Hasil Pencarian  ::  Simpan CSV :: Kembali

Abstrak :
Tingkat curah hujan menyebabkan fluktuasi faktor abiotik dalam ekosistem mangrove yang berdampak terhadap ekosistem mangrove. Kualitas ekosistem mangrove memengaruhi struktur komunitas Gastropoda, terutama di Pulau Rambut pada tahun 2022 dan 2023. Penelitian bertujuan untuk menganalisis struktur komunitas Gastropoda (kepadatan, keanekaragaman, kemerataan, dominansi, dispersi, dan kesamaan jenis) dan faktor abiotik di Pulau Rambut. Penelitian ini memiliki tujuan lain, yaitu menganalisis perbandingan struktur komunitas Gastropoda di Pulau Rambut pada tahun 2022 dan 2023 akibat musim hujan. Pengambilan sampel dilakukan menggunakan line transect dengan kuadrat dalam empat stasiun yang diikuti pengukuran parameter lingkungan (suhu udara, salinitas air, dan pH tanah). Sampel Gastropoda diketahui melalui identifikasi dan dianalisis menggunakan kepadatan, indeks keanekaragaman Shannon-Wiener, indeks kemerataan, indeks dominansi Simpson, indeks dispersi, dan indeks kesamaan Jaccard. Hasil penelitian ini didapatkan hanya tiga jenis Gastropoda dari famili Potamididae (Terebralia sulcata, Terebralia palustris, dan Telescopium telescopium) di Pulau Rambut pada tahun 2022 dan 2023. Kepadatan Gastropoda didapatkan sebesar 24,9 ind/m2 dan 16,6 ind/m2. Indeks keanekaragaman jenis Gastropoda diperoleh sebesar 0,800 dan 0,765 yang tergolong rendah. Indeks kemerataan jenis Gastropoda didapatkan sebesar 0,728 dan 0,696 yang tergolong kemerataan merata. Tingkat dominansi diketahui terdapat spesies yang mendominansi. Pola persebaran di Pulau Rambut menunjukkan pola persebaran mengelompok dan seragam. Indeks kesamaan Jaccard menunjukkan semua stasiun mempunyai kesamaan komposisi jenis pada tahun 2022, sedangkan indeks kesamaan Jacaard pada tahun 2023 menunjukkan stasiun Barat mempunyai komposisi jenis yang berbeda. Korelasi kepadatan Gastropoda dan parameter lingkungan pada tahun 2022 dan 2023 menunjukkan tidak terdapat hubungan kecuali suhu pada tahun 2022. Perbandingan kepadatan Gastropoda pada tahun 2022 dan 2023 memperlihatkan tidak adanya perbedaan yang signifikan, sedangkan perbandingan tipe sedimen lumpur pada tahun 2022 dan 2023 menunjukkan adanya perbedaan yang signifikan. ......The level of rainfall causes fluctuations in abiotic factors in the mangrove ecosystem which have an impact in the mangrove ecosystem. The quality of the mangrove ecosystem affects the structure of the Gastropods community, especially at the Pulau Rambut in 2022 and 2023. The research aimed to analyze the structure of the Gastropods community (density, diversity, evenness, dominance, dispersion, and species similarity) and abiotic factors in Rambut Island. This research had another objective, which analyzed a comparison of the Gastropods community structure on Rambut Island in 2022 and 2023 due to the rainy season. Sampling was carried out using a line transect with quadrate in four stations followed by measurements of environmental parameters (air temperature, water salinity, and soil pH). Gastropods samples were identified through identification and analysis using density, Shannon-Wiener diversity index, evenness index, Simpson dominance index, dispersion index, and Jaccard similarity index. The results showed three types of Gastropods from Potamididae family (Terebralia sulcata, Terebralia palustris, and Telescopium telescopium) on Rambut Island in 2022 and 2023. Gastropods densities were 24.9 ind/m2 and 16.6 ind/m2. Gastropods species diversity index was obtained at 0.800 and 0.765 which were classified as low. Gastropods species evenness index was found to be 0.728 and 0.696 which were classified as even. The level of dominance was known to have a dominant species. The distribution pattern on Pulau Rambut showed a clustered and uniform distribution pattern. The Jaccard similarity index in 2022 showed that all stations had same species composition but the Jaccard similarity index in 2023 showed that the West stations had difference species composition. Correlation between Gastropods density and environmental parameters in 2022 dan 2023 showed no relationship except for temperature in 2022. Gastropods density comparison in 2022 and 2023 showed no significant difference, while mud sediment type comparison in 2022 and 2023 showed a significant difference.

