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61,005 resultsShowing papers similar to Identifikasi Cemaran Mikroplastik pada Ikan Konsumsi yang di Budidayakan di Perairan Rawa Pening
ClearKarakteristik Mikroplastik Pada Ikan Laut Konsumsi Yang Didaratkan Di Bali
Researchers characterized microplastic contamination in commercially consumed marine fish landed in Bali, Indonesia, examining microplastic presence, type, and polymer composition across multiple fish species. The study found widespread microplastic ingestion in food fish, raising concerns about human dietary exposure through seafood consumption in the region.
Kajian Mikroplastik pada Ikan Konsumsi Masyarakat di Teluk Palu, Sulawesi Tengah
Researchers found microplastics in the digestive tracts of commercially consumed fish species in Palu Bay, Indonesia, documenting plastic contamination in a local food source and raising concerns about human exposure through seafood consumption in the region.
Identifikasi Cemaran Mikroplastik pada Ikan Nila (Oreochromis niloticus) dan Ikan Puyau (Osteochilus vittatus) di Perairan Waduk Benanga, Samarinda
Researchers examined tilapia and puyau fish from the Benanga Reservoir in Samarinda, Indonesia, and found microplastic contamination in all 12 fish samples. A total of 155 microplastic particles were detected across the gills and digestive tracts, with fiber-type particles dominating in both species. The study highlights that plastic waste mismanagement around the reservoir is leading to microplastic accumulation in locally consumed fish.
Identifikasi Mikroplastik pada Air, Sedimen, dan Ikan Nila (Oreochromis niloticus) di Sungai Porong, Kabupaten Sidoarjo, Jawa Timur
Researchers identified microplastics in water, sediment, and Nile tilapia (Oreochromis niloticus) tissues, documenting contamination across multiple environmental compartments in a freshwater system. The presence of microplastics in a commercially important fish species raises concerns for food safety and ecosystem health.
Identifikasi Mikroplastik pada Insang dan Saluran Pencernaan Ikan Nila (Oreochromis niloticus) di Danau Toba Kabupaten Simalungun
Researchers identified microplastics in the gills and digestive tracts of tilapia cultivated in floating net cages in Lake Toba, Indonesia. The study documented various shapes and colors of microplastic particles across both organs, raising concerns about microplastic accumulation in farmed fish and the potential risk to food safety for local communities.
Karakteristik mikroplastik pada ikan layang (Decapterus ruselli) dan ikan nila (Oreochromis niloticus) di Pasar Rau, Kota Serang
This Indonesian study detected microplastics in the digestive tracts of two common fish species — mackerel and tilapia — sold at a local market. The presence of plastics in both marine and freshwater fish raised concerns about consumer exposure through seafood consumption.
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.
Cemaran Mikroplastik pada Ikan Pindang dan Potensi Bahayanya terhadap Kesehatan Manusia, Studi Kasus di Bogor
Researchers detected microplastic contamination in pindang fish (Indonesian salted boiled fish) produced in Bogor, Indonesia, identifying the contamination as originating from both the raw fish and the salt used in processing, with potential health implications for consumers.
Analisis Kandungan Mikroplastik Pada Ikan Pelagis Dan Demersal Yang Didaratkan Di Pelabuhan Perikanan Banjar Raya Banjarmasin Provinsi Kalimantan Selatan
Researchers examined microplastic contamination in both pelagic and demersal fish landed at a fishing port in South Kalimantan, Indonesia, finding an average of 8.3 microplastic particles per pelagic individual and 5.1 per demersal individual with moderate overall pollution levels. Fibres and fragments were the dominant forms detected. These findings demonstrate that commercially caught fish in Indonesian waters carry microplastics into the human food supply.
IDENTIFIKASI TIPE DAN KELIMPAHAN MIKROPLASTIK PADA IKAN NILA (Oreochromis niloticus) DI WADUK LAHOR KABUPATEN MALANG JAWA TIMUR
This Indonesian-language study examined microplastic contamination in the digestive tracts of Nile tilapia farmed in Lahor Reservoir, East Java, finding plastic particles at multiple sampling stations across the reservoir. Because tilapia is a widely consumed fish in the region, the results point to a direct route through which microplastics — sourced from inflowing rivers and residential areas — can enter the human food chain.
Kontaminasi Mikroplastik pada Ikan Kiper (Scatophagus argus) dari Laguna Segara Anakan, Cilacap
Researchers found microplastics in 100% of kiper fish examined from the Segara Anakan Lagoon in Indonesia, averaging 22 plastic particles per fish, spanning 12 different polymer types including polystyrene, PVC, and polyethylene. Fragment shapes dominated, and most plastics were black or transparent. The high contamination level in this Indonesian coastal lagoon fish — which is consumed by local communities — underscores both the severity of plastic pollution in Southeast Asian waters and the potential for human dietary exposure.
