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"This article argues that the practice of agroforestry provides ecological contributions to the smallholder farmers cultivating in the watershed areas. Specifically, this farming system provides contribution to carbon sequestration potential of the woody perennials and the biodiversity conservation of the other components of the system.  This argument is based on the research conducted in Molawin-Dampalit Sub-Watershed, Mt. Makiling Forest Reserve in the Philippines and Way Betung Watershed in Indonesia. The research involved an interview session of 106 and 261 smallholder farmers and an assessment of 27 and 14 agroforesty plots for carbon stock assessment and biodiversity assessment, respectively. Results indicated that the total carbon found among the crop components was 52.32 MgC/ha in Molawin-Dampalit Sub-Watershed­ and 244.26 MgC/ha in Way Betung Watershed­, which suggested the high carbon sequestration potential of the woody perennials and understory crops in an agroforestry system. The farm lots being cultivated by the smallholder farmers were found to contribute to biodiversity conservation having a moderate biodiversity index of 2.59 and 2.53, respectively. With these findings, promotion of desired agroforestry systems in suitable portions of the watershed areas should be intensified and heightened to contribute to ecological balance across the landscape. Agroforestry should always be an integral part of all initiatives toward ecological restoration with the cultivators/smallholder farmers as potential partners. The agroforestry system should consider all the technical and socioeconomic considerations toward having diverse components and ensure food security among the smallholder farmers throughout the year."

"Penelitian estimasi cadangan karbon pada vegetasi tegakan tiang dilakukan di Hutan Kota Universitas Indonesia, Depok. Penelitian bertujuan untuk mengestimasi cadangan karbon pada vegetasi tegakan tiang Hutan Kota UI, yang terbagi menjadi tiga zona yaitu Wales Barat, Wales Timur dan Vegetasi Alami. Selain itu, penelitian dilakukan untuk mengetahui spesies dari vegetasi tegakan tiang yang menyimpan cadangan karbon terbesar. Penelitian dilakukan pada bulan Agustus-Desember 2017. Penelitian dilakukan dengan metode nondestruktif. Jumlah plot yang digunakan adalah 75 plot, yang dibagi kedalam tiga zona, masing-masing 25 plot berukuran 10x10m. Nilai cadangan karbon tegakan tiang diperoleh dengan menghitung biomassa dari data lingkar batang tiang setinggi dada DBH. Penghitungan biomassa vegetasi tegakan tiang dilakukan dengan persamaan allometrik B = 0,11 D 2 0,62 Ketterings, dkk. 2001. Persamaan tersebut melibatkan berat jenis kayu tiap spesies yang didata. Rata-rata cadangan karbon vegetasi tegakan tiang di Hutan Kota UI adalah 11,505 ton/ha, dengan cadangan karbon terbesar pada Wales Timur 17,262 ton/ha dan terkecil pada Vegetasi Alami 6,876 ton/ha. Cadangan karbon rata-rata vegetasi tegakan tiang terbesar di Hutan Kota UI terdapat pada Hopea sp. Merawan dengan nilai 0,327 ton/ha.

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The study of carbon stock estimation on pole veget was done in the urban forest of Universitas Indonesia, Depok. The aims of this study are to estimate the carbon stock of pole stage in Urban Forest of Universitas Indonesia, which divided into three zones Wales Barat, Wales Timur and Vegetasi Alami. In addition, this study was conducted to determine species in pole stage that hold the largest carbon stock. The research was done in August December 2017 by non destructive method. The carbon stock value obtained from the biomass calculation based on poles diameter at breast height DBH. The Biomass calculation was done using an allometric equation B 0.11 D 2 0.62 Ketterings, et al., 2001. Allometric equation that used involves wood density of every species that found. Number of plots that used is 75, and then divided to 3 zones, 25 plots each with 10x10 m2 wide. The average of carbon stock value in Urban Forest of Universitas Indonesia is 11.505 ton ha, with Wales Timur have largest carbon stock 17.262 ton ha and Vegetasi Alami have smallest carbon stock 6.876 ton ha. Species of pole stage with largest average carbon stock in Urban Forest UI is Hopea sp. Merawan with 0,327 ton ha."

"Local chikens is one of the poultry wich is potential as meat and egg producer. In Indonesia local chiken population is distributed espicially in rural areas and commanly raised extensively or traditionally..."

