Hasil Pencarian  ::  Simpan CSV :: Kembali

Abstrak :
[ABSTRAK
Penelitian mengenai peran siput Terebralia dalam mengurai serasah mangrove dan menyimpan karbon telah dilakukan pada bulan November hingga Desember 2013. Hasil penelitian kepadatan, Terebralia palustris memiliki nilai kepadatan yang paling tinggi yaitu 25 individu/m2. Sedangkan Terebralia sulcata memiliki nilai kepadatan yang lebih rendah yaitu 15 individu/m2. Kandungan karbon yang tersimpan dalam tubuh T. palustris berkisar antara 16,27?18,89% dengan rata-rata sebesar 17,45%. Sedangkan karbon yang tersimpan dalam tubuh T. sulcata berkisar antara 15,98?17,62% dengan rata-rata 16,87%. Potensi penyimpanan karbon oleh T.palustris sebesar 4374 gr C/m2 dan T. sulcata, berpotensi menyimpan karbon sebesar 2609 gr C/m2. Berdasarkan analisis statistik, terdapat korelasi antara panjang maupun berat T. palustris terhadap total karbon dengan masing-masing P= 0,001 dan P= 0,002. Sebaliknya, pada T.sulcata tidak terdapat korelasi antara panjang maupun berat cangkangnya terhadap total karbon yang dikandungnya dengan masing-masing P= 0,071 dan P= 0,289. Penelitian mengenai penguraian seresah dilakukan hanya menggunakan Terebralia dewasa yaitu, Terebralia palustris lebih dari 5 cm dan Terebralia sulcata lebih dari 3 cm. Dalam pengambilan data selanjutnya, dibuat 30 titik kuadran dengan ukuran 0,25 x 0,25 m yang ditentukan secara acak. Rata-rata persentase penguraian serasah oleh T. palustris adalah sebesar 3,48% ± 0,18 /hari untuk R. apiculata dan 8,28% ± 0,13 /hari untuk R. stylosa. Sedangkan T. sulcata mengurai serasah rata-rata sebesar 4,07% ± 0,12 /hari untuk R. apiculata dan 4,93 % ± 0,15 /hari untuk R. stylosa. Hasil penelitian juga menunjukkan bahwa tidak ditemukan korelasi antara panjang dan berat T.palustris dengan persentase penguraiannya. Begitu pula dengan T.sulcata, tidak ditemukan korelasi antara berat dengan laju penguraiannya. Sebaliknya, terdapat korelasi antara panjang T. sulcata dengan persentase penguraiannya.