Abstrak :
The main objective of this research was to study the marine bacteriology of the coast of North Sulawesi. The study was accomplished by calculating the abundance of coliform, heterotrophic, and pathogenic bacteria, and analyzing the coexistence relationship between bacteria and phytoplanktons. This research, which included the sampling and laboratory works, has been carried out on 25 – 28 October, 2000. The results suggested that the abundance of each bacteria was as follows: coliform bacteria range between 227-5940 cfu/100 ml with averages 1814.1 cfu/100 ml, found in all stations; heterotrophic bacteria range between (1-82) x 103 cfu/ml with averages 12.1 x 103 cfu/ml, it was high density and has association with phytoplankton Trichodesmium thieubautii. It was also found 6 species of pathogen bacteria e.g. Aeromonas, Citrobacter, Proteus, Pseudomonas, Yersinia and Shigella. The presence of coliform and pathogen bacteria was indicator of low quality of the seawater in the sampling area. Based on bacteriological study, the North Sulawesi Coastal is not suitable for aquaculture and need treatment and controlled for further coastal exploitation.

Abstrak :
Mikroplastik merupakan plastik berukuran <5 mm. Dapat terbentuk secara primer (sengaja diiproduksi) dan sekunder (hasil degradasi). Penggunaan Personal Care Product (PCP) dan bahan-bahan pembersih rumah tangga menjadi jalur masuknya mikroplastik ke IPAL. Sampel air IPAL diambil dengan metode sampel komposit. Metodologi perhitungan kelimpahan pada sampel menggunakan mikroskop cahaya binokuler (visual), identifikasi jenis polimer menggunakan FTIR dan identifikasi ukuran mikroplastik menggunakan software J-Image. Kelimpahan rata-rata mikroplastik pada penelitian ini mencapai 8×103 MP/L. Penyisihan mikroplastik mencapai 77%. Hasil identifikasi karakteristik ditemukan bentuk mikroplastik fragment (57.6%), film (14.7%), beads (12.7%), foam (9.2%), dan fiber (5.8%). Warna mikroplastik yang teridentifikasi ialah biru (36.3%), hitam (35.1%), merah (18.2%), kuning (8.6%), dan transparan (1.8%). Persebaran ukuran mikroplastik pada IPALD terbagi menjadi terkecil <0.3 mm (80%), 0.3 – 0.5 mm (2%), 0.5 – 1 mm (4%), dan >1 mm (14%). Selannjutnya jenis polimer yang ditemukan pada IPALD tersebar dari Polyvinyl Formal, Polyvinyl butyral, Polycarbonate (PC) dan Poly (butylene terephthalate) (PBT), Polyester, Polyvinyl Chloride, Polyarylate, dan Tetrafluoroethylene-Hexa-fluoro-propylene (FEP). Hasil pengujian korelasi menunjukan hubungan yang kuat dan signifikan secara statistik untuk TSS terhadap Mikroplastik. Sedangkan hubungan lemah dan tidak signifikansi secara statistik untuk parameter VSS terhadap Mikroplastik di dalam IPAL. ......Microplastics are plastics <5 mm in size. They can be primary (intentionally produced) and secondary (degradation). Its presence is difficult to detect and the potential dangers are still unknown, making it an emerging contaminant for humans and the environment. The use of Personal Care Products (PCP) and household cleaning materials is a pathway for microplastics to enter WWTP. WWTP water samples were taken using the composite sample method. The methodology for calculating the abundance of samples using binocular light microscopy (visual), identification of polymer types using FTIR and identification of microplastic size using J-Image software. The average abundance of microplastics in this study reached 8×10^3 MP/L. The removal of microplastics reached 77%. The results of the identification of characteristics found the form of microplastic fragments (57.6%), films (14.7%), beads (12.7%), foam (9.2%), and fiber (5.8%). The identified microplastic colors are blue (36.3%), black (35.1%), red (18.2%), yellow (8.6%), and transparent (1.8%). The size distribution of microplastics in WWTP is divided into the smallest <0.3 mm (80%), 0.3 - 0.5 mm (2%), 0.5 - 1 mm (4%), and >1 mm (14%). Furthermore, the types of polymers found in the WWTP were distributed from Polyvinyl Formal, Polyvinyl butyral, Polycarbonate (PC) and Poly (butylene terephthalate) (PBT), Polyester, Polyvinyl Chloride, Polyarylate, and Tetrafluoroethylene-Hexa-fluoro-propylene (FEP). The correlation test results show a strong and statistically significant relationship for TSS to Microplastics. While the relationship is weak and not statistically significant for the VSS parameter to Microplastics in the WWTP.

