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"ABSTRAK Anadara granosa dan Cerithidea obtusa merupakan sumber makanan yang penting bagi masyarakat di Kabupaten Tanjung Jabung Barat, Jambi. Anadara granosa dan Cerithidea obtusa yang memiliki habitat di kawsan hutan mangrove, dapat menyebabkan organisme tersebut sangat rentan terkontaminasi berbagai bahan pencemar. Salah satu bahan yang dapat mencemari ekosistem mangrove yaitu mikroplastik. Fungsi hutan mangrove sebagai filter biologis alami marine debris yang berasal dari darat dan laut, dapat menyebabkan mikroplastik melimpah di kawasan hutan mangrove. Penelitian ini menggunakan sampel kerang Anadara granosa, keong Cerithidea obtusa, sedimen dan air. Hasil penelitian menunjukkan 100% sampel mengandung mikroplastik. Jenis mikroplastik yang ditemukan pada sampel adalah fiber, film dan fragmen. Fiber adalah jenis mikroplastik yang paling banyak ditemukan pada sampel kerang dan air. Pada sampel kerang, fiber ditemukan sebanyak 180,6 ± 21,22 partikel/individu dan 4,1 ± 0,43 partikel/g kerang. Fiber ditemukan pada sampel air sebanyak 128,3 ± 0,15 partikel/L. Sungai di indikasikan sebagai sumber mikroplastik menuju laut. Stasiun 1 pengambilan sampel yang berada di dekat muara sungai memiliki konsentrasi mikroplastik yang lebih tinggi dengan jumlah 448,3 ± 53,92 mikroplastik/individu, dibandingkan dengan stasiun 3 yang hanya 420,3 ± 42,66 mikroplastik/individu. Berdasarkan uji korelasi, jumlah mikroplastik pada Anadara granosa berkorelasi dengan massa kerang. Korelasi juga ditunjukkan antara jumlah mikroplastik pada air dan kerang, serta mikroplastik pada sedimen dan kerang secara keseluruhan. Hasil penelitian pada keong Cerithidea obtusa ditemukan mikroplastik sebanyak 167 ± 16,01 partikel/individu. Film merupakan jenis mikroplastik yang paling banyak ditemukan pada keong sebanyak 5,4 ± 0,69 partikel/g keong. Film juga merupakan jenis mikroplastik yang paling banyak ditemukan pada sedimen yaitu 3,7 ± 0,28 partikel/g. Berdasarkan stasiun pengambilan sampel, stasiun 1 memiliki jumlah mikroplastik tertinggi 190 ± 37,74 partikel/stasiun. Hasil analisis korelasi menunjukkan bahwa massa Cerithidae obtusa berkorelasi terhadap jumlah mikroplastik yang mencemarinya. Korelasi juga ditunjukkan antara mikroplastik jenis film pada sedimen terhadap mikroplastik jenis film pada keong.

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ABSTRACT

Anadara granosa and Cerithidea obtusa are important food sources for people in the West Tanjung Jabung District, Jambi. Anadara granosa and Cerithidea obtusa which have habitat in the mangrove forest area, can cause these organisms to be very susceptible to contamination with various pollutants. One ingredient that can pollute mangrove ecosystems is microplastic. The function of mangrove forests as a biological filter for marine debris that originates from land and sea can cause microplastic abundance in the mangrove forest area. This study used samples of Anadara granosa mussels, Cerithidea obtusa snails, sediment and water. The results showed that 100% of the samples contained microplastic. The types of microplastic found in the sample are fiber, film and fragments. Fiber is the type of microplastic that is most commonly found in mussels and water samples. In the mussels sample, fiber was found as much as 180.6 ± 21.22 particles/individual and 4.1 ± 0.43 particles/g mussel. Fiber is found in water samples of 128,3 ± 0.15 particles/L. The river is indicated as a microplastic source to the sea. Station 1 sampling near the river mouth has a higher microplastic concentration with 448.3 ± 53.92 microplastic/indiviual, compared with station 3 which is only 420.3 ± 42.66 microplastic/individual. Based on the correlation test, the number of microplastic in Anadara granosa correlated with the mass of mussel. Correlation is also shown between the number of microplastic in water and mussel, as well as microplastic in sediments and mussels as a whole. The results of the study on the Cerithidea obtusa snail were found microplastic as much as 167 ± 16.01 particles/individual. The film is a type of microplastic which is most commonly found in snails as much as 5.4 ± 0.69 particles/g snail. Film is also the most common type of microplastic found in sediments, namely 3.7 ± 0.28 particles/g. Based on the sampling station, station 1 had the highest microplastic number of 190 ± 37.74 particles/station. The results of the correlation analysis showed that the mass of the Cerithidea obtusa correlated with the number of microplastic contaminants. Correlation was also shown between microplastic types of films in sediments to microplastic types of films in snails."

