Indonesia Carbon Sequestration Calculator
インドネシア炭素隔離計算機と政策分析 (AI 翻訳)
Mezy Fadhila
🤖 gxceed AI 要約
日本語
本リポジトリは、IPCCガイドラインに基づいてインドネシアの2050年ネットゼロ達成に必要な森林・沿岸域面積を計算するツールと、コンプライアンス型吸収源認証制度の分析報告書を提供する。永続性・追加性・資金調達の課題を批判的に検討している。
English
This repository provides an open-source calculator for estimating forest and coastal areas required for Indonesia's 2050 net-zero target, based on IPCC guidelines, along with a critical analysis of a proposed compliance-based sequestration certificate scheme, addressing permanence, additionality, and financing challenges.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
本論文はインドネシアのネットゼロ目標達成のための炭素隔離計算ツールを提供し、さらにコンプライアンス型吸収源認証制度の分析を行っています。日本のJ-クレジットやJCM制度と比較する上で有用な知見を提供します。
In the global GX context
The paper contributes to global GX discourse by providing an open-source carbon sequestration tool and a critical assessment of applying energy-based offset models to biological sinks. It offers lessons for designing robust carbon certificate schemes under the Paris Agreement and for countries like Japan using similar mechanisms.
👥 読者別の含意
🔬研究者:Researchers can use the calculator for benchmarking and explore the analytical critique of permanence and additionality in forestry offsets.
🏢実務担当者:Practitioners in carbon offset development can gain insights into the risks and necessary safeguards for biological sequestration projects.
🏛政策担当者:Policymakers can learn from the identified structural flaws in Indonesia's proposed certificate scheme and apply lessons to similar national systems.
📄 Abstract(原文)
Indonesia Carbon Sequestration Calculator & Policy Analysis This repository contains the Indonesia Carbon Sequestration Calculator, a FastAPI-based web application designed to calculate the required forest and coastal areas necessary to achieve Indonesia's 2050 Net Zero carbon emission targets. The computational logic is grounded in the IPCC 2006 Guidelines Volume 4 (AFOLU) Tier 1 methodology. Key Features of the Calculator: Dynamic Emission Modeling: Utilizes a 3-point emission model (Initial Year, Peak Year, Target Year 2050) to project the required carbon sequestration volume. Land-Use Allocation: Computes the balance between existing available forest/coastal areas and the required new planting allocations. Customizable Sequestration Variables: Allows adjustments for forest and coastal sequestration rates, root-to-shoot ratios (including below-ground biomass), degradation rates, and localized risk factors. Interactive Data Visualization: Generates projection charts mapping emission trajectories against required mitigation efforts over time. Included Analytical Report: In addition to the software, this repository includes a critical analysis report on the proposed "Compliance-Based Sequestration Certificate Scheme" for Indonesia (modeled after Australia's LGC scheme). The analysis evaluates logic gaps in translating energy-based models to biological carbon sectors, specifically addressing: Permanence and Reversal Risks in forestry. The Ex-Post Financing dilemma for capital-intensive restoration projects. Additionality concerns between "Existing" vs. "New" carbon sinks. Structural demand limits within state-owned enterprises (e.g., PLN). Technical Stack: Python 3.11, FastAPI, Uvicorn, Jinja2, Pydantic.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.5281/zenodo.20130084first seen 2026-05-31 05:07:00 · last seen 2026-06-03 04:44:32
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