Coal mining has been one of the issues that led to pros and cons in Indonesia. Research shows that mining activities are one of the factors that affect people's incomes and local and national economic development. However, mining is a lucrative activity that leads to construction booms that attract population growth and lead to deforestation, thus affecting the environmental conditions of a region. The coal mining industry of Indonesian province of East Kalimantan, on the island of Borneo, provides most of the economic base needed to build the infrastructure and provide energy of the country. Kalimantan Province accounts for approximately 90 % of the entire country's coal production. East Kalimantan, with its mining operations mainly in the district of Kutai and its expanded territory, is a major coal-producing region of the country. This article will examine how coal mining sector contributes to environmental conditions and Human Development Index (HDI) in the province of East Kalimantan. This research was conducted using a combination of scientific methods, including literature, spatial analysis using geographic information system (GIS) technology, and quantitative data analysis. From the analysis of the spatial issuance of coal mining permit in East Kalimantan, the coal mining sector has a direct impact on regional revenue and contributes indirectly to the HDI in the province of East Kalimantan. However, it turns out that the planning and management of natural resources field exploitation business licenses are not performed systematically. As a result, many problems arise, such as disputes over control and ownership of land (agrarian conflicts), damage to the landscape, deforestation, environmental pollution, and public health problems. Thus, anticipatory measures are needed by the government so that the economy of East Kalimantan Province remained stable and sustainable.
The coastal area has experienced significant changes of waste problems over the past few years. To resolve the waste problems in coastal areas, an understanding of community perception is needed to support government efforts. Therefore, this study aims to review people’s perspectives on the dynamics of waste in the coastal areas. Community perception data were compiled through semi-structured interviews with the surrounding communities in coastal areas. ArcGIS and load count analysis were used to analyze the waste density. Waste was collected from the coastal area in Ambon Bay and analyzed using waste density calculation and spatial analysis. The results show that the total waste density obtained at the coastal area of Ambon Bay is 0.249 kg/m2, of which 0.078 kg/m2 is the density of plastic waste, and 0.171 kg/m2 is the density of non-plastic waste. Communities in coastal areas have made efforts to deal with waste problems, but the efforts made are still ineffective in overcoming these problems. That problem happens because there is a lack of knowledge of the community and lack of infrastructure in coastal areas. The research results have the potential for replication in other coastal areas and are used as the basis of decision making for waste management improvement.
The Citarum River is one of the most polluted rivers in the world because of the inadequate waste management system and community ignorance. Plastic is one of the contaminants in the Citarum watershed. In general, plastics less than 5 mm in size are defined as microplastics. Microplastics are persistent and harm the environment. This article aims to determine the potential for pollution and distribution of microplastics in freshwater systems, especially in the Citarum watershed area. Using a combination of literature study methods with Geographical Information Systems (GIS) analysis, this article explains that microplastic contamination has occurred along the Citarum watershed from upstream to downstream, found in water and sediment and fish samples. Facilitated by their small size and high stability in the environment, microplastics can move from the aquatic environment into the food chain and cause longterm damage. This case causes a severe threat to the quality of freshwater in the Citarum watershed. Therefore, this article can be used as a reference for managing pollution in the Citarum watershed area.
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