"The research of the Gastropoda community structure in Pangkal Babu Mangrove forest was conducted on January until February 2012. The researcher used Purposive Random Sampling Method. There are 1950 Gastropods in mangrove forest of Pangkal Babu which consist of 15 species, 11 genera, and six families. From the 15 species, there are two types of the species which have a high frequency of subsistence. They are Cerithidea obtusa and Cassidula aurisjudae, that is 93.33% for each. The range of Gastropoda relative density is between 28 ind/m2-58.1 ind/m2, species diversity ranges from 1.5 to 1.9, evenness of species is between 0.553 to 0.684 and the distribution of species ranges from 2.4 to 3.9. In measuring of abiotic parameter, the temperature showed 29oC--34oC. Substrate salinity values at the research site varies between 20 ? -- 26 ?. Substrate type heavy foundation at Station 1, 2, and 3 in the Pangkal Babu Mangrove forest is a kind of mud contour and the degree of acidity of the mud (pH) varies between 5- 7. Spearman correlation test results indicated there is no correlation between the density of Gastropoda and abiotic parameters."

"Plastik merupakan bahan stabilitas tinggi hasil polimerisasi monomer dengan tingkat penggunaan yang tinggi. Sampah plastik berbahaya bagi lingkungan karena partikel penyusunnya memiliki ketahanan dan kestabilan tinggi sehingga proses degradasinya berlangsung lama. Di lingkungan perairan, plastik akan mengalami degradasi atau penguraian menjadi partikel kecil yang disebut mikroplastik (<5 mm). Partikel mikroplastik berpotensi termakan oleh berbagai biota perairan sehingga membahayakan siklus rantai makanan melalui proses biomagnifikasi. Penelitian ini bertujuan untuk menganalisis karakteristik mikroplastik (bentuk, ukuran, dan jenis polimer) pada air, sedimen dan ikan belanak Mugil cephalus (Linnaeus, 1758) pada organ dan jaringan (daging, insang, saluran pencernaan) di Muara Sungai Blanakan, Subang, Jawa Barat. Metode penelitian ini diawali dengan pengambilan sampel dengan  air  diambil sebanyak 50 L lalu disaring menggunakan plankton net hingga tertampung volume air 1000 mL, sampel sedimen diambil menggunakan Vanveen grab hingga tertampung pada jar 500 mL dan sampel ikan belanak diambil 10 ekor menggunakan bubu. Ekstraksi sampel sedimen dilakukan dengan pemberian larutan NaCl jenuh dengan perbandingan 1 (sedimen): 2 (NaCl jenuh), kemudian diberi larutan H2O2 30% + FeSO4 0,05 M  dengan perbandingan 1:1 untuk sampel air dan sedimen. Ekstraksi sampel ikan dilakukan dengan mengambil jaringan dan organ yang digunakan, ditimbang dan dan diberi larutan KOH 10% sebanyak 50 mL. Sampel air, sedimen dan ikan disaring menggunakan kertas saring Whatman dan diidentifikasi mikroplastik menggunakan mikroskop olympus CX22LED. Analisis polimer mikroplastik dilakukan dengan metode Raman Spectroscopy. Uji statistik seperti uji kruskal-walis, one way anova, dan uji regresi spearman dan pearson digunakan untuk menganalisis data yang diperoleh. Hasil penelitian menunjukkan rata-rata total kelimpahan mikroplastik pada air 710 ± 183,34  partikel meter-3, sedimen 879,63 ± 205,13 partikel Kg-1 dan ikan belanak 210,8 ± 108,80 partikel individu-1. Nilai kelimpahan mikroplastik ikan belanak jika diurutkan dari yang tertinggi hingga terkecil adalah daging, saluran pencernaan, dan insang. Secara keseluruhan, bentuk dan ukuran mikroplastik yang paling banyak ditemukan adalah fiber dan <300 µm. Polimer mikroplastik yang dominan adalah PET, PP, dan PVC. Berdasarkan hasil uji beda nyata kelimpahan mikroplastik antar organ dan jaringan ikan belanak menunjukan tidak memiliki perbedaannya yang signifikan. Hasil uji korelasi Spearman menunjukan adanya korelasi antara kelimpahan mikroplastik di air dan sedimen Muara Sungai Blanakan terhadap kelimpahan mikroplastik di ikan belanak.

