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Terjadinya Perubahan iklim pada saat ini telah mengkibatkan dampak buruk terhadap kehidupan makhluk hidup di permukaan bumi. Kekeringan, banjir atau rob, gelombang udara panas, dan badai merupakan beberapa contoh yang disebabkan oleh Perubahan iklim. Pada sektor pertanian, kondisi tersebut akan menyebabkan produksi tanaman mengalami penurunan yang cukup signifikan sehingga mengganggu ketahanan pangan nasional dan menurunkan pendapatan petani dan devisa negara. Penyebab utama terjadinya Perubahan iklim adalah meningkatnya emisi gas rumah kaca (terutama gas CO2) di udara, yang dihasilkan oleh aktivitas manusia (antropogenik). Untuk mengurangi emisi gas CO2 Pemerintah Republik Indonesia telah mencanangkan Rencana Aksi Nasional Penurunan Emisi Gas Rumah Kaca (RAN-GRK) sesuai Peraturan Presiden Nomor 61 tahun 2011. Salah satu kegiatan utamanya adalah penanaman 105.200 ha tanaman karet. Peran ekologis tanaman karet yaitu tajuknya dapat menyerap gas CO2 dari udara dan dari hasil biji karet dapat dibuat biodiesel dengan gas buang CO2 yang lebih rendah dari bahan bakar minyak (solar), sehingga tanaman karet mempunyai peran yang penting dalam mengurangi kejadian Perubahan iklim (mitigasi). Jumlah CO2 yang diserap oleh tanaman karet bervariasi tergantung kepada umur tanaman, kondisi tanaman, kesuburan tanah, dan teknis budidaya yang diterapkan. Rata-rata stok karbon pada karet tradional (perkebunan rakyat) 19,8 ton C/ha, sedangkan pada karet klon unggul (perkebunan besar) 42,4 ton C/ha. Jumlah gas CO2 yang diserap oleh perkebunan karet di Indonesia mencapai 291,16 Mton CO2e. Potensi produksi biodiesel dari RSO di Indonesia mencapai 424.460 ton. Campuran solar dan biodiesel dari RSO dapat menurunkan emisi gas buang CO2 sebesar 40,14%. Role of rubber plant in climate change mitigation Climate change happened and resulted in adverse effect of our life on the earth's surface. Droughts, floods, or rob, heatwaves, and hurricanes happened recently of incident that might be caused by climate change. In the agricultural sector, these conditions will lead to reduction of yields significantly, in turn disrupt the national food security and reduce foreign exchange. Major factor that may induce climate change is the increased greenhouse gas emissions primarily CO2 in air, generated by human activity (anthropogenic). To reduce emissions of CO2 gas, Government of Indonesia has launched the National Action Plan for Reducing Emissions of Greenhouse Gases (RAN-GRK) through Presidential Decree No. 61 of 2011. One of the main activity is the planting of 105,200 ha of rubber trees. Ecological role of the rubber plant is an sequestration CO2 from the air. Moreover, rubber yielded may be converted into biodiesel fuel having CO2 content being lower than diesel oil in otherwords, rubber plant has an important role in reducing of incidences of climate change (mitigation). The amount of CO2 is sequestrated by rubber plant varies depending on the age of the plant, crop conditions, soil fertility and technical cultivation applied. Average of carbon stock of those rubber plants cultivated traditionally was 19.8 ton C / ha, while those superior clone ones was 42.4 ton C/ha. The amount of CO2 gas sequestrated by rubber in Indonesia reached of 291.16 Mton CO2e. Potentially biodiesel production developed from the RSO in Indonesia reached 424,460 ton, blending of diesel oil and biodiesel from RSO able to reduce CO2 emissions of 40.14%.

Area of Indonesia consists of 80% water, which contains abundance of potential fish resources, Those fish resources should be utilized for as much as prosperity and welfare for Indonesian. In fact, fish resourceshaven't enhanced the living standard, which is sustainable and equitable. Issues on fisheries come up such as exaggeration of fishing, theft fish, illegal fishing activities and the use of fish resources that exceeding thegeneration of fish itself. That circumstance will cause harm for the state, the fishermen, as well as people in general. The use of tools that harm the nature will cause the decrease of fish resources and threat thesustainability of fish resources. The aim of writing this article is to analyze law enforcement related to the sustainability of fish resources and the sustainability of fish resources, viewed from the perspective of justice.As the result of the study, law enforcement to protect the fish resources generally has not given attention to the sustainability of fish resources, therefore fishermen still use unfriendly tools to catch the fishes. Thoseunfriendly tools will cause the occurrence of over-fishing and will impact to the environmental damages. Those kinds of things will destruct the fishes, therefore the quantity of fish will have deteriorated and evencould be extinct. Those environmental damages would suffer the present generation as well as the next generation since they couldn't consume fish which is very essential for the growth of the human body anderadicate the job for the people as the fishermen. The present generation will be sinful if the next generation will get the impact of what the present generation done. In order to reduce more over-fishing activities and the distrust of the fish habitat it needs the law enforcement, which is oriented to the sustainability of fish resources. The sustainability of fishery resources couldn't maintain its existence, this could be seen as the symbol of environmental damages. In this case, the law also needs to make integration of fish resources sustainability to be processed so that it will result output law enforcement which is oriented to fish resourcessustainability. As a conclusion, in law enforcement oriented to fish resources sustainability, it needs to be thought by the lawmaker to embed that the law should contain idea or concept about justice, legal certainty,the significance of fish resources and the implementation of the law itself. In the fish resources utilization and law enforcements, it needs to pay attention to the justice principle; intergenerational equity; intergenerational equity; precautionary; conservation of biological diversity; conservation of biological diversity.