---

ABSTRACT
Research on the role of Terebralia snails in mangrove leaf litter removal and store carbon was held in November and December 2013. Density of research results, Terebralia palustris has the highest density value of 400 individu/m2 . While Terebralia sulcata has a lower density value is 240 individu/m2. Carbon content stored in the body T. palustris ranged from 16.27 to 18.89 % with an average of 17.45 % . While the carbon stored in the body of T. sulcata ranged from 15.98 to 17.62 % with an average of 16.87 %. Potential carbon storage by T. palustris is 4374 g C/m2, whereas T. sulcata potentially storing carbon at 2609 g C/m2. Measurement of litter removal activity was carried out in mangrove dominated by Rhizophora sp. The research location was located in the intertidal mangrove affected part tide. Research conducted using only adult Terebralia such as, Terebralia palustris more than 5 cm and Terebralia sulcata more than 3 cm. In subsequent data collection, we made 30 points quadrant with 0.25 x 0.25 m size was determined at random. The average percentage of leaf litter removal by T. palustris is equal to 3,48% ± 0,18 / day for R. apiculata and 8,28% ± 0,13/ day for R. stylosa . While T. sulcata litter parse an average of 4,07% ± 0,12 / day for R. apiculata and 4,93 % ± 0,15 / day for R. stylosa . The results also show that there were no correlation was found between the length and weight percentage T.palustris with decay. Similar with T.sulcata, no correlation was found between the weight of the rate of decay. Instead, there is a correlation between the length of T. sulcata with the percentage of decay.;Research on the role of Terebralia snails in mangrove leaf litter removal and store carbon was held in November and December 2013. Density of research results, Terebralia palustris has the highest density value of 400 individu/m2 . While Terebralia sulcata has a lower density value is 240 individu/m2. Carbon content stored in the body T. palustris ranged from 16.27 to 18.89 % with an average of 17.45 % . While the carbon stored in the body of T. sulcata ranged from 15.98 to 17.62 % with an average of 16.87 %. Potential carbon storage by T. palustris is 4374 g C/m2, whereas T. sulcata potentially storing carbon at 2609 g C/m2. Measurement of litter removal activity was carried out in mangrove dominated by Rhizophora sp. The research location was located in the intertidal mangrove affected part tide. Research conducted using only adult Terebralia such as, Terebralia palustris more than 5 cm and Terebralia sulcata more than 3 cm. In subsequent data collection, we made 30 points quadrant with 0.25 x 0.25 m size was determined at random. The average percentage of leaf litter removal by T. palustris is equal to 3,48% ± 0,18 / day for R. apiculata and 8,28% ± 0,13/ day for R. stylosa . While T. sulcata litter parse an average of 4,07% ± 0,12 / day for R. apiculata and 4,93 % ± 0,15 / day for R. stylosa . The results also show that there were no correlation was found between the length and weight percentage T.palustris with decay. Similar with T.sulcata, no correlation was found between the weight of the rate of decay. Instead, there is a correlation between the length of T. sulcata with the percentage of decay.;Research on the role of Terebralia snails in mangrove leaf litter removal and store carbon was held in November and December 2013. Density of research results, Terebralia palustris has the highest density value of 400 individu/m2 . While Terebralia sulcata has a lower density value is 240 individu/m2. Carbon content stored in the body T. palustris ranged from 16.27 to 18.89 % with an average of 17.45 % . While the carbon stored in the body of T. sulcata ranged from 15.98 to 17.62 % with an average of 16.87 %. Potential carbon storage by T. palustris is 4374 g C/m2, whereas T. sulcata potentially storing carbon at 2609 g C/m2. Measurement of litter removal activity was carried out in mangrove dominated by Rhizophora sp. The research location was located in the intertidal mangrove affected part tide. Research conducted using only adult Terebralia such as, Terebralia palustris more than 5 cm and Terebralia sulcata more than 3 cm. In subsequent data collection, we made 30 points quadrant with 0.25 x 0.25 m size was determined at random. The average percentage of leaf litter removal by T. palustris is equal to 3,48% ± 0,18 / day for R. apiculata and 8,28% ± 0,13/ day for R. stylosa . While T. sulcata litter parse an average of 4,07% ± 0,12 / day for R. apiculata and 4,93 % ± 0,15 / day for R. stylosa . The results also show that there were no correlation was found between the length and weight percentage T.palustris with decay. Similar with T.sulcata, no correlation was found between the weight of the rate of decay. Instead, there is a correlation between the length of T. sulcata with the percentage of decay., Research on the role of Terebralia snails in mangrove leaf litter removal and store carbon was held in November and December 2013. Density of research results, Terebralia palustris has the highest density value of 400 individu/m2 . While Terebralia sulcata has a lower density value is 240 individu/m2. Carbon content stored in the body T. palustris ranged from 16.27 to 18.89 % with an average of 17.45 % . While the carbon stored in the body of T. sulcata ranged from 15.98 to 17.62 % with an average of 16.87 %. Potential carbon storage by T. palustris is 4374 g C/m2, whereas T. sulcata potentially storing carbon at 2609 g C/m2. Measurement of litter removal activity was carried out in mangrove dominated by Rhizophora sp. The research location was located in the intertidal mangrove affected part tide. Research conducted using only adult Terebralia such as, Terebralia palustris more than 5 cm and Terebralia sulcata more than 3 cm. In subsequent data collection, we made 30 points quadrant with 0.25 x 0.25 m size was determined at random. The average percentage of leaf litter removal by T. palustris is equal to 3,48% ± 0,18 / day for R. apiculata and 8,28% ± 0,13/ day for R. stylosa . While T. sulcata litter parse an average of 4,07% ± 0,12 / day for R. apiculata and 4,93 % ± 0,15 / day for R. stylosa . The results also show that there were no correlation was found between the length and weight percentage T.palustris with decay. Similar with T.sulcata, no correlation was found between the weight of the rate of decay. Instead, there is a correlation between the length of T. sulcata with the percentage of decay.]

Abstrak :
Upaya mitigasi efek gas rumah kaca telah dilakukan dengan berbagai cara dan pendekatan, salah satunya adalah dengan mengetahui kadar karbon pada cangkang dan tubuh gastropoda mangrove serta faktor lingkungan yang memengaruhinya. Penelitian telah dilakukan di Pulau Rambut dan Pulau Pari dengan mengambil sampel gastropoda Terebralia sulcata serta mengukur parameter lingkungan (suhu udara, pH tanah, salinitas air, dan karbon sedimen). Penelitian bertujuan untuk mengetahui perbedaan kadar karbon cangkang dan tubuh T. sulcata di kedua pulau serta pengaruh lingkungan yang menyebabkan perbedaan hasil tersebut. Metode dalam mendapatkan nilai karbon pada tubuh T. sulcata dan sedimen dilakukan dengan pengabuan, sedangkan kadar karbon cangkang T. sulcata dilakukan dengan pengasaman. Hasil penelitian menunjukkan tidak terdapat perbedaan signifikan antara kadar karbon (%C) cangkang di Pulau Rambut (10,08 ± 0,32) dengan Pulau Pari (10,16 ± 0,90). Sebaliknya, terdapat perbedaan signifikan antara kadar karbon (%C) tubuh di Pulau Rambut (33,66 ± 1,86) dengan Pulau Pari (19,88 ± 1,38). Kadar karbon sedimen dapat menjadi pengaruh kadar karbon tubuh T. sulcata dengan nilai korelasi sebesar 0,492 di Pulau Rambut. ......Mitigation efforts to reduce greenhouse gas effects have been conducted using various approaches, including assessing carbon levels in the shells and bodies of mangrove gastropods, along with the environmental factors that influence them. Research was conducted on Rambut Island and Pari Island, where Terebralia sulcata gastropods were sampled, and environmental parameters (air temperature, soil pH, water salinity, and sediment carbon) were measured. The study aimed to identify differences in carbon levels in T. sulcata shells and bodies between the two islands and determine the environmental factors contributing to these variations. Carbon levels in the gastropod bodies and sediments were measured through combustion, while acidification was used for shell carbon assessment. Results showed no significant difference in shell carbon (%C) between Rambut Island (10.08 ± 0.32) and Pari Island (10.16 ± 0.90). However, a significant difference was observed in body carbon (%C) between Rambut Island (33.66 ± 1.86) and Pari Island (19.88 ± 1.38). The sediment carbon content can influence the carbon content of T. sulcata's body with a correlation value of 0.492 on Pulau Rambut Island.