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Plastik is a high-stability material resulting from the polymerization of monomers, with a high level of usage. In aquatic environments, plastic undergoes photo-oxidative degradation by UV radiation from the sun and chemical processes, leading to the breakdown of plastic waste into small particles known as microplastics (<5 mm). Microplastic particles have the potential to be ingested by various aquatic organisms, posing a risk to the food chain through biomagnification. This study aims to analyze the characteristics of microplastics in water, sediment, and the flathead grey mullet (Mugil cephalus) in different organs and tissues (muscle, gills, digestive tract) in the Blanakan River Estuary, Subang, West Java, based on their shape, size, and polymer types. Water samples were collected in a volume of 50 L, filtered using a plankton net to obtain a final volume of 1000 mL. Sediment samples were collected using a Vanveen grab and stored in 500 mL jars, while flathead grey mullet samples were collected using bubu (10 individuals). Sediment sample extraction was performed using a saturated NaCl solution with a ratio of 1 (sediment) to 2 (saturated NaCl solution), followed by the addition of a 30% H2O2 + 0.05 M FeSO4 solution in a 1:1 ratio for water and sediment samples. Fish sample extraction involved weighing and placing the tissues and organs in a glass beaker, followed by the addition of a 10% KOH solution in a volume of 50 mL. The water, sediment, and fish samples were then filtered using Whatman filter paper with the assistance of a vacuum pump, and placed in Petri dishes for microplastic identification using an Olympus CX22LED microscope. Polymer analysis of microplastics was performed using Raman Spectroscopy. Kruskal-Wallis and one-way ANOVA tests were used to determine significant differences in the abundance and composition of microplastics (size and shape) in water, sediment, flathead grey mullet, and their respective organs. Spearman and Pearson correlation tests were used to investigate the influence of water and sediment, as well as morphometric values, on microplastic accumulation in flathead grey mullet. The research findings showed an average total abundance of microplastics in water to be 710 ± 183,34 particles meter-3, in sediment to be 879,63 ± 205,13 particles kilogram-1, and in flathead grey mullet to be 210,8 ± 108,80 particles individual-1. When ranked in descending order, the abundance of microplastics in the three parts of the flathead grey mullet were as follows: flesh, digestive tract, and gills. Overall, the most commonly found forms and sizes of microplastics were microplastic fibers and those below 300 µm. The polymer analysis revealed that the microplastics found in the Blanakan River Estuary were dominated by PET (40%),  PP (40%), and PVC (20%). Based on the significant difference test for microplastic abundance among different parts of the flathead grey mullet, no significant differences were found. The Spearman correlation test indicated a correlation between the abundance of microplastics in water and sediment in the Blanakan River Estuary and the abundance of microplastics in flathead grey mullet."

"Ikan Nila Oreochromis niloticus (Linnaeus, 1758) pada Setu Babakan Jagakarsa, Jakarta Selatan banyak dikonsumsi oleh masyarakat sekitar. Penelitian ini bertujuan untuk menganalisis presentase kelimpahan bentuk mikroplastik pada insang, lambung, dan usus ikan Nila Oreochromis niloticus (Linnaeus, 1758) yang diperoleh dari Setu Babakan, Jagakarsa, Jakarta Selatan. Penelitian dilakukan di Setu Babakan dan Laboratorium Biologi Laut, Departemen Biologi FMIPA Universitas Indonesia. Sampel ikan Nila yang diteliti sebanyak 18 ekor dengan panjang berkisar 13-20 cm. Sampel diisolasi untuk kemudian dilakukan metode destruksi dengan menggunakan larutan HNO3 65% sehingga dapat dilakukan proses analisis kelimpahan dan bentuk mikroplastik di bawah mikroskop. Hasil penelitian menunjukkan terdapat total kelimpahan rata-rata pada sampel air permukaan sebesar 308,00 ± 128,29 partikel/liter; insang sebesar 7.820 ± 1.847 partikel/individu; pada sampel lambung sebesar 2.588,11 ± 751,33 partikel/individu; dan pada sampel usus sebesar 5.178,16 ± 2.098,55 partikel/individu. Total kelimpahan mikroplastik terbesar terdapat pada sampel insang dan terendah pada sampel lambung. Hasil uji statistik Kruskal-Wallis menunjukkan tidak ada perbedaan presentase bentuk mikroplastik (fiber, film, fragmen dan granula) yang signifikan pada sampel insang, lambung dan usus ikan Nila Oreochromis niloticus (Linnaeus,1758) di Setu Babakan Jagakarsa, Jakarta Selatan

