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Pradisty, Novia Arinda

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Author-ID : 2136977

Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Engineering Environmental Science

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Water Quality Assessment in The Occurrence of Acanthaster spp. (Crown-of-Thorns Starfish, CoTS) on Coral Reefs in Menjangan Island, Bali, Indonesia Pradisty, Novia Arinda; Ampou, Eghbert Elvan; Hanintyo, Rizki
Makara Journal of Science Vol. 24, No. 3
Publisher : UI Scholars Hub

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Aquatic stressors are known to cause biological impairment that can result in biodiversity loss in several Marine Protected Areas (MPA), including in Menjangan Island, West Bali National Park. The objectives of this study were to correlate the changes in water quality parameters with the biological effect of Crown-of-Thorns starfish (CoTS) population dynamics and to assess the most applicable parameters for continuous environmental monitoring. Field observations and surveys were conducted three times in 2017, during the wet season, dry season and season transition, in order to assess the effect of seasonal variability. Redundancy Analysis (RDA) was performed to determine the relationship between water quality parameters (temperature, dissolved oxygen, pH, salinity, turbidity, total suspended solids, dissolved inorganic nitrogen and phosphate, and chlorophyll-a) and phytoplankton as the indicator of CoTS larvae food supply. The results demonstrate that salinity, turbidity, and dissolved inorganic nitrogen (DIN) are responsible for the 47.7% of phytoplankton variation, which supports the hypothesis of nutrient enrichment as the trigger of CoTS population increase. CoTS outbreak is predicted to occur during the wet season, in areas with high salinity, moderate turbidity, and high DIN, so the outbreak may be related to a high rainfall rate that deliver a high nutrient loading on this region and thus management actions can be initiated during this specific period.

Fe(III) Oxide-modified Indonesian Bentonite for Catalytic Photodegradation of Phenol in Water Pradisty, Novia Arinda; Sihombing, Riwandi; Howe, Russell Francis; Krisnandi, Yuni Krisyuningsih
Makara Journal of Science Vol. 21, No. 1
Publisher : UI Scholars Hub

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Phenol, which is a major organic pollutant, is usually detected in industrial wastewater, and thus the wastewater should be processed further before discharged into water bodies. Application of heterogeneous catalysis using natural-basedmaterials is known to be effective and environmentallyfriendlyinremoving hazardous substances in water. In this study, local natural bentonite from the Tapanuli region in Indonesia was modified to eliminate dissolved phenol. Elimination by photodegradation reaction was conductedinaphoto-Fenton system utilizing Fe(III) oxide-modifiedbentonite (Fe-B) as catalyst. Fe-B was prepared byacation exchanging process using mixture solutions of NaOH and FeCl3 with OH/Femolar ratio of 2:1 and calcined at 300 °C. Material characterization was performed by X-ray diffraction (XRD), low-angle XRD, Fourier transform infrared spectroscopy and atomic absorption spectroscopy. The reaction components consisted of ultraviolet Clight, H2O2, and Fe-B, and they were processed in a batch reactor. The role of each component was analyzed by a series of reaction conditions (i.e., adsorption, photolysis, H2O2effect, Fenton, and homogeneous photo-Fenton). The heterogeneous photo-Fenton system was found to be essential for phenol degradation, as none of the reaction conditions caused total phenol removal in the 180 min reaction time. To conclude, heterogeneous photo-Fenton gave the highest photodegradation activity, and the best experimental condition for 1.10 mM phenol removal was 5 g L-1 catalyst, 78.35 mM H2O2, and 90 minreaction time.