Abstrak :
Keberadaan mikroplastik di perairan dapat mengancam biota di dalamnya. Penelitian dilakukan dengan tujuan menganalisis kelimpahan, bentuk, dan warna mikroplastik pada air, sedimen, insang dan saluran pencernaan ikan sapu-sapu Pterygoplichthys pardalis dari Situ Kenanga dan Situ Mahoni, Kampus Universitas Indonesia, Depok. Pengambilan sampel air dan sedimen dilakukan pada inlet, midlet, dan outlet kedua situ. Sampel air disaring menggunakan plankton net, sampel sedimen diambil menggunakan Ekman grab kemudian dikeringkan menggunakan oven, sampel P. pardalis sebanyak 15 individu diambil menggunakan cast net dari masing-masing situ, kemudian insang dan saluran pencernaannya diisolasi dan didestruksi menggunakan HNO3 65%. Tiap sampel yang diperoleh dilarutkan dengan larutan NaCl jenuh agar terjadi flotasi. Pengamatan dilakukan menggunakan mikroskop cahaya dan Sedgwick Rafter Chamber untuk meletakkan sampel, dengan mengamati bentuk, warna, dan jumlah partikel mikroplastik. Hasil penelitian menunjukkan bahwa bentuk fiber, film, fragmen, granula, serta warna transparan, hitam, biru, dan merah muda ditemukan pada semua sampel. Kelimpahan mikroplastik di Situ Kenanga pada air sebanyak 48,26 ± 23,51 partikel L-1, sedimen 45837,04 ± 36305,97 partikel Kg-1, insang 290,48 ± 154,58 partikel g-1 atau 1156,44 ± 378,69 partikel ind-1, saluran pencernaan 134,37 ± 55,72 partikel g-1 atau 1364,89 ± 339,54 partikel ind-1. Kelimpahan mikroplastik di Situ Mahoni pada air sebanyak 48,63 ± 30,21 partikel L-1, sedimen 36237,04 ± 16702,60 partikel Kg-1, insang 287,23 ± 109,40 partikel g-1 atau 1153,78 ± 324,32 partikel ind-1, saluran pencernaan 123,77 ± 34,35 partikel g-1 atau 1304,44 ± 270,90 partikel ind-1. Tidak terdapat perbedaan signifikan antara kelimpahan mikroplastik di Situ Kenanga dan Situ Mahoni pada semua sampel. ......The presence of microplastics in the water could threaten the biota there. This study was conducted to analyze the abundance, shapes, and colors of microplastics in water, sediment, gills and digestive tract of amazon sailfin catfish Pterygoplichthys pardalis from Situ Kenanga and Situ Mahoni, Universitas Indonesia Campus, Depok. Sampling of water and sediment were carried out at the inlet, midlet, and outlet of both situ. Water samples were filtered using plankton net, sediment samples were taken using Ekman grab and dried using an oven, as many as 15 individual P. pardalis samples were taken using cast net from each situ, then their gills and digestive tract were isolated and pulverized using 65% HNO3. Each sample obtained was dissolved with saturated NaCl solution for flotation to occur. Observations were made using a light microscope and Sedgwick Rafter Chamber to place each sample, by observing the shape, color, and number of microplastic particles. The results showed that the shapes of fibers, films, fragments, granules, as well as transparent, black, blue, and pink colors were found in all samples. The abundance of microplastics in Situ Kenanga water was 48.26 ± 23.51 particles L-1, sediment 45837.04 ± 36305.97 particles Kg-1, gills 290.48 ± 154.58 particles g-1 or 1156, 44 ± 378.69 ind-1 particles, digestive tract 134.37 ± 55.72 particles g-1 or 1364.89 ± 339.54 ind-1 particles. The abundance of microplastics in Situ Mahoni water was 48.63 ± 30.21 particles L-1, sediment 36237.04 ± 16702.60 particles Kg-1, gills 287.23 ± 109.40 particles g-1 or 1153, 78 ± 324.32 ind-1 particles, digestive tract 123.77 ± 34.35 particles g-1 or 1304.44 ± 270.90 ind-1 particles. There was no significant difference between the abundance of microplastics in Situ Kenanga and Situ Mahoni in all samples.

Abstrak :
Study estuarine fishes in Mimika district,Papua was carried out at six estuaries from 2000 to 2006, as apart of monitoring program conducted by PT Freeport-Indonesia....

