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A hybrid machine learning framework for land use carbon accounting: A case study of Tanzania

ハイブリッド機械学習フレームワークによる土地利用炭素会計:タンザニアの事例研究 (AI 翻訳)

Talemwa Byomutonzi Johansen, Mwema Felix Mwema, Silas Mirau, Verdiana Grace Masanja

PLOS Climate📚 査読済 / ジャーナル2026-06-12#AI×ESGOrigin: Global対象セクター: agriculture
DOI: 10.1371/journal.pclm.0000952
原典: https://doi.org/10.1371/journal.pclm.0000952
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🤖 gxceed AI 要約

日本語

本研究は、回帰、時系列、機械学習を統合したハイブリッドフレームワークを提案し、タンザニアの土地利用に伴うCO2排出量の分析を行った。ランダムフォレストやXGBoostが高い予測精度を示す一方、結果はモデル構造や仮定に依存することに注意が必要。シナリオ分析では、農地から森林への転換が排出削減に有効であることが示唆された。

English

This study proposes a hybrid framework integrating regression, time-series, and machine learning models for land-use carbon accounting, demonstrated via a Tanzanian case study. Random Forest and XGBoost showed lower prediction errors, but results are contingent on model specification and data structure. Scenario analysis suggests that converting 20% of cropland to forest could reduce emissions by 26%.

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

日本のGX文脈では直接的に関係しないが、途上国での土地利用による炭素会計手法として、JCMや海外でのカーボンクレジット事業に関心のある実務者には参考になる。

In the global GX context

This paper contributes to the global discourse on land-use carbon accounting in data-sparse settings, relevant for Paris Agreement reporting and REDD+ activities. The hybrid machine learning approach offers a practical tool for developing countries to enhance their GHG inventories.

👥 読者別の含意

🔬研究者:Provides a comparative analysis of ML vs traditional models for land-use carbon accounting, highlighting the importance of validation in temporally structured data.

🏢実務担当者:The framework can be adapted by sustainability teams in companies with land-use footprints (e.g., agriculture, forestry) to estimate carbon impacts in data-poor regions.

🏛政策担当者:Supports evidence-based prioritization of land-based mitigation options, but caution is needed due to model dependencies.

📄 Abstract(原文)

This study presents a structured integration of land-use carbon accounting with regression, time-series, and machine-learning models to examine historical patterns and prospective trajectories of land-use related CO 2 emissions in data-constrained settings. Rather than proposing a new accounting methodology, the framework demonstrates how established modeling approaches can be combined to support comparative analysis and scenario exploration. The study demonstrate the framework’s application through a case study of Tanzania, integrating multi-source land-use and socio-economic data within a hybrid ensemble of multiple linear regression, ARIMA time-series modeling, and machine learning approaches (Random Forest and XGBoost). The analysis indicates that land-use change explains a substantial share of modeled emissions variability within the accounting-consistent framework, with cropland-to-forest conversion associated with comparatively larger modeled emission reductions under the explored scenarios. These results reflect model-based associations rather than causal dominance and are conditional on the accounting structure and scenario assumptions. In contrast, Socio-economic drivers, particularly urbanization and economic growth, were associated with variations in modeled emissions, although the magnitude and direction of these effects depend on model specification. Scenario analysis suggests that a 20% conversion of cropland to forest is associated with a reduction in modeled emissions from 24,339–18,041 metric tons, whereas combined urbanization and GDP growth increase projected emissions. Machine-learning models, particularly XGBoost, exhibited lower prediction errors under the adopted validation design; however, because the data are temporally indexed, these results should be interpreted as measures of internal predictive consistency rather than strict out-of-sample forecasting accuracy. Overall, the framework provides evidence-informed and conditional insights that may support prioritization of land-based mitigation options in developing-country contexts under the Paris Agreement, while remaining contingent on model specification, data structure, and validation design.

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