MONITORING MANGROVE UNTUK ESTIMASI POTENSI KARBON BIRU DI DUMAI, RIAU Wigdati, Nuryani; Sidik, Frida; Pradisty, Novia Arinda
JFMR (Journal of Fisheries and Marine Research) Vol. 5 No. 2 (2021): JFMR
Publisher : Faculty of Fisheries and Marine Science, Brawijaya University, Malang, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.jfmr.2021.005.02.34

Mangrove menyediakan berbagai jasa ekosistem, salah satunya adalah sebagai penyerap dan penyimpan karbon biru. Perhitungan jumlah simpanan dan serapan karbon di hutan mangrove menjadi penting karena hutan mangrove di Indonesia memiliki simpanan karbon biru tertinggi di dunia. Informasi potensi karbon biru mangrove dapat diperoleh dari kegiatan monitoring mangrove yang dilakukan secara berkala. Dengan lokasi penelitian di Dumai, Riau, studi ini mengestimasi karbon yang disimpan dan diserap oleh pohon mangrove di tepi sungai dan dalam hutan. Struktur komunitas diketahui dengan menghitung Shannon-Wiener Index, sementara biomasa dan potensi simpanan karbon mangrove dihitung dengan persamaan alometrik khusus berdasarkan jenis. Jenis mangrove yang ditemukan di lokasi penelitian antara lain Rhizophora apiculata, Avicennia marina, Xylocarpus granatum, Bruguiera gymnorrhiza, Sonneratia alba, Lumnitzera racemosa, dan Nypa frutican, dimana Â Stasiun Tepi Sungai didominasi oleh Xylocarpus granatum (kisaran Ã˜ 1.36-23.25 cm), sementara Rhizophora apiculata mendominasi stasiun di dalam hutan dengan kisaran Ã˜ 1.27-23.25 cm. Laju pertumbuhan mangrove cukup beragam dan Avicennia marina memiliki laju tercepat. Hasil menunjukan bahwa dengan estimasi rata-rata biomasa mangrove sekitar 596.56 Mg ha-1 hutan mangrove di Dumai, Riau berpotensi menyimpan karbon sebesar 285.24 Mg C ha-1. Karbon yang tersimpan di Stasiun Dalam Hutan lebih besar (332.9 Mg C ha-1) dibandingkan dengan di Stasiun Tepi Sungai (237.58 Mg C ha-1). Apabila satu hektar hutan mangrove di Dumai, Riau, rusak atau hilang, maka potensi karbon yang dilepaskan sebesar 1046.83 Mg CO2 ha-1, yaitu setara dengan jumlah CO2 yang terlepas dari pembakaran 524.82 ton batu bara.Mangroves provide various ecosystem services, one of which is as a carbon sink and storage. The assessment of mangrove carbon stock and sequestration becomes a global concern especially for Indonesiaâ€™s mangrove forests that store most of mangrove blue carbon in the world. Blue carbon potentialsl in mangroves can be estimated by assessing mangroves through periodic monitoring. Here, the study was undertaken in mangrove forests in Dumai, Riau and aimed to assess the carbon stored and sequestered in mangroves located riverside and inside the forests. The forest structure was examined with the Shannon-Wiener Index, while biomass and potential carbon storage of mangroves calculated by specific allometric equations based on the species. The species found in the study site were Rhizophora apiculata, Avicennia marina, Xylocarpus granatum, Bruguiera gymnorrhiza, Sonneratia alba, Lumnitzera racemosa, and Nypa frutican. The riverside station was dominated byÂ Xylocarpus granatum (ranging Ã˜ 1.36-23.25 cm), whileÂ Rhizophora apiculata dominated the station inside the forest (ranging Ã˜ o1.27-23.25 cm). The rates of mangrove growth varied among the species, with Avicennia marina as the greatest. Our result showed that the mean of mangrove biomass in the study site was 596.56 Mg ha-1 with carbon stock potential of 285.24 Mg C ha-1. Mangroves inside the forests stored more carbon (332.9 Mg C ha-1) than ones in the riverside (237.58 Mg C ha-1). We estimated that the destruction of one hectare of mangrove forest in the study site can potentially release 1046.83 CO2, which is equivalent to CO2 released from 524.82 tonnes of burned coals.

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