Carbohydrates can be obtained from tubers such as cassava. Cassava is a plant from family euphorbiaceae and typical tropical plants. Cassava peel is a major waste that contains carbohydrates. The peel of cassava can be used as an energy source, namely ethanol.The purpose of this study is to determine the contents of ethanol through the fermentation process of cassava peel where obtainable from Malino village, Batu Daka West, Tojo Una-Una. The parameters in this study was content of ethanol that was obtained by fermentation using saccaromyces cerevisiae yeast. The fermentation process was conducted by varying day of fermentation, 4, 6, 8, and 10 days. The results showed the fermentation of ethanol with time variation respectively is 4.50, 5.20, 6.00 and 4.00%. In conclusion, it can be said that the highest ethanol content is 6.00% with the fermentation time of 8 days.

Analysis of biomass and carbon stock on mangrove forest ecosytem in coastal area of North Rupat Riau Province has been conducted in January 2016. The method used in this study is a survey method with purposive sampling technique. The study showed that the potential mangrove biomass was directly proportional to mangrove carbon stocks. The average yield of biomass, carbon stocks of soil organic carbon and CO2 sequestration on mangrove forest was reserves amounted to 68,64 tons/ha , 904,75 tons/ha and 251,39 tons/ha, while the average yield of total carbon stocks was 973,31 tons/ha.

Measurement of biomass and carbon is very important to know how much the amount of carbon that can be absorbed by plants. Object of this study was the lower plants at USU Arboretum. The method of measurement used is the destructive sampling method that is by harvesting the entire plant is located on the bottom of 1m x 1m sample plots. The results of this study indicate that there were 29 species of lower plants. Carbon stock in the lower plants contained below is 1,08 ton/ ha. 101201092

The use of manure and litter as bio gas-producing material is one solving problem of sanitation and environmental health as well as the control of environmental pollution, especially in the vicinity of the farm and the market environment. To obtain biogas productivity and optimum quality then conducted a study with the aim to determine the effect of a composition ratio mix of fish maw, kale and feces of pigs against pH, productivity in this case, the gas pressure (Pa), gas mass (kg) and the volume of gas (m3), as well as the quality of the biogas as measured by the amount of calorific value (J), and power (watts), and the color of the flame produced. The results showed that the composition ratio of a mixture of 1: 1: 1 has the most stable pH with the average of 7. The gas pressure, gas mass and the volume of gas produced by the mixture composition ratio of 1: 1: 1 is larger than the composition ratio of a mixture of 2 : 1: 1, 1: 2: 1 and 1: 1: 2 with 3851.4 Pa gas pressure, gas mass kg 0.011568938 and 0.145424439 gas volume m3 calorific value of 19.680 kJ and 177.142 watts of power, as well as the color of the flame, produced that is blue. It can be concluded that the mixture composition ratio of 1: 1: 1 is the productivity and quality of the most optimal.

