mackerel fish landed at Belawan fishing port, examining both the characteristics of particles and their relationship to fish size. The presence of microplastics in commercially important fish species represents a direct pathway for human dietary exposure.
Microplastic contained in gill, stomach and intestine of milkfish (Chanos chanos) and chub mackerel (Scomber japonicus) at Rau Market, Serang City, Banten
Researchers examined microplastic contamination in the gills, stomachs, and intestines of milkfish and chub mackerel from an Indonesian market, finding microplastic particles present across all organs in both commercially important fish species.
Identification of Microplastic in the Digestive Tracts of Mackerel Tuna, Lemuru and Sea Water from Pangandaran, Indonesia
Researchers examined the digestive tracts of mackerel tuna and lemuru fish from coastal waters in Pangandaran, Indonesia, and found microplastics in both species. Mackerel tuna contained mostly fragment-type microplastics while lemuru had primarily fiber-type particles, with polypropylene and polyester identified as the dominant polymer types. The study highlights the extent of microplastic contamination in commercially important fish species and the potential for human exposure through seafood consumption.