Abstrak :
Peningkatan timbulan sampah dan perbedaan curah hujan memengaruhi akumulasi mikroplastik dari sungai ke laut. Mikroplastik terdistribusi dan tersebar ke seluruh ekosistem laut, termasuk hutan mangrove. Mikroplastik yang memasuki hutan mangrove terperangkap oleh akar mangrove dan terakumulasi di sedimen. Mikroplastik di sedimen hutan mangrove dapat dengan mudah termakan oleh biota deposit-feeder, seperti siput mangrove. Penelitian ini bertujuan untuk menganalisis perbandingan kelimpahan mikroplastik pada tubuh siput Terebralia sulcata dan sedimen di hutan mangrove Pulau Rambut, Teluk Jakarta, DKI Jakarta tahun 2022 dan 2023 serta untuk menganalisis korelasi antara kelimpahan mikroplastik di sedimen dengan kelimpahan mikroplastik di tubuh siput T. sulcata. Sebanyak 20 sampel T. sulcata dan sedimen diambil di empat stasiun di tahun 2022 dan 2023. Jaringan tubuh T. sulcata dilarutkan dengan HNO3 65% dan diencerkan dengan NaCl jenuh. Sampel sedimen dikeringkan menggunakan oven kemudian 10 g sedimen kering diencerkan dengan larutan NaCl jenuh. Sebanyak 20 mL dari masing-masing sampel dihomogenkan dan diamati di bawah mikroskop dengan tiga kali pengulangan. Hasil penelitian menemukan adanya partikel mikroplastik pada siput T. sulcata dengan kelimpahan sebesar 305,53±64,58 partikel/g pada tahun 2022 dan 324,48±60,91 partikel/g pada tahun 2023. Kelimpahan mikroplastik pada sedimen didapatkan sebesar 66,53±10,69 partikel/g pada tahun 2022 dan 71,77±11,31 partikel/g pada tahun 2023. Dari tahun 2022 ke tahun 2023, kelimpahan mikroplastik mengalami peningkatan sebesar 7,87% pada siput T. sulcata dan 6,2% pada sedimen. Bentuk mikroplastik yang ditemukan pada sampel siput dan sedimen adalah fiber, fragmen, film, dan granul dengan bentuk yang paling banyak ditemukan adalah fiber. Hasil uji korelasi Spearman dalam penelitian ini menunjukkan adanya korelasi positif antara kelimpahan mikroplastik di sedimen dan kelimpahan mikroplastik di T. sulcata. ......The increase in the amount of waste and differences in rainfall affect the accumulation of microplastics from rivers to the sea. Microplastics distributed and spread throughout marine ecosystems, including mangrove forests. Microplastics that enter mangrove forests trapped by mangrove roots and accumulate in sediments. Microplastics in mangrove forest sediments can be easily ingested by deposit-feeder biota, such as mangrove snails. This study aims to analyze the comparison of the abundance of microplastics in Terebralia sulcata and sediment in the mangrove forest of Pulau Rambut, Jakarta Bay, DKI Jakarta in 2022 and 2023 and to analyze the correlation between the abundance of microplastics in sediment and T. sulcata. 20 samples of T. sulcata sediment were collected at four stations in 2022 and 2022. The body tissue of T. sulcata were dissolved with 65% HNO3 and then diluted with saturated NaCl. Sediment samples were dried using an oven then 10 g of dry sediment was diluted with saturated NaCl. A total of 20 mL of each sample was homogenized and observed under a microscope with three repetitions. The results of the study found the presence of microplastic particles in T. sulcata with an abundance was 305.53±64.58 particles/g in 2022 and 324.48±60.91 particles/g in 2023. The abundance of microplastics in sediments was 66.53±10.69 particles/g in 2022 and 71.767±11.31 particles/g in 2023. From 2022 to 2023, the abundance of microplastics increased by 7.87% in T. sulcata and 6.2% in sediment. The forms of microplastics found in T. sulcata and sediment samples were fiber, fragments, films and granules with the most commonly found form was fiber. The results of the Spearman correlation test in this study showed a positive correlation between the abundance of microplastics in the sediment and in T. sulcata.