"Skripsi ini bertujuan untuk mengkaji formulasi kebijakan teknologi carbon capture, utilisation, and storage (CCUS) yang diatur melalui Peraturan Menteri ESDM No. 2 Tahun 2023 dan Peraturan Presiden No. 14 Tahun 2024. Di saat ini, dua regulasi yang hadir tersebut hanya mengatur penggunaan CCUS dalam industri migas secara eksklusif. Kelemahan terbesar yang ada merupakan ketidakhadiran dari insentif ekonomi yang diberikan pemerintah untuk kontraktor atau pelaku industri aktivitas CCUS. Dengan harga hingga USD$1 miliar per fasilitas, adopsi CCUS dengan regulasi yang ada sekarang memiliki lebih banyak resiko daripada keuntungan bagi pelaku industri yang relevan. Keberlanjutan teknologi CCUS di Indonesia juga menjadi pertanyaan mengingat peraturan yang ada tidak membahas penelitian domestik yang dapat mengembangkan CCUS lebih lanjut dan mempermudah adopsinya kedepan. Skripsi ini ingin menjawab mengapa Permen ESDM No. 2 Tahun 2023 dan Perpres No. 14 Tahun 2024 terbatas dalam formulasinya. Penelitian ini menggunakan metode kualitatif melalui wawancara dan studi literatur, dimana yang terkumpul akan dianalisis menggunakan teori Bounded Rationality milik Herbert Simon seperti yang dijelaskan oleh Bryan Jones. Keterbatasan yang ditemukan dalam proses perumusan kebijakan CCUS di Indonesia disebabkan oleh tiga faktor: 1) keterbatasan informasi akibat usia muda teknologi penangkapan karbon sehingga data lapangan yang tersedia cukup terbatas; 2) keterbatasan kognisi para pembuat kebijakan yang ditandai dengan ketidakmampuan mereka untuk sepenuhnya memahami kebutuhan, masalah, dan risiko yang mungkin terjadi dalam operasi CCUS; 3) keterbatasan waktu akibat keberadaan kepentingan Indonesia dalam pemenuhan janji-janji yang dibuat pada saat KTT G20 tahun 2022 dan peluang untuk menarik investasi sehingga para pembuat kebijakan mengeluarkan regulasi dalam waktu yang singkat. Kombinasi dari ketiga keterbatasan ini menyebabkan para pembuat kebijakan menghasilkan regulasi tidak optimal, dan hanya menghasilkan regulasi yang “cukup” (satisficing).

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This thesis aims to examine the policy formulation of carbon capture, utilisation, and storage (CCUS) technology regulated through Permen ESDM No. 2 Tahun 2023 and Peraturan Presiden No. 14 Tahun 2024. Presently, the two existing regulations only control the use of CCUS in the oil and gas industry exclusively. The biggest drawback is the absence of economic incentives provided by the government for contractors or industry players of CCUS activities. Costing up to USD$1 billion per facility, the adoption of CCUS with the current regulations has more risks than benefits for the relevant industry players. The sustainability of CCUS technology in Indonesia is also questionable as the existing regulation does not address domestic research that could further develop CCUS and facilitate its future adoption. This thesis aims to answer why Permen ESDM No. 2 Tahun 2023 and Perpres No. 14 Tahun 2024 are limited in their formulation. This research uses qualitative methods through interviews and literature studies, wherein the data collected will be analysed using Herbert Simon's Bounded Rationality theory as explained by Bryan Jones. The limitations found in the CCUS policy formulation process in Indonesia are caused by three factors: 1) limited information due to the young age of carbon capture technology resulting in the limited available field; 2) limited cognition of policymakers characterised by their inability to fully understand the needs, problems, and risks that may occur in CCUS operations; 3) limited time due to the existence of Indonesia's interest in fulfilling the promises made during the G20 Summit in 2022 and the opportunity to attract investment caused the policymakers to issue regulations in a short time period. The combination of these three limitations causes policy makers to produce non-optimal regulations, and only produce "satisficing" regulations."

"Integrated farming system between crops and animals has been practiced for along time by the farmers in Indonesia, espicially in the village

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"In order to investigate spatial and temporal variability of dissolved organic carbon 9DOC) and particulate organic carbon (POC) , several samples were collected from five estuaries,inner part and outer part of jakarta Bay...."