Abstrak :
Penelitian mengenai hubungan antara perbedaan kedalaman terhadap kelimpahan dinoflagellata bentik penyebab Ciguatera Fish Poisoning (CFP) menggunakan substrat buatan dilakukan di perairan Dermaga Odi, Pulau Pramuka, Kepulauan Seribu pada tanggal 21–22 September 2023. Penelitian dilakukan untuk mengidentifikasi dan menganalisis kelimpahan dinoflagellata toksik berpotensi penyebab CFP dan parameter lingkungan setiap kedalaman yang paling mempengaruhi kelimpahannya. Pengambilan sampel dilakukan dengan menempatkan substrat buatan di kedalaman 1 m, 3 m, dan 5 m, serta diambil data parameter lingkungan dari setiap kedalaman. Substrat buatan diambil kembali setelah 24 jam untuk penyaringan dan penyimpanan sampel. Identifikasi dan pengolahan kelimpahan sampel didahului dengan pencacahan yang dilakukan menggunakan Sedgewick Rafter Counting Cell melalui mikroskop. Analisis data dan sampel menggunakan analisis statistik multivariate Primary Component Analysis (PCA) dan Correspondence (CA). Ditemukan 3 genus dinoflagellata yang menempel pada substrat buatan tiap kedalaman yaitu Amphidinium, Ostreopsis, dan Prorocentrum. Kelimpahan dinoflagellata bentik berpotensi penyebab CFP yang menempati substrat buatan paling melimpah di kedalaman 1 m. Berdasarkan hasil PCA dan CA, kedalaman 1 m dicirikan dengan suhu, nitrat, dan Prorocentrum, sedangkan 3 m dicirikan dengan DO dan Amphidinium, dan 5 m dicirikan dengan pH. Sebaliknya, salinitas, fosfat, dan Ostreopsis tidak dicirikan dengan kedalaman berapapun. ......Research on the relationship between differences in depth and the abundance of benthic dinoflagellates that cause Ciguatera Fish Poisoning (CFP) using artificial substrates was carried out in the waters of Odi Pier, Pramuka Island, Seribu Islands on 21–22 September 2023. The research was conducted to identify and analyze the abundance of benthic dinoflagellates potentially causing CFP and the environmental parameters of each depth that most influences the abundance. Sampling was carried out by placing artificial substrates at depths of 1 m, 3 m and 5 m, and environmental parameter data was taken from each depth. The substrates were recovered after 24 h for filtering and storage. Identification and processing of sample abundance was preceded by Sedgewick Rafter Counting Cell. Data and sample analysis used statistical analysis Primary Component Analysis (PCA) and Correspondence (CA). Three genera of dinoflagellates were found attached to artificial substrates, namely Amphidinium, Ostreopsis, and Prorocentrum. Depth of 1 m is the most abundant of benthic dinoflagellates and characterized by temperature, nitrate, and Prorocentrum, while 3 m was characterized by DO and Amphidinium, and 5 m was characterized by pH. In contrast, salinity, phosphate, and Ostreopsis were not characterized at any depth.

Abstrak :
Pendahuluan : Akhir-akhir ini penelitian terkait mikrobiom kulit manusia menjadi fokus di bidang dermatologi dan kosmetik karena mikrobiota kulit yang memiliki fungsi vital dalam menjaga homeostasis kulit. Sudah banyak laporan disbiosis mikrobiom yang berhubungan dengan beberapa kondisi kulit, baik patologis maupun nonpatologis, contohnya pada penuaan atau aging. Pada kulit menua terdapat perubahan struktural dan fungsional kulit yang menyebabkan perubahan habitat mikrobiom, sehingga terjadi perubahan komposisi mikrobiota. Hal tersebut dapat menyebabkan disbiosis, sehingga dapat pula menjadi faktor predisposisi dalam proses penuaan kulit. Tujuan Penelitian : Menilai korelasi antara mikrobiom kulit dengan parameter penuaan kulit wajah perempuan Indonesia dan juga mengetahui gambaran mikrobiom pada kulit dewasa muda, lansia perempuan Indonesia, serta menilai perbedaan shannon index serta relative abundance mikrobiom kulit antara perempuan dewasa muda dan lansia. Metodologi Penelitian : Penelitian ini merupakan penelitian observasional analitik dengan desain potong lintang. Pengambilan sampel dilakukan pada bulan Februari – Maret 2023 di Poliklinik Dermatologi dan Venereologi (DV) RSCM. Subjek penelitian berjumlah 48 orang yang terdiri dari 24 orang perempuan sehat usia dewasa muda (21–37 tahun) dan 24 orang lansia (60–76 tahun) yang melewati kriteria penerimaan dan penolakan. Subjek penelitian yang