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Nile Tilapia Oreochromis niloticus (Linnaeus, 1758) in Setu Babakan Jagakarsa, South Jakarta is widely consumed by the local communities. This study analyzed percentage abudance of microplastics form in the gills, stomach, and intestinal of Nile Tilapia Oreochromis niloticus (Linnaeus, 1758) from Setu Babakan Jagakarsa, South Jakarta. This study was conducted at Setu Babakan and Marine Biology Laboratory, Departement of Biology FMIPA UI, Depok. The samples of Nile Tilapia studied were 18 individuals with the same relative length between 13-20 cm. The sample were isolated in order to do the destruction methods with HNO3 65%, then analysis of abundance and shape of microplastics can be done. The results show that the average total abudance in the gills sample was 7.820 ± 1.847 particles/individual; in the stomach was 2.588,11 ± 751,33 particles/individual; and in the intenstine was 5.178,16 ± 2.098,55 particles/individuals. The highest total abudance of microplastics was found in the gills and the lowest in the stomach samples. The results from Kruskal-Wallis statistical test shows there was no significant difference in the percentage of microplastics form (fiber, film, fragment, and granules) in the gills, stomach, and intestinal samples of Nile Tilapia Oreochromis niloticus (Linnaeus,1758) in Setu Babakan, Jagakarsa, South Jakarta."

"Plastik yang terdapat di laut dapat terdegradasi menjadi partikel kecil < 5mm yang dikenal sebagai mikroplastik. Mikroplastik mengandung toksik dan memiliki kemampuan dalam mengikat zat beracun pada lingkungan yang berbahaya apabila tertelan oleh biota laut, terutama filer feeder dan deposit feeder. Telescopium telescopium merupakan organisme deposit feeder. ditemukannya mikroplastik dalam tubuh organisme deposit feeder dapat menyebabkan adanya biomagnifikasi. Penelitian ini bertujuan untuk mengetahui jenis dan jumlah partikel mikroplastik, yang terdapat di dalam tubuh T. telescopium, organ pernapasan dan pencernaan T. telescopium, serta pada sampel sedimen dan air. Penelitian ini juga bertujuan untuk mengetahui korelasi antara jumlah mikroplastik yang terdapat pada sedimen dan air di ekosistem mangrove Pulau Rambut, terhadap jumlah mikroplastik di dalam tubuh T. telescopium. Hasil menunjukkan bahwa, mikroplastik ditemukan di dalam tubuh T. telescopium, serta pada sampel sedimen, dan air. Organ pernapasan mengandung lebih banyak mikroplastik dibandingkan organ pencernaan. Korelasi positif ditemukan antara jumlah mikroplastik pada lingkungan terhadap jumlah mikroplastik di dalam tubuh T. telescopium. Film merupakan tipe mikroplastik yang paling banyak ditemukan pada seluruh sampel.

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Plastic in the ocean can be degraded into small sized particles Plastic in the ocean can be degraded into small sized particles <5mm known as microplastics. Microplastics are toxic and have the ability to bind toxic substances in dangerous environments when ingested by marine biota, especially filter feeders and feeder deposits. Telescopium telescopium is a feeder deposit organism. the discovery of microplastics in the body of feeder deposit organisms can lead to biomagnification.

This study aims to determine the type and number of microplastic particles contained in the body of T. telescopium, the respiratory and digestive organs of T. telescopium, as well as in sediment and water samples. This study also aims to determine the correlation between the number of microplastics in the sediment and water in the Pulau Rambut mangrove ecosystem and the number of microplastics in the body of T. telescopium.

The results showed that, microplastics were found in the body of T. telescopium, as well as in sediment and water samples. Respiratory organs contain more microplastics than digestive organs. A positive correlation was found between the number of microplastics in the environment and the number of microplastics in the body of T. telescopium. Film is the type of microplastic that is mostly found in all samples."

