DOI: https://doi.org/10.14710/jwl.13.1.%25p

Potential Increase in Local Original Government Revenue (PAD) of Cilacap Regency from the Carbon Pricing Sector

*Khaerul Amru  -  Research Center for Environmental and Clean Technology, The National Research and Innovation Agency of Indonesia, Indonesia
Raissa Anjani  -  Research Center for Environmental and Clean Technology, The National Research and Innovation Agency of Indonesia, Indonesia
Mario Damanik  -  Research Center for Behavioral and Circular Economic, The National Research and Innovation Agency of Indonesia. Gedung Widya Graha,, Indonesia
Suryo Wibisono  -  Development Planning, Research, and Development Agency of Cilacap Regency,, Indonesia
Yulizar Ihrami Rahmila  -  Research Center for Ecology and Ethnobiology. The National Research and Innovation Agency of Indonesia., Indonesia
Open Access Copyright (c) 2025 Jurnal Wilayah dan Lingkungan
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Abstract

Climate change in almost all regions including Indonesia not only has an impact on decreasing environmental quality, but also has an impact on the sustainability of the local economy. This is exacerbated by a decrease in carbon sequestration due to land use change and an increase in carbon emissions from various activities. This study aims to conduct an inventory of sequestration, emissions, and carbon valuation so that information about the potential increase in Regional Original Revenue (PAD) of Cilacap Regency from the carbon pricing sector can be obtained. Land cover data from Rupabumi Indonesia (RBI) converted into carbon sequestration values according to the sequestration constant. Meanwhile, carbon emission data obtained from Aksara-Bappenas. The results of the sequestration and emission are used for Net Zero Emission (NZE) evaluation which is then evaluated as a potential increase in PAD from the carbon pricing sector. This study showed the potential for sequestration and carbon emissions in Cilacap Regency of 7,191,181.44 tons CO2 eq and 1,789,759.80 tons CO2 eq respectively. The sequestration that is greater than emissions shows the NZE achievement with an economic value of USD 10,802,843.20 or has the potential to increase PAD by 59.50% from 2022 gains.

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Keywords: Sequestration; Carbon Emissions; Net Zero Emissions; Local Original Government Revenue; Carbon Trade; Carbon Tax

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Section: Research Articles
Language : EN
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  8. Asmin, F. (2018). Ekowisata dan Pembangunan Berkelanjutan (Dimulai dari Konsep Sederhana). In Padang (Issue February)
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  17. For Cities by Cities, & Global Covenant of Mayors for Climate & Energy. (2019). Key Takeaways for City Decision Makers from the IPCC 1.5°C Report and Summary for Urban Policymakers. 1–14
  18. Mashoreng, S., La Nafie, Y. A., & Isyrini, R. (2019). Cultivated Seaweed Carbon Sequestration Capacity. IOP Conference Series: Earth and Environmental Science, 370(1). https://doi.org/10.1088/1755-1315/370/1/012017
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  22. NDC. (2022). Enchanced Nationally Determined Contribution Republic of Indonesia
  23. Pemerintah Daerah Kabupaten Cilacap. (2022). Laporan Keuangan Pemerintah Daerah (Audited) Kabupaten Cilacap (Vol. 01)
  24. Rifandi, R. A., & Abdillah, R. F. (2020). Estimasi Stok Karbon dan Serapan Karbon Pada Tegakan Pohon Mangrove di Hutan Mangrove Trimulyo , Genuk, Semarang. Journal of Environmental Sustainability, 1(2), 63–70. http://e-journal.ivet.ac.id/index.php/envoist/
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  26. Tengah, J., & Suryono, C. A. (2006). Struktur Populasi Vegetasi Mangrove di Laguna Segara Anakan. 11(2), 112–118
  27. World Bank Group. (2021). State and Trends of Carbon Pricing 2021. In State and Trends of Carbon Pricing 2021 (Issue May). https://doi.org/10.1596/978-1-4648-1728-1
  28. Zegeye, G., Erifo, S., Addis, G., & Gebre, G. G. (2023). Economic Valuation of Urban Forest Using Contingent Valuation Method: The Case of Hawassa City, Ethiopia. Trees, Forests and People, 12(June), 100398. https://doi.org/10.1016/j.tfp.2023.100398

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