terpilih melakukan kunjungan ke Poliklinik DV RSCM, dan dilakukan anamnesis, pemeriksaan klinis, pemeriksaan wajah menggunakan skin analyzer JANUS™ III, serta pengambilan apusan kulit (swab) pada kedua pipi. Hasil sampel apusan kulit kemudian dilakukan ekstraksi DNA menggunakan DNeasy PowerSoil Kit™ dan dilakukan sekuensing pada region V3-V4 16s rRNA dengan alat Next Generation Sequencing (NGS), MiSeq Illumina™. Total didapatkan 39 sampel DNA yang dapat diidentifikasi oleh alat MiSeq Illumina™. Hasil Penelitian : Abundance filum firmicutes dan genera staphylococcus secara bermakna lebih besar pada kelompok lansia. Shannon index kelompok dewasa muda lebih tinggi daripada kelompok lansia namun tidak berbeda bermakna dan hanya berkorelasi lemah terhadap usia (P>0,05). Terdapat korelasi positif antara Staphylococcus dengan usia, serta Paracoccus dengan porfirin. Terdapat korelasi negatif antara Shannon index dengan pori-pori, dan Cutibacterium dengan porfirin (P≤0,05) Kesimpulan : Hasil penelitian akhir didapatkan dari 39 sampel apusan kulit yang berhasil diidentifikasi oleh alat NGS, oleh karena itu perlu dilakukan penelitian yang membandingkan metode pengambilan sampel mikrobiom kulit wajah untuk standarisasi penelitian selanjutnya dan perlu dilakukan penelitian dengan jumlah sampel yang lebih banyak serta multi-centered untuk mewakili daerah Indonesia di pedalaman dengan iklim dan lingkungan yang berbeda dengan masyarakat urban. ......Introduction: Recently research related to the human skin microbiome has become a focus in the fields of dermatology and cosmetics because skin microbiome has a vital function in maintaining skin homeostasis. There have been many reports of microbiome dysbiosis associated with several skin conditions, both pathological and non-pathological, for example aging. In aging skin, there are structural and functional changes in the skin that cause alterations in the microbiome habitat, resulting changes in the composition of the microbiota. This condition can cause dysbiosis, and it may also be a predisposing factor for the skin aging process. Objectives: To assess the correlation between the skin microbiome and the facial aging score of Indonesian women and also to determine the description of Indonesian young adults and elderly's women microbiomes, as well as addressing the differences in Shannon index and the relative abundance of skin microbiomes between young adult and elderly women. Methods: This research is an analytical observational study with cross-sectional design. Samples were taken in February – March 2023 at Cipto Mangunkusumo Hospital (RSCM), Dermatology and Venereology (DV) clinic. The research subjects were 48 people consisting of 24 healthy young adult women (21–37 years) and 24 elderly people (60–76 years) who passed the inclusion and exclusion criteria. The selected research subjects visited DV RSCM clinic, and underwent anamnesis, clinical examination, and facial examination using the JANUS™ III skin analyzer, also took skin swabs on both cheeks. The resulting skin swab samples were subjected to DNA extraction using DNeasy PowerSoil Kit™ and sequenced at V3-V4 16s rRNA region using the NGS (Next Generation Sequencing) tool, MiSeq Illumina™. Total were 39 DNA samples were obtained which could be identified by MiSeq Illumina™. Results: Abundance of the phylum Firmicutes and the genera Staphylococcus was significantly higher in elderly group. Shannon index of the young adult group was higher than the elderly group but was not stastistically ignificant and only weakly correlated with age (P>0.05). There is positive correlation between Staphylococcus and age, as well as Paracoccus and porphyrins. There is negative correlation between Shannon index and pores, Cutibacterium with porphyrins (P≤0.05) Conclusion: The final research results were obtained from 39 skin swab samples that were successfully identified by NGS tool. It is necessary to carry out future research that compares facial skin microbiome sampling methods to standardize further skin mikrobiome research and also to carry out research with a larger number of samples and multi-centered to represent rural areas of Indonesia with different climates and environments from urban communities (Jakarta).