"Analisis Kelimpahan Mikroplastik pada Insang dan Saluran Pencernaan Ikan Sapu-sapu Pterygoplichtys pardalis (Castelnau, 1855), Air, dan Sedimen di Ciliwung Daerah Tanjung Barat dan Daerah MT Haryono, Jakarta Selatan

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Abundance Analysis of Microplastic in Gills dan Digestive Tract of Sailfin Catfish Pterygoplichthys pardalis (Castelnau, 1855), Water, and Sediment in Tanjung Barat Area and MT Haryono Area, Ciliwung, South Jakarta"

"Plastik merupakan salah satu barang yang memiliki tingkat penggunaan yang tinggi hingga mencapai skala produksi sebesar 300 juta ton pertahun. Limbah plastik di perairan membutuhkan waktu hingga ratusan tahun untuk terdegradasi karena karakteristiknya yang kuat, tahan lama, dan tahan terhadap suhu tinggi. Proses degradasi limbah plastik di perairan disebabkan oleh sinar UV yang menyebabkan terjadinya perubahan bentuk dan ukuran menjadi lebih kecil (mikroplastik) atau tercampur di dalam air (< 5mm). Ukuran yang kecil menyebabkan mikroplastik dapat dengan mudah termakan oleh biota perairan, seperti ikan atau melalui mangsanya yang lebih kecil. Penelitian ini bertujuan untuk menganalisis komposisi dan kelimpahan mikroplastik berdasarkan bentuk, ukuran, dan polimer pada air, sedimen, serta organ dan jaringan ikan kiper Scatophagus argus (Linnaeus, 1766) di muara Sungai Blanakan, Subang, Jawa Barat. Metode penelitian dilakukan dengan pengambilan sampel air sebanyak 50 L lalu disaring menggunakan plankton net hingga mendapatkan 1 L sampel air, pengambilan sedimen dilakukan menggunakan Van Veen grab lalu dimasukkan ke dalam jar HDPE 500 ml, dan pengambilan sampel ikan sebanyak 10 individu dilakukan menggunakan alat tangkap bubu. Sampel air ditambahkan larutan H2O2 30% dan FeSO4 0,05 M masing-masing sebanyak 25 ml. Sampel sedimen dicampurkan larutan NaCl dengan perbandingan sebesar 1 : 2 dan didiamkan. H2O2 30% dan FeSO4 0,05 M ditambahkan hingga sampel terendam. Sampel ikan dibedah untuk diambil bagian insang, saluran pencernaan, dan daging. Setiap bagian dihancurkan menggunakan larutan KOH 10% dengan perbandingan 1 : 10 dan didiamkan. Sampel air, sedimen, dan ikan dipipet sebanyak 40 ml dan disaring menggunakan kertas saring cellulose nitrate dengan bantuan vacuum pump lalu kertas saring ditempatkan di cawan petri. Sampel air, sedimen, dan ikan kiper diamati pada kertas saring menggunakan mikroskop Olympus CX22 dan analisis polimer mikroplastik dilakukan dengan metode Raman Spectroscopy. Analisis statistik dilakukan menggunakan uji one way ANOVA, Kruskal wallis, dan Pearson. Hasil penelitian menunjukkan rerata kelimpahan mikroplastik pada sampel air sebesar 710 partikel/m3, sedimen sebesar 879,63 partikel/kg, dan ikan sebesar 74,77 partikel/individu. Kelimpahan mikroplastik dari yang tertinggi hingga terkecil pada ikan kiper terdapat di daging, saluran pencernaan, dan insang. Komposisi mikroplastik paling dominan berupa bentuk fiber dan ukuran < 300 µm. Polimer yang ditemukan bertipe PET, PP, dan PVC. Uji Kruskal wallis menunjukkan terdapat perbedaan secara nyata kelimpahan mikroplastik antar organ dan jaringan ikan. Uji Pearson menunjukkan adanya korelasi kelimpahan mikroplastik pada air dan sedimen terhadap kelimpahan mikroplastik di ikan.

