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61,005 resultsShowing papers similar to MIKROPLASTIK PADA KERANG DARAH Anadara granosa (Linnaeus, 1758) YANG DI DARATKAN DI PELABUHAN PERIKANAN PANTAI (PPP) LEMPASING, BANDAR LAMPUNG DAN TEMPAT PELELANGAN IKAN (TPI) LABUHAN MARINGGAI, LAMPUNG TIMUR
ClearIDENTIFIKASI KEBERADAAN DAN JENIS MIKROPLASTIK PADA KERANG DARAH (Anadara granosa) DI PERAIRAN TANJUNG TIRAM, TELUK AMBON
Researchers identified microplastics in blood cockles (Anadara granosa) from Tanjung Tiram in Ambon Bay, Indonesia, finding 360 fiber particles and 61 fragment particles in examined specimens. The presence of microplastics in this commercially consumed shellfish raises concerns about chemical transfer to both marine biota and human consumers.
Kelimpahan Mikroplastik pada berbagai ukuran Kerang Hijau (Perna viridis) dan Kerang Darah (Anadara granosa) yang didaratkan di TPI Bungo, Demak dan TPI Kedungmalang, Jepara, Jawa Tengah
Researchers examined microplastic abundance across different size classes of green mussels (Perna viridis) and blood cockles (Anadara granosa) landed at two fish markets in Central Java, Indonesia, analyzing particle shape, color, and the relationship between shell size and microplastic load in the bivalves.
Keberadaan mikroplastik pada kerang darah (Anadara granosa) dari TPI Tambak Lorok, Semarang
Researchers in Semarang, Indonesia, found microplastics in blood cockles (Anadara granosa) sold at a local fish market, with fibers and fragments being the most common types identified under microscopy. The study also tested whether washing the shellfish before analysis affected results, finding contamination was present regardless. Because blood cockles are a widely consumed seafood in the region and are filter feeders that concentrate particles from the water column, this finding signals a direct route for microplastic ingestion by local populations.
Microplastic abundance in blood cockle Anadara granosa (linnaeus, 1758) at Lada Bay, Pandeglang, Banten
Microplastic abundance and types were analyzed in blood cockles (Anadara granosa), water, and sediment from Lada Bay, Pandeglang, Indonesia. The study documented the presence of microplastics in all sample types, with cockles accumulating particles through their filter-feeding activity in the contaminated bay.
Perbandingan Kandungan Mikroplastik Pada Kerang Darah Dan Kerang Tahu Dari Perairan Desa Banyuurip, Gresik
Researchers compared microplastic accumulation in two commercially harvested bivalve species (Tegilarca granosa and Meretrix meretrix) from coastal waters in Gresik, Indonesia, finding differences in microplastic content linked to the species' filter-feeding behavior and proximity to pollution sources.
Microplastic contamination on Anadara granosa Linnaeus 1758 in Pangkal Babu mangrove forest area, Tanjung Jabung Barat district, Jambi
Researchers found microplastics in 100% of blood cockle (Anadara granosa) samples, as well as in sediment and water from a mangrove forest area in Tanjung Jabung Barat, Indonesia, with fiber, fragment, and film types detected at concentrations posing potential food safety concerns.
Identifikasi mikroplastik pada anadara antiquata di pesisir desa Garassikang kabupaten Jeneponto
Researchers identified microplastics from the shells and tissues of blood ark shells (Anadara antiquata) collected from coastal areas of Jeneponto Regency, Indonesia, finding diverse plastic particles and highlighting contamination in commercially harvested bivalves.
Karakteristik, Warna, Dan Ukuran Mikroplastik Yang Ditemukan Pada Air Dan Kerang Hijau Di Pulau Pasaran, Lampung
This Indonesian study documented the shape, color, and size characteristics of microplastics found in both water and green mussels from Pasaran Island, Lampung. Green mussels are filter feeders that concentrate microplastics from the water, making them useful bioindicators and raising concerns about consumer exposure through shellfish consumption.
Implication of microplastic presence in sediment and blood clams Anadara granosa (Mollusca: Bivalvia) in the Musi Estuary, Indonesia
Researchers measured microplastic concentrations in sediment and blood clam (Anadara granosa) tissues from coastal collection sites, finding MPs in all samples and identifying specific polymer types consistent with regional fishing gear and packaging waste sources.
Characteristics, Abundance and Polymer Type of Microplastics in Anadara granosa (Blood Clam) from Coastal Area of Palopo City
Researchers analyzed microplastic contamination in blood clams collected from coastal waters near Palopo City, Indonesia. As filter feeders, these bivalves are particularly vulnerable to ingesting microplastic particles, and the study documented the abundance and polymer types found in their tissues. The findings raise concerns about human exposure to microplastics through the consumption of commonly harvested shellfish.
Literature Review: Mikroplastik Pada Berbagai Jenis Kerang Serta Dampak Terhadap Kesehatan
This Indonesian literature review examined microplastic contamination in various shellfish species and its potential health impacts on consumers. Shellfish are filter feeders that accumulate microplastics from their surroundings, making them a direct route of human exposure through seafood consumption.