Abstrak :
Penelitian foraminifera bentik telah dilakukan tanggal 19 November - 3 Desember 1995 di Delta Solo dan Porong Jawa Timur untuk mengetahui distribusi dan kelimpahan foraminifera bentik dan untuk mengetahui foraminifera aglutinin di Delta Solo dan Porong. Untuk itu telah diambil sampel sedimen dengan menggunakan Van Veen grab di 15 stasiun pada masing-masing delta, kemudian dianalisis di laboratorium.Untuk mengetahui keterkaitan antara komunitas foraminifera bentik dan beberapa faktor lingkungan yang berpengaruh dalam kehidupan biota ini, maka dilakukan juga pengukuran terhadap sifat fisik perairan seperti kedalaman , salinitas, PH dan turbiditas. Hasil analisa laboratorium kemudian dibagi ke dalam 3 kategori yaitu melimpah, umum dan jarang. Penelitian ini bertujuan untuk mengetahui distribusi dan kelimpahan foraminifera bentik dan untuk mengetahui foraminifera aglutinin di Delta Solo dan Porong. Hasil analisis menunjukkan terdapat 53 spesies foraminifera bentik dengan jumlah individu 7288 yang termasuk dalam 10 famili di Delta Solo dan 37 spesies dengan jumlah individu 6223 yang termasuk dalam 9 famili di Delta Porong. Seluruh spesies yang dijumpai di dua delta tersebut termasuk dalam subordo Rotaliina, 1VIilioliina dan Textulariina. Spesies yang melimpah di Delta Solo adalah Ammonia beccarii dan Asterorotala trispinosa yang dijumpai di semua stasion penelitian. Terdapat 35 spesies yang termasuk kategori umum dan 16 species pada kategori jarang. Di Delta Porong dijumpai 6 spesies dalam kategori melimpah yaitu Ammonia beccarii, Asterorotalia trispinosa, Ammobcculites agglutinans, Haplophragmoides canariensis, Textularia pseudogramen dan Trochammina amnicola. Sedangkan spesies yang umum 16 species dan 15 species yang tergolong jarang. Sebaran dan kelimpahan foraminifera bentik di Delta Solo dan Porong dipengaruhi oleh beberapa faktor lingkungan terutama jenis substrat, pH dan turbiditas. Hasil pengamatan terhadap foraminifera aglutinin menunjukkan keadaan sebaliknya dan hasil foraminifera bentik secara umum, yaitu Delta Porong lebih kaya akan species dibandingkan dengan Delta Solo. Di Delta Solo di jumpai 5 species yang hanya dijumpai di II stasiun, sedangkan di Delta Porong dijumpai 6 jenis yang dijumpai di semua stasiun penelitian. Hal ini kemungkinan besar dipengaruhi oleh kondisi lingkungan perairan dan keadaan delta tersebut.

---

Solo and Porong Deltas, located in East Java, have different morphological forms. The differences in morphological forms are due to the variation in the sediment types. Solo River which flows from Mount Lawu and Mount Merapi in Central Java supplies a large number of sediment to Solo Delta. The type of sediment of Solo Delta is dominated by clay, silt and fine sand. Porong River receives water from Brantas River which originates from Mount Semeru and Mount Arjuno. The type of sediment of Porong Delta is dominated by sand. Benthic foraminiferans, which live and grow at the bottom of the sediment, are sensitive to environmental changes. Distribution and abundance of benthic foraminifera depend on some environmental factors, and that various ecological factors influence each other. From 15 stations observed in Solo Delta and 15 stations in Porong Delta there was a difference either in the species number or in the number of individuals found. The species are belong to 3 subordos, i.e Rotaliina, Milioliina and Textulariina. The main difference between the two deltas was the abundance of species. The number of species found in Solo Delta were 53 and the number of individuals were 7288, while in Porong there were 37 spesies with 6223 individuals. The predominant species found in almost all stations in two deltas were Ammonia beccarii and Aslerorotalia trispinosa. In Solo Delta the common species found were Ammonia umbonata, Amphistegina lessonii, Bucella frigida, Elphidium crispum, E. craticulatum, E. advenum, E. lessonii, Calcarina calcar,Chrysalidinella dimorpha, Quinqueloculina sp, Q.semirrulum, Q. intricata, Nonion sp, Nonion depressulum, Triloculina trio ata, Reuse/la simplex, Pseudorotalia schroeteriana, Spiroloculina communis, Ammobaculites agglutinans, Textularia pseudogramen. The less common species found were Buliminella elegantissima, B. basicostata, Cymbaloporetta squwnmosa, Cibicides lobatum, Hauerina braayi, Heterostegina depressa, Lagena laevis, Lagena grad/lima, Loxostomum lobatum, L. limbatum, Massilina milled, Operculina ammonoides, Triloculina trigonula, Ammotium cassis, Haplophragmoides canariensis and Textularia sagittula. In Porong Delta, besides Ammonia beccarii and Asterorotalia trispinosa other species which were found abundant in almost all of the stations were Ammobaculites agglutinans, Haplophragmoides canariensis, Textularia pseudogramen and Trochammina amnicola. The latest species are agglutinated foraminifera which live well at the sandy sediment dominating Porong Delta.The common species were Adelosina semistriata, Ammotium cassis, Elphidium advenum, E craticulatum, E. lessonii, Pseudorotalia shroeteriana, Heterostegina depressa, Flintina bradyana, Operculina ammonoides, Quinqueloculina seminulum, Q. lamarchiana, Nonion sp, Reusella simplex, Triloculina tricarinata, spiroloculina commis, Textularia sagittula. The rare species found were Amphistegina lessonii, Calcarina calcar, Cibicides praecinctus, Crysalidinella dimorpha, Loxoslomum lobatum, L. limbatum, Miliolinella subrotunda, M sublineata, Nonion depressulum, N. cf asterizans, Qrbitolites duplex, Quinqueloculina cultrata, Q. venusta, Q. granulocostata, Triloculina