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Plastic is one of the commodities with a high level of usage, reaching a production scale of 300 million tons per year. Plastic waste in water takes hundreds of years to degrade due to its strong, durable, and heat-resistant characteristics. The degradation process of plastic waste in water is caused by UV radiation, which leads to changes in shape and size, resulting in smaller particles (microplastics) or mixing with water (< 5mm). The small size of microplastics makes them easily ingestible by aquatic organisms, such as fish, or through their prey, which are smaller in size. This research aims to analyze the composition and abundance of microplastics based on their form, size, and polymer in water, sediments, as well as the organs and tissues of the Scatophagus argus(Linnaeus, 1766) fish in the estuary of the Blanakan River, Subang, West Java. The research method involved collecting 50 liters of water samples, which were then filtered using a plankton net to obtain a 1-liter water sample. Sediment samples were collected using a Van Veen grab and placed in a 500 ml HDPE jar, while fish samples were collected using a fish trap, with a total of 10 individuals. The water sample was treated with 25 ml of 30% H2O2 and 0.05 M FeSO4 solutions. The sample was mixed with a NaCl solution in a ratio of 1:2 and left to settle. H2O2 (30%) and FeSO4 (0.05 M) were added until the sample was fully submerged. The samples were dissected to obtain gill, digestive tract, and muscle tissue. Each part was crushed using a 10% KOH solution in a 1:10 ratio and left to settle. Water, sediment, and fish samples were pipetted (40 ml) and filtered using cellulose nitrate filter paper with the assistance of a vacuum pump, and the filter papers were placed in Petri dishes. The water, sediment, and fish samples were observed on the filter paper using an Olympus CX22 microscope, and the analysis of microplastic polymers was conducted using Raman Spectroscopy. Statistical analysis was performed using one-way ANOVA, Kruskal-Wallis, and Pearson tests. The results of the study showed that the average abundance of microplastics in water samples was 710 particles/m3, in sediments it was 879.63 particles/kg, and in fish it was 74.77 particles/individual. The highest abundance of microplastics in the kiper fish was found in the muscle tissue, followed by the digestive tract and gills. The dominant composition of microplastics was in the form of fibers and with a size of < 300 µm. The polymers found were PET, PP, and PVC. The Kruskal-Wallis test indicated a significant difference in microplastic abundance among the organs and tissues of fish. The Pearson test showed a correlation between the abundance of microplastics in water and sediments with the abundance of microplastics in fish."

"Pencemaran mikroplastik menjadi ancaman bagi kehidupan biota. Mikroplastik yang terakumulasi dalam saluran pencernaan biota dapat menghambat pertumbuhan, mempengaruhi reproduksi, dan kerusakan organ internal. Penelitian ini bertujuan untuk mengetahui kelimpahan dan  bentuk mikroplastik pada air, sedimen, insang, dan saluran pencernaan Ikan Nila Oreochromis niloticus di Situ Rawa Besar, Depok. Sampel air dan sedimen di ambil pada 3 stasiun pengambilan sampel dari situ. Sampel Ikan Nila diambil 5 ekor masing-masing pada 3 stasiun. Sampel insang dan saluran pencernaan dihancurkan menggunakan larutan asam nitrat (HNO3) 65%. Sampel air diambil 20 L dan disaring menggunakan plankton net. Sampel sedimen dikeringkan dalam oven sebanyak 25 gram. Larutan NaCl jenuh digunakan untuk memisahkan mikroplastik dengan pengotor. Sebanyak 1 mL sampel diteteskan pada Sedgewick Rafter Chamber kemudian diamati dan dihitung berdasarkan bentuk mikroplastik di bawah mikroskop. Hasil penelitian pada Juli 2022 menunjukkan bahwa kelimpahan mikroplastik berkisar antara 15,00-23,33 partikel L-1 pada air, 20.330,00-45.330,00 partikel kg-1 pada sedimen, 182,67-593,33 partikel ind-1 pada insang, dan 596,00-701,33 partikel ind-1 pada saluran pencernaan. Kelimpahan mikroplastik tersebut lebih rendah dari kelimpahannya pada September 2023, yaitu berkisar antara 24,33-34,67 partikel L-1 pada air, 31.000,00-65.670,00 partikel kg-1 pada sedimen, 317,33-744,00 partikel ind-1 pada insang, dan 844,00-1.120,00 partikel ind-1 pada saluran pencernaan. Bentuk mikroplastik yang paling dominan adalah fragmen pada air, Ikan Nila, dan sedimen. Penelitian ini menunjukkan peningkatan jumlah mikroplastik di Situ Rawa Besar seiring berjalannya waktu yang didukung oleh beberapa faktor seperti peningkatan populasi, peningkatan sampah plastik, aktivitas antropogenik, dan curah hujan.