The phenomenon of global warming which is accompanied by climate changed, is the real threat to the community in the present and future. Indonesia is one of the most vulnerable countries affected by climate change. Tasikmalaya is the district with rank of hazard indexes is 5th in Indonesia. Sub district Salawu in Tasikmalaya district is a disaster-prone districts. One kampong in Salawu which still holds strong culture and customs is Kampung Naga. The aim of the study were analyzed potential disaster that related of climate change in Kampung Naga, and analyzed the the abilities of Kampung Naga community in mitigating disaster of climate change. The study used a qualitative descriptive analysis method. Potential disaster analyzed qualitatively based on condition of geomorphologi and location. Disaster mitigation capabilities were analyzed qualitatively from customs. Based on geomorphologi condition and location, hazards of climate change that could potentially be disastrous in Kampung Naga were landslide and floods. The abilities of Kampung Naga community in disaster mitigation of climate change, is affected by the traditional wisdom that was reflected from forest conservation, building, infrastructure and spatial patterns of kampong which could prevent landslide and flood. Fenomena pemanasan gobal yang diiringi dengan terjadinya Perubahan iklim, merupakan ancaman nyata bagi masyarakat di masa kini dan yang akan datang.Indonesia merupakan salah satunegara yang rentan terkena dampak Perubahan iklim. Kabupaten Tasikmalaya menduduki urutan kelima peringkat indeks rawan bencana di Indonesia. Kecamatan Salawu di Kabupaten Tasikmalaya rawan bencana. Kampung Naga adalah kampung yang masih memegang kuat budaya dan adat di Kecamatan Salawu. Tujuan penelitian adalah untuk menganalisis potensi bencana terkait Perubahan iklim di Kampung Naga dan menganalisis kemampuan mitigasi bencana masyarakat Kampung Naga terhadap Perubahan iklim. Penelitian ini menggunakan metoda analisis deskriptif kualitatif. Potensi bencana dianalisis secara kualitatif berdasarkan kondisi geomorfologi dan lokasi kampung. Kemampuan mitigasi bencana dianalisis secara kualitatif berdasarkan adat istiadat. Bahaya akibat Perubahan iklim yang berpotensi menjadi bencana di Kampung Naga adalah tanah longsor dan banjir. Kemampuan mitigasi bencana masyarakat Kampung Naga terhadap Perubahan iklim dipengaruhi kearifan tradisional yang tercermin dari konservasi hutan, bangunan, infrastruktur dan pola ruang kampung yang dapat mengurangi ancaman bencanatanah longsor dan banjir.

Plant growth interpretation in term of accumulated intercepted solar radiation and the radiation use efficiency (RUE) was used to study the growth and analysis of Jatropha (Jatropha curcas L.). A number of crop growth simulation models have been developed using the RUE concept to predict crop growth and yield in various environments. These models generally calculate daily biomass production as the product of the quantity of radiation intercepted and RUE. This research was carried out to quantify the RUE, biomass and leaf area index on Jatropha under rainfall condition, four levels of nitrogen fertilizer (N) and three population densities (P) planted twice. The experiments used a systematic Nelder fan design with 9 spokes and 4 – 5 rings were conducted at SEAMEO-BIOTROP field experiment in 2007. Data from the first experiment were used for parameterization and calibration and the second experiment data for model validation. Values of RUE were determined by nitrogen fertilizer and plant density. Based on parameterization, we found that RUE for prediction above ground biomass accumulation of Jatropha were 0.94 (r=0.83) g MJ-1 to 1.3 (r=0.75) g MJ-1. Validation between model prediction and field experimental data showed that model can simulate crop growth and development of Jatropha.

Biomass of timber post forest harvest (natural forest or made man forest0 that available at the felling site is one of natural sources which have a volume still potentially. These materials can be use for energy sources or fulfil of additional materials for pulp and paper industries or another product as availability of volume, type and seize of biomass which usually called as wastes. This potency can be obtained from plantation forest and or natural forest especially on conversion forest production in the form of wastes of bucking, trimming, main stem, branch and stump. The problem is how to collect it in an effective and efficient way. The availability of wood wastes among other due to other function has high condition, particularly for plywood and timber construction as well. For example the length of wood to short, to small of diameter, many defect, decay and holes or bending. Other form are stump and roots, branches and to many bandings. Mostly all of wood wastes are used for layer when equipment wills passing that rows. Similar thing can also obtain from limb trees hit by tree which is cut, hit on skidding operation and road construction.

Recently a comprehensive source of data and information on carbon storage in various types of forest ecosystems and other land use in Java Island are still limited. This study was carried out in a conservation area of Bromo Tengger Semeru National Park (TNBTS) that represents the ecosystem types of lowland rain forest, sub-montane forests and mountain forests in Java. The information on carbon sequestration and carbon stocks at TNBTS becomes important. The main objective of this study was to estimate biomass and carbon storage in various types of forests in TNBTS using allometric approaches. The additional objectives were to estimate carbon storage on various land cover and to estimate the changes in carbon storage by land cover changes during the period 1990, 2000 and 2013. The measurement of forest carbon include aboveground, understorey, necromass and litter pools covering all ecosystem such as primary forest, secondary forest with high- and low- canopy density. This study found that the average of carbon stocks in primary forest were 193,49 ± 125,98 tonC/ha, and were 267,42 ± 119,25 tonC/ha in secondary forest. The total carbon stocks in the period 1990–2000 has decreased about 22.6 tonC/ha/year and in the period 2000–2013 has increased about 41.2 tonC/ha/year. The enhancement of carbon stocks in this area was driven by an intensive forest protection, good monitoring and land rehabilitation.