"ABSTRAKDAS Semangka di Provinsi Lampung memiliki potensi pengatur tata air, penyedia oksigen, dan cadangan karbon pada dua wilayah konservasi di dalamnya yaitu Taman Nasional dan Hutan Lindung. Potensi cadangan karbon berkurang dipengaruhi deforestasi pada wilayah konservasi. Oleh karena itu penelitian ini penting untuk mengetahui secara spasial dan temporal deforestasi dan cadangan karbon. Perhitungan cadangan karbon dan overlay klasifikasi tutupan lahan dengan Citra Landsat digunakan untuk analisis deforestasi serta penurunan cadangan karbon di wilayah konservasi dalam periode 1996 ndash; 2016. Penurunan cadangan karbon teritinggi DAS Semangka periode 1996 ndash; 2016 pada ketinggian 1.001-1.500 mdpl dan kelerengan 0-2 dengan penurunan cadangan karbon 26 jutaton.

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ABSTRACTSemangka Watershed in Lampung Province has potential as regulate water, oxygen providers, and carbon stocks in two conservation areas which are National Park and Protected Forest. The potential for carbon stocks had reduced due to deforestation in conservation areas. Therefore, this research was important to know deforestation and carbon stocks spatially and temporally. The calculation of carbon stocks and overlay of land cover classification with Landsat Imagery was used for deforestation analysis as well as decrease of carbon stock in conservation area from period 1996 ndash 2016. The highest decrease of carbon stocks in Semangka Watershed at an altitude of 1.001 1.500 masl and slopes 0 2 was 26 million carbon stock decrease in the period from 1996 2016."

"Telah dilakukan pengamatan transformasi fasa pada sistem besi-karbon (Fe-C) melalui pengamatan penganalisa perubah panas (Differential Thermal Analyzer, DTA). Sampel Fe-C dipersiapkan dengan metode metalurgi serbuk menggunakan serbuk besi dan karbon murni (> 99 %), meliputi komposisi nominal paduan karbon rendah (0,1 wt.%), hypoeutectoid (0,4 wt.%), dan eutectoid (0,8 wt.%). Hasil pengukuran DTA dalam jangkau temperatur antara 25 0C-1100 0C menunjukkan bahwa pada sampel Fe murni diamati dua temperatur transisi endotermik masing-masing pada 773,8 0C berkaitan dengan transformasi feromagnet (α) menjadi paramagnet (β) dan pada temperatur 930 0C berkaitan dengan transformasi fasa β menjadi fasa austenit (γ). Kedua temperatur transisi ini juga secara konsisten teramati untuk kesemua sampel Fe-C yang dipelajari, namun dengan penambahan satu temperatur transisi sekitar 753 0C. Temperatur transisi tambahan ini berasal dari transformasi fasa pearlit menjadi austenit. Data pengukuran perubahan panas dalam jangkau temperatur 25 0C-1100 0C digunakan untuk menentukan nilai kapasitas panas, Cp sampel untuk jangkau temperatur tersebut. Hasil regresi polinomial terhadap kurva Cp sebagai fungsi T menghasilkan koefi sien regresi yang cukup baik berkisar di antara 0,8 dan 1,0.

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Phase Transformation Studies of Fe-C System with Differential Thermal Analyzer: Phase transformation studies for ironcarbon (Fe-C) system have been done by means of Differential Thermal Analyzer, DTA. Fe-C samples of nominal compositions for respectively low carbon containing alloy (0.1 wt.%), hypo eutectoid (0.4 wt.%), and eutectoid (0.8 wt.%) were prepared by powder metallurgy process using pure Fe and C powder materials (>99 %) as the feed stock. Measurement by DTA in the temperature range 25 oC?1100 oC for the samples indicated that there are two endothermic temperatures transition in pure Fe sample respectively at 773.8 oC associated with phase transformation of ferromagnetic (α) to paramagnetic (β) and at 930 oC due to a phase transformation of β-ferrite to austenite (γ). The two transition temperature was also consistently observed in all Fe-C samples but with one additional temperature transition at about 753 oC associated with a phase transformation of pearlite to austenite. Data of heat change measurement in the temperature range 25 oC-1100 oC were subsequently used for determination of heat capacity, Cp for the Fe-C samples as the function of T. Cp (T) curves when fi tted by polynomial regression have resulted in regression coeffi cients between 0.8 and 1.0."