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Microplastic pollution poses a threat to the life of aquatic organisms. Accumulated microplastics in the digestive tracts of these organisms can hinder growth, affect reproduction, and cause internal organ damage. This research aims to determine the abundance and forms of microplastics in water, sediment, gills, and digestive tracts of Nile Tilapia (Oreochromis niloticus) in Situ Rawa Besar, Depok. Water and sediment samples were collected from three sampling stations in the lake. Five Nile Tilapia samples were taken from each station. Gill and digestive tract samples were digested using 65% nitric acid (HNO3) solution. Twenty liters of water were collected and filtered using a plankton net. Sediment samples were dried in an oven, with 25 grams used for analysis. A saturated NaCl solution was employed to separate microplastics from impurities. One milliliter of the sample was dropped onto a Sedgewick Rafter Chamber, then observed and counted based on microplastic forms under a microscope. The research results in July 2022 indicated that microplastic abundance ranged from 15.00 to 23.33 particles L-1 in water, 20,330.00 to 45,330.00 particles kg-1 in sediment, 182.67 to 593.33 particles ind-1 in gills, and 596.00 to 701.33 particles ind-1 in the digestive tract. These abundances were lower than those in September 2023, ranging from 24.33 to 34.67 particles L-1 in water, 31,000.00 to 65,670.00 particles kg-1 in sediment, 317.33 to 744.00 particles ind-1 in gills, and 844.00 to 1,120.00 particles ind-1 in the digestive tract. The most dominant form of microplastics was fragments in water, Nile Tilapia, and sediment. This research indicates an increase in the quantity of microplastics in Situ Rawa Besar over time, supported by factors such as population growth, increased plastic waste, anthropogenic activities, and rainfall."

"Increased plastic waste in the environment, particularly in the mangrove forest of Pulau Rambut, Jakarta Bay, has the potential to affect the abundance of microplastics in the surrounding waters. Microplastics, which are very small in size (<5mm), can be accidentally ingested by marine organisms such as Terebralia palustris and have negative effects on marine life, the environment, and humans. This study aims to analyze the comparison of microplastic abundance in T.palustris and sediment in the mangrove forest of Pulau Rambut, Jakarta Bay, in 2022 and 2023, as well as to determine the correlation between microplastic abundance in T.palustris and sediment. Twenty samples of T.palustris and sediment were collected at four stations in 2022 and 2023. The body tissue of T.palustris was separated from its shell, then dissolved with HNO3 and added to saturated NaCl. Sediment samples were dissolved with saturated NaCl. Microplastic abundance was observed and calculated using a Sedgwick Rafter Chamber under a microscope. Four forms of microplastics were observed in the T. palustris and sediment samples, namely fibers, fragments, films, and granules. The results showed an increase in microplastic abundance from 2022 to 2023. In 2022, the microplastic abundance was 363,592 ± 11,511 particles/g in T. palustris and 66,69 ± 7,638 particles/g in sediment, while in 2023, it reached 406,574 ± 6,154 particles/g in T. palustris and 79,7 ± 12,992 particles/g in sediment. From 2022 to 2023, the abundance of microplastic in T.palustris (particle/g) increased by 5%, T.palustris (particle/individual) increased by 37%, and sediment by 19%. There is a positive correlation between the microplastic abundance of T.palustris and sediment, with value of 0,768 obtained from the Spearman correlation test.Increased plastic waste in the environment, particularly in the mangrove forest of Pulau Rambut, Jakarta Bay, has the potential to affect the abundance of microplastics in the surrounding waters. Microplastics, which are very small in size (<5mm), can be accidentally ingested by marine organisms such as Terebralia palustris and have negative effects on marine life, the environment, and humans. This study aims to analyze the comparison of microplastic abundance in T.palustris and sediment in the mangrove forest of Pulau Rambut, Jakarta Bay, in 2022 and 2023, as well as to determine the correlation between microplastic abundance in T.palustris and sediment. Twenty samples of T.palustris and sediment were collected at four stations in 2022 and 2023. The body tissue of T.palustris was separated from its shell, then dissolved with HNO3 and added to saturated NaCl. Sediment samples were dissolved with saturated NaCl. Microplastic abundance was observed and calculated using a Sedgwick Rafter Chamber under a microscope. Four forms of microplastics were observed in the T. palustris and sediment samples, namely fibers, fragments, films, and granules. The results showed an increase in microplastic abundance from 2022 to 2023. In 2022, the microplastic abundance was 363,592 ± 11,511 particles/g in T. palustris and 66,69 ± 7,638 particles/g in sediment, while in 2023, it reached 406,574 ± 6,154 particles/g in T. palustris and 79,7 ± 12,992 particles/g in sediment. From 2022 to 2023, the abundance of microplastic in T.palustris (particle/g) increased by 5%, T.palustris (particle/individual) increased by 37%, and sediment by 19%. There is a positive correlation between the microplastic abundance of T.palustris and sediment, with value of 0,768 obtained from the Spearman correlation test.

