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Carbon Dynamics of Tropical Forests and Their Role in Climate Change Mitigation: A Bibliometric Analysis (2000-2025)

熱帯林の炭素動態と気候変動緩和におけるその役割:書誌分析(2000-2025年) (AI 翻訳)

Eduardo G. Espejon Jr

Indian Journal of Agricultural Research📚 査読済 / ジャーナル2026-06-10#気候科学
DOI: 10.18805/ijare.af-1049
原典: https://doi.org/10.18805/ijare.af-1049

🤖 gxceed AI 要約

日本語

この研究は、2000年から2025年までの熱帯林炭素動態に関する5,517本の論文を書誌分析した。年間成長率6.76%、国際共著率45.22%で、リモートセンシングと統合的なアプローチへのテーマ移行が確認された。一方で、グローバル共同研究におけるコア・ペリフェリー構造が持続しており、熱帯地域の研究参加拡大が必要である。

English

This bibliometric analysis examines 5,517 articles on tropical forest carbon dynamics from 2000-2025. It reveals a 6.76% annual growth rate, strong international collaboration with 45.22% co-authorship, and a thematic shift from traditional ecology to integrated remote sensing approaches. The study underscores persistent core-periphery collaboration patterns, calling for greater inclusion of tropical regions in research.

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

日本の森林経営やREDD+への参加において、熱帯林の炭素動態研究の動向を把握することで、国際協力や政策立案に貢献する可能性がある。

In the global GX context

This paper provides a comprehensive overview of research on tropical forest carbon, critical for nature-based solutions and REDD+ frameworks. It highlights the need for more inclusive global collaboration, aligning with TNFD and ISSB's emphasis on biodiversity and ecosystem services.

👥 読者別の含意

🔬研究者:Provides a bibliometric landscape for researchers studying tropical forest carbon dynamics.

🏢実務担当者:May not have direct corporate use, but relevant for companies involved in forest carbon offsets.

🏛政策担当者:Useful for policymakers in climate mitigation strategies involving forests.

📄 Abstract(原文)

Tropical forests play a critical role in global carbon cycling and climate change mitigation; however, research in this field has expanded rapidly and remains fragmented across disciplines. This study conducted a bibliometric analysis of scientific publications on carbon dynamics in tropical forests from 2000 to 2025 using data from the OpenAlex database. A total of 5,517 articles were analyzed using the Bibliometrix package in R and Biblioshiny to examine publication trends, citation patterns, key authors, sources, collaboration networks and thematic evolution. Results indicate a steady increase in scientific output, with an annual growth rate of 6.76%, reflecting growing global attention to forest-based climate solutions. Highly cited studies emphasize the importance of biomass estimation, carbon mapping and remote sensing technologies. The field is characterized by strong collaboration, with an average of 6.15 co-authors per document and 45.22% international co-authorship. Core journals such as Forest Ecology and Management and Global Change Biology dominate publication output. Thematic analysis reveals a transition from traditional ecological studies to integrated approaches involving remote sensing and environmental science. Despite this progress, a core-periphery pattern persists in global collaboration, highlighting the need for greater inclusion of tropical regions in research.

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