Investigation of microplastic ingestion in commercial fish from Surabaya river, Indonesia
Researchers examined microplastic contamination in commercial fish species from the Surabaya River in Indonesia, a major urban waterway used for both clean water supply and fisheries. They found microplastics present in all fish studied, with variations in abundance linked to feeding behavior and habitat. The findings raise concerns about food safety for communities that rely on river fish as a dietary staple.
Bioakumulasi Mikroplastik Pada Daging Ikan Nila (Oreochromis niloticus) di Keramba Jaring Apung Ranu Grati, Pasuruan, Jawa Timur
Researchers investigated microplastic bioaccumulation in the muscle tissue of Nile tilapia (Oreochromis niloticus) from floating net cages in Ranu Grati Lake, Pasuruan, East Java, quantifying microplastic uptake and assessing the physiological risks these synthetic polymer particles pose to fish and human consumers.
ISOLATION AND CHARACTERISATION OF MICROPLASTIC ABUNDANCE IN Lates calcarifer FROM SETIU WETLANDS, MALAYSIA
This study successfully isolated and characterized microplastics from wild and cage-cultured Asian sea bass in Malaysian wetlands, finding microplastics in both wild and farmed fish. The results confirm that aquaculture fish are also exposed to environmental microplastic contamination, raising questions for food safety.
Pengaruh Konsumsi Ikan Yang Terkontaminasi Mikroplastik Terhadap Kesehatan Tubuh
This Indonesian-language review synthesises evidence that consuming fish contaminated with microplastics can harm human health, as microplastic particles and adsorbed chemical pollutants transfer from fish tissue into the human body upon ingestion. The paper highlights the fish-to-human exposure pathway as a key public health concern, particularly in regions where seafood is a dietary staple.
Occurrence of microplastics in commercial fish species from the Ethiopian rift valley’s Lake Hawassa, Ethiopia
Researchers documented microplastic occurrence in commercial fish species from Ethiopian rift valley lakes, detecting plastics in gut contents across multiple species and characterizing polymer types linked to local agricultural and urban pollution sources.
Identifikasi Mikroplastik pada 5 Spesies Ikan Laut di TPI Tanjung Beringin Kabupaten Serdang Bedagai
Researchers identified microplastics in the gills and digestive tracts of five species of marine fish sold at a fish market in Serdang Bedagai, Indonesia. The study found microplastics of various shapes and colors across all sampled species, highlighting the potential for human exposure to microplastics through consumption of commercially available seafood.
Potentially pathogenic bacteria in the plastisphere from water, sediments, and commercial fish in a tropical coastal lagoon: An assessment and management proposal
Researchers examined the types of potentially harmful bacteria living on microplastics found in water, sediments, and commercial fish in a tropical coastal lagoon. They identified several pathogenic species colonizing the microplastic surfaces, which could pose risks when contaminated fish are consumed by humans. The study proposes management strategies to reduce the public health threat of microplastic-associated pathogens in fisheries.
Microplastic pollution in Surabaya River Water and Aquatic Biota, Indonesia
Researchers surveyed microplastic contamination in the Surabaya River and its aquatic organisms in Indonesia, finding MPs in water, sediment, and multiple fish species, with fiber concentrations highest near densely populated urban areas and fish tissue contamination raising concerns for human exposure through seafood consumption.
Identification of the Existence and Type of Microplastic in Code River Fish, Special Region of Yogyakarta
Researchers identified the presence and polymer types of microplastics in fish from the Code River in Yogyakarta, Indonesia, providing early evidence of microplastic contamination in riverine fish from this urban waterway.
Identifikasi Keberadaan Mikroplastik pada Insang dan Pencernaan Barbodes binotatus Di Sungai Kalilo Pengantigan Banyuwangi
An Indonesian study found microplastics in both the gill tissues and digestive tracts of Barbodes binotatus fish caught from the Kalilo River, identifying fragments and fibers as the predominant types. The presence of microplastics in fish tissues from a river system reflects the accumulation of plastic pollution in aquatic food chains.
Microplastic Contamination in Fish, Water and Sediment from Milkfish Ponds: Environmental Insights from Kasemen District, Banten Province, Indonesia
Researchers assessed microplastic contamination in the flesh, intestines, stomach, gills, water, and sediment of milkfish from aquaculture ponds in Kasemen District, Banten Province, Indonesia, across six sampling stations. Microplastics were detected in all matrices, with the study providing environmental insights into how household plastic waste entering ponds degrades and accumulates throughout the aquatic food chain.
Kontaminasi Mikroplastik Di Usus Dan Insang Ikan Laut Komersial Dari Teluk Jakarta
Researchers investigated microplastic occurrence and characteristics in commercially important marine fish from Jakarta Bay, analyzing 160 specimens across eight species. MPs were found in a high proportion of fish, with fiber types dominating, and contamination levels reflected the heavily industrialized and densely populated coastal setting.
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.