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Increased plastic waste in the environment, particularly in the mangrove forest of Pulau Rambut, Jakarta Bay, has the potential to affect the abundance of microplastics in the surrounding waters. Microplastics, which are very small in size (<5mm), can be accidentally ingested by marine organisms such as Terebralia palustris and have negative effects on marine life, the environment, and humans. This study aims to analyze the comparison of microplastic abundance in T.palustris and sediment in the mangrove forest of Pulau Rambut, Jakarta Bay, in 2022 and 2023, as well as to determine the correlation between microplastic abundance in T.palustris and sediment. Twenty samples of T.palustris and sediment were collected at four stations in 2022 and 2023. The body tissue of T.palustris was separated from its shell, then dissolved with HNO3 and added to saturated NaCl. Sediment samples were dissolved with saturated NaCl. Microplastic abundance was observed and calculated using a Sedgwick Rafter Chamber under a microscope. Four forms of microplastics were observed in the T. palustris and sediment samples, namely fibers, fragments, films, and granules. The results showed an increase in microplastic abundance from 2022 to 2023. In 2022, the microplastic abundance was 363,592 ± 11,511 particles/g in T. palustris and 66,69 ± 7,638 particles/g in sediment, while in 2023, it reached 406,574 ± 6,154 particles/g in T. palustris and 79,7 ± 12,992 particles/g in sediment. From 2022 to 2023, the abundance of microplastic in T.palustris (particle/g) increased by 5%, T.palustris (particle/individual) increased by 37%, and sediment by 19%. There is a positive correlation between the microplastic abundance of T.palustris and sediment, with value of 0,768 obtained from the Spearman correlation test."

"Mikroplastik dalam ekosistem laut telah menjadi perhatian global yang berkembang sekama beberapa decade terakhir. Penelitian ini menganalisis kelimpahan dan jenis mikroplastik pada kerang darah Anadara granosa, air dan sedimen dari Teluk Lada, Pandeglang, Banten. Pengambilan sampel kerang darah, air dan sedimen diperoleh dari 3 stasiun yang berbeda. Saluran pencernaan dan organ pernapasan dari kerang darah dihancurkan dengan HNO3 65%, sampel air dan sedimen dimasukkan dalam larutan NaCl jenuh. Hasil penelitian menunjukkan kelimpahan mikroplastik 248,5 ± 3,81 partikel/l dalam air; 169.200 ± 5.184 partikel/Kg dalam sedimen dan 618,8 ± 121,4 partikel/individu dalam kerang. Selain itu, kerang darah dari pasar tradisional sebagai control ditemukan mikroplastik sebanyak 566,7 ± 133,1 partikel/individu. Fiber merupakan jenis mikroplastik yang paling banyak ditemukan pada sampel kerang (59%), air (61%) dan sedimen (58%). Sungai sekitar mengindikasikan sebagai sumber mikroplastik yang bermuara kea rah laut. Stasiun 3 yang berjarak ± 60 m dari sungai memiliki konsentrasi mikroplastik yang lebih tinggi dibandingkan stasiun 1 dan 2 dengan rata-rata 86,17 ± 2,36 partikel/l; 62666,67 ± 1803,7 partikel/Kg dan 720 ± 131,1 partikel/individu.Microplastic in the marine ecosystem has become a growing global concern over the past decade. This research analyzed the abundance and type of microplastic in blood cockle Anadara granosa, water, and sediment from Lada bay, Pandeglang, Banten. A sampling of the blood cockle, water and sediment were collected from 3 different stations. Digestive tracts and respiratory organs from blood cockle were destructed with HNO3 65%, water and sediment samples are mixed into concentrated NaCl solution. The results showed a microplastic abundance of 248.5 ± 3.81 particle/l in water, 169.200 ± 5.184 particle/Kg in sediment and 618.8 ± 121.4 particles/individuals in cockle. Also besides, blood cockle from traditional markets as control was found 566.7 ± 133.1 particle/individuals microplastic. Fiber is the type of microplastic that was most commonly found in samples of cockles (59%), waters (61%) and sediments (58%). The river was indicated as a microplastic source to the sea. The station 3 in ± 60 m near the river mouth has a higher microplastic concentration with an average of 86,17 ± 2.36 particle/l, 62666.67 ± 1803.7 particle/Kg and 720 ± 131.1 particle/individual, compared to station 1 and 2 which is further away from the river."