森林再生による気候緩和効果を再評価（SYSU researchers redefine forestation’s role in climate mitigation）

2025-08-31 中山大学（SYSU）

中山大学（SYSU）大気科学学院の秦章才教授率いる研究チームは、森林造成による気候変動緩和効果を再評価し、その実効的な炭素隔離能力を明らかにした（Science掲載）。従来、森林によるCO₂吸収量は年間30億～300億トンと幅広く推定されてきたが、土壌炭素変化の不確実性や国ごとの政策的コミットメントの差が大きな要因だった。研究チームは世界の土壌データを基に機械学習モデルを構築し、森林造成後の土壌炭素動態を定量化。生物量炭素隔離や生態・気候・政策要因も統合した新たな評価枠組みを提示した。その結果、理論的には年間5億トンのCO₂隔離が可能だが、土地利用の持続性や各国の政策制約を考慮すると実際の能力は年間1.5億トンにとどまると結論付けた。これは従来の過大評価を修正し、各国の誓約と現実的な土地ポテンシャルとの乖離を浮き彫りにするものである。研究は国際的な気候協力や自然に基づく解決策の科学的基盤を提供する。

＜関連情報＞

森林化による地球規模の気候緩和効果は土地利用可能性と政策コミットメントによって制限される Land availability and policy commitments limit global climate mitigation from forestation

Yijie Wang, Yakun Zhu, Susan C. Cook-Patton, Wenjuan Sun, […] , and Zhangcai Qin
Science Published:28 Aug 2025
DOI:https://doi.org/10.1126/science.adj6841

Editor’s summary

Cutting emissions is necessary to curb climate change, but storing carbon in forest biomass and soils can also contribute to climate mitigation. Estimating the potential increase in forest carbon is hindered by limited data on soil carbon sequestration rates and unrealistic assumptions about the land available for forestation. Wang et al. addressed these issues by synthesizing soil data and considering potential effects of forestation on warming, water quality, and biodiversity to produce a more realistic estimate: <40 petagrams of carbon by 2050 from reforestation and afforestation, which is much lower than previous estimates. Considering only the land that has been pledged for forestation in existing policy commitments further reduces the estimate. —Bianca Lopez

Abstract

Forestation (afforestation and reforestation) could mitigate climate change by sequestering carbon within biomass and soils. However, global mitigation from forestation remains uncertain owing to varying estimates of carbon sequestration rates (notably in soil) and land availability. In this study, we developed global maps of soil carbon change that reveal carbon gains and losses with forestation, primarily in the topsoil. Constraining land availability to avoid unintended albedo-induced warming and safeguard water and biodiversity (389 million hectares available for forestation globally) would sequester 39.9 petagrams of carbon by 2050, substantially below previous estimates. This estimate drops to 12.5 petagrams of carbon with land further limited to existing policy commitments (120 million hectares). Achieving greater mitigation requires expanding dedicated forestation areas and strengthening commitments from nations with considerable but untapped potential.