trigonula. The range of salinity in Solo Delta was 15 - 32 %o and in Porong Delta was 10 - 30 %o. Previous researchers showed that foraminiferan species adapt and produce well at salinity between 15 - 40 %o. That means that the salinity in Solo Delta is probably more suitable for foraminifera than in Porong Delta. The everage pH in Solo Delta was 7,86 while in Porong Delta was 8,20. According to some researchers, foraminiferans were found abundant in lower pH. Turbidity in Solo Delta was between 33,0 - 87,5 NTU, while in Porong Delta areas was between 37,8 - 200 NTIJ. That means that the water in Solo Delta was clearer than in Porong Delta. Water clearance influences penetration of sunlight , and results in decreasing photosynthesis activities of plankton which leads to food deficiency. According to previous researchers the population of some foraminiferans decreases at zones with high turbidity. Those above factors might influence the distribution and abundance of the benthic foraminifera, of both deltas. The study of aglutinated foraminiferan was done simultaneously with the study of distribution and abundance of benthic foraminiferans in Solo and Porong Delta. From 15 stations studied in each delta 5 species were found in Solo Delta and 6 species were found in Porong Delta. All species belongs to 3 families, namely Lituoliidae, Textulariidae and Trochanuniniidae. The 5 species found in Solo Delta were Ammobaculites agglutinans, Ammotium cassis, Haplophragmoides carurriensis, Textularia pseudogramen and T. sagittula. In Porong Delta, besides those 5 species, another species, i.e. Throcarnmrna amnicola, was also found. In general, Porong Delta is richer than Solo Delta in number of species and number of individuals of species. This might be due to the differences in types of sediment and water conditions of both deltas.

Abstrak :
Sungai Musi merupakan salah satu sungai terpanjang di Pulau Sumatera yang terletak di Provinsi Sumatera Selatan dan muaranya berada di Kabupaten Banyuasin. Muara dan Sungai Musi banyak dimanfaatkan untuk aktivitas ekonomi seperti sanitasi, jalur transportasi, dan kegiatan perikanan. Jumlah penduduk yang tinggi dan banyaknya pemukiman yang berada di jalur sungai musi, serta adanya aktivitas di perairan tersebut akan menghasilkan sampah plastik baik makroplastik maupun mikroplastik. Sampah dari sungai akan menuju muara dan mencemari pesisir serta laut. Tujuan dari penelitian ini adalah untuk mengetahui distribusi serta kelimpahan makro- dan mikroplastik yang ada di hulu dan muara Sungai Musi. Penelitian ini menggunakan pendekatan deskriptif kuantitatif dengan pengambilan sampel secara purposive sampling. Hasil penelitian menunjukkan bahwa di hulu dan muara Sungai Musi sudah tercemar oleh sampah plastik, dan adanya perbedaan kelimpahan makro- dan mikroplastik antar stasiun penelitian. Kelimpahan makroplastik berkisar antara 5-32 item/m2 dengan rata-rata berat yaitu 27,82-126,89 g/m2 dan 5 jenis makroplastik yang mendominasi yaitu serpihan plastik; kemasan makanan; gayung/ember/botol plastik lainnya; kantong plastik; dan gelas plastik. Jenis mikroplastik yang ditemukan yaitu dalam bentuk fragmen; fiber; film; dan pellet/granula. Kelimpahan mikroplastik di air permukaan berkisar antara 342-793 partikel/L yang didominasi oleh fragmen, kelimpahan mikroplastik di sedimen berkisar antara 4.458,67-5.514,67 partikel/kg didominasi oleh fragmen. Beberapa langkah pengelolaan sampah plastik berdasarkan hasil penelitian antara lain yaitu: meningkatkan monitoring dan penelitian sampah plastik; kampanye pendidikan publik jangka panjang; membuat peraturan daerah tentang penggunaan plastik; dan pengelolaan sampah plastik yang baik dan secara berkala. ......Musi River is one of the longest rivers in Sumatra Island, which flows through South Sumatra Province and its estuary reaches out in Banyuasin Regency. Musi River and especially its estuary are highly used for economic activities such as mode of transport, fishing as well as sanitation. The high density of population and the increasing number of settlements in the Musi River banks result in increasing plastic waste-both macroplastic and microplastic which flows into the estuary and pollutes the coast and sea. The objective of this study is to determine the distribution and the abundance of macro-and microplastic in the upstream and estuary of Musi River. This research used a quantitative descriptive approach with purposive sampling method. The results of the study showed that the upstream and estuary of Musi River had been polluted by plastic waste and also showed the differences in macro- and microplastic abundance between research stations. Macroplastic abundance ranging from 5-32 items/m2 with an average weight of 27.82-126.89 gr/m2 and the dominant macroplastic types are plastic fragments; food wrappers; other jugs/containers; bags(films); and cups. Whereas the types of microplastic found are in the form of fragments; fiber; film; and pellets/granules. Microplastic abundance in the surface of water ranged from 342-793 particles/L which were dominated by fragment, whereas microplastic abundance in sediments ranged from 4,458.67-5,514.67 particles/kg which were dominated by fragment. Consequently the results of the study propose several steps to manage plastic waste in the coastal area development including: increasing identification and monitoring of plastic waste problems; long-term community education; local regulations regarding the use of plastic; and manage of plastic waste regularly.