Microplastic Content in Blood Cockles (Anadara granosa) from the Coastal Waters of Tanah Merah Meranti Islands, Riau
This study measured microplastic content in blood cockles (Anadara granosa) collected from coastal waters of Tanah Merah Beach in the Meranti Islands, Riau, Indonesia. Microplastics were detected across all sampling locations, with residential and industrial zones near the coast associated with higher cockle contamination levels.
Isolation and identification of microplastic on the cockleshell of blood clam (Anadara Granosa Linn)
This study aimed to identify microplastics on the cockleshell surfaces of blood clams (Anadara granosa) sampled from five beaches, using NaCl separation and microscopy to characterize particle abundance and morphology on commercially harvested shellfish.
Beneath the surface: Exploring microplastic intricacies in Anadara granosa
Researchers examined blood cockles from major cultivation areas across Peninsular Malaysia and found microplastics in every sample tested. The most common particles were small fragments and fibers, with the highest contamination on the west coast, raising concerns about human exposure since Malaysia is the world's largest exporter of this popular shellfish.
Microplastic ingestion of blood cockles (Tegillarca granosa) in Kuala Juru, Pulau Pinang
Researchers quantified microplastic ingestion in blood cockles (Tegillarca granosa) collected from Kuala Juru, Pulau Pinang, Malaysia, identifying the types and abundances of microplastics present in these commercially harvested bivalves. The study documented microplastic contamination in this economically important shellfish species, raising concerns about human dietary exposure through seafood consumption.
Case Study of Microplastics on Blood Cockle from Three Traditional Markets in Semarang
This study detected microplastics in blood cockles purchased from traditional markets in Southeast Asia, finding contamination in commercially sold seafood. The results highlight microplastics as a food safety concern for consumers of bivalves in the region.
Spatial Distribution of Microplastic Contamination in Blood Clams (anadara Granosa) on the Jeneponto Coast, South Sulawesi
Researchers mapped the distribution of microplastic contamination inside blood clams (Anadara granosa) harvested along the Jeneponto coast of South Sulawesi, Indonesia. The highest microplastic levels were found in clams from mangrove ecosystems and residential waterways, while river areas showed the lowest contamination. Because blood clams are widely eaten as a daily food source, these findings raise direct concerns about microplastic ingestion by local populations.
DETECTION OF MICROPLASTICS IN BLOOD CLAM (Tegillarca granosa) AND GREEN MUSSEL (Perna viridis) FROM BERINGHARJO MARKET, YOGYAKARTA CITY
Microplastics were detected in blood clam and green mussel samples purchased from a market in Yogyakarta, Indonesia, with abundance and morphology data contributing to understanding of bivalve contamination in Indonesian coastal seafood.
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.
The spatial distribution and physico-chemical characteristic of microplastics in the sediment and cockle (Anadara granosa) from the coastal waters of East Java, Indonesia, and the health hazards associated with cockle consumption
Researchers surveyed microplastic contamination in coastal sediments and cockles along the East Java coast of Indonesia and assessed the potential health risks from consuming the shellfish. They found microplastics, predominantly fibers and fragments, in all sediment and cockle tissue samples, with consumers potentially ingesting tens of thousands of microplastic particles per year. The findings raise concerns about dietary microplastic exposure for communities that regularly eat shellfish from these waters.
Kontaminasi Mikroplastik pada Perna viridis di Teluk Lampung
Researchers found microplastic contamination in green mussels (Perna viridis) from Lampung Bay, Indonesia, with mean whole-tissue abundance of 0.53 particles/g, gill organs containing significantly more microplastics than digestive organs, and fiber fragments under 100 µm being the most common type.
Identifikasi Mikroplastik pada Sedimen Pantai Sukaraja, Lampung
Researchers identified and characterized microplastics in sediments from Sukaraja Beach in Bandar Lampung, Indonesia, finding 42 particles per sample including fibers, films, fragments, and pellets in transparent, blue, black, red, and brown colors at a uniform abundance of 93.34 particles/kg across all three sampling stations.
Akumulasi Mikroplastik Pada Bivalvia di Ekosistem Manggrove Desa Tanah Mea Kabupaten Donggala
Researchers investigated microplastic accumulation in two bivalve species within the mangrove ecosystem of Desa Tanah Mea, Indonesia, finding that Polymesoda erosa near residential areas contained 22.2 microplastic particles per individual — mostly fragments and fibers — compared to only 2.5 particles per individual in Anadara granosa near the coastline.
Analisis Mikroplastik Pada Kerang Kijing (Pilsbryoconcha exilis) Di Sungai Perancak, Jembrana, Bali
This Indonesian study examined microplastic contamination in freshwater mussels (Pilsbryoconcha exilis) from the Peranap River, finding that plastic debris in the river was a major source of microplastic exposure for these filter-feeding animals. The results raise concerns about microplastic accumulation in organisms consumed by local communities.