Abstrak :
Anosmia merupakan salah satu gejala COVID-19 yang spesifik. Mekanisme anosmia pada COVID-19 belum dapat dijelaskan dengan pasti. Beberapa studi melaporkan perubahan kemampuan penciuman disertai perubahan komposisi mikrobioma nasal. Saat ini studi mikrobioma nasal pasien COVID-19 yang mengalami gejala anosmia masih kurang. Penelitian ini bertujuan untuk mengetahui profil mikrobioma nasal pasien COVID-19 dengan dan tanpa anosmia di Laboratorium Mikrobiologi Klinik FKUI tahun 2021. Studi potong lintang ini dilakukan di Laboratorium Mikrobiologi Klinik FKUI Juli sampai September 2021 yang memenuhi kriteria inklusi dan tidak memenuhi kriteria eksklusi. Diagnosis anosmia ditegakkan menggunakan metode subjektif. Pengambilan spesimen usap nasofaring dan orofaring untuk pemeriksaan RT-PCR COVID-19 dan usap nasal untuk pemeriksaan mikrobioma dilakukan pada pasien tersangka COVID-19. Bila didapatkan hasil RT-PCR positif, maka pada spesimen usap nasal dilakukan pemeriksaan sekuensing 16S RNA-Next Generation Sequencing. Didapatkan 17 spesimen usap nasal dari subjek yang mengalami gejala anosmia dan 8 spesimen yang tidak mengalami gejala anosmia. Pada mikrobioma nasal pasien COVID-19 yang mengalami gejala anosmia terjadi berupa penurunan kelimpahan filum Actinobacteria, Ordo Propionibacteriales, Famili Propionibacteriaceae, genus Cutibacterium dan Peptoniphilus. Dari penelitian ini, terdapat perubahan komposisi mikrobioma nasal pada pasien COVID-19 dengan gejala anosmia. ......Anosmia is a specific symptom of COVID-19. The mechanism of anosmia in COVID-19 cannot be explained with certainty. Changes in nasal microbiome composition are associated with olfactory function. SARS-CoV-2 infection alters the respiratory microbiota and influence the susceptibility to COVID-19 infection. There are also changes in the composition of nasal microbioms of COVID-19 patients experiencing anosmia. Studies of the nasal microbiome in COVID-19 patients who experience symptoms of anosmia are rare. The aim of this study is to determine the nasal microbiome profile of COVID-19 patients with and without anosmia. This cross-sectional study was conducted at the Clinical Microbiology Laboratory of the FKUI from July to September 2021 which met the inclusion criteria and did not meet the exclusion criteria. Anosmia is determined subjectively. Nasopharyngeal and oropharyngeal swab specimens for RT-PCR COVID-19 examination and nasal swabs for microbiome are collected from patients. If a positive RT-PCR result is obtained, then the nasal swab specimen is subjected to a RNA-Next Generation Sequencing. There were 17 nasal swab specimens from subjects with anosmic symptoms and 8 specimens without anosmic symptoms. In the nasal microbiome of COVID-19 patients who experience symptoms of anosmia, there is a decrease in the abundance of the Actinobacteria, Propionibacteriales, Propionibacteriaceae, Cutibacterium and Peptoniphilus. From this study, there were changes in the composition of the nasal microbiome in COVID-19 patients with anosmia symptoms.