碳捕获和储存(时间表)
环境科学
化石燃料
具有碳捕获和储存功能的生物能源
碳纤维
二氧化碳
地球大气中的二氧化碳
温室气体
气候变化
碳循环
极限(数学)
大气(单位)
固碳
自然资源经济学
环境保护
地球科学
地质学
化学
气象学
生态学
计算机科学
废物管理
地理
生态系统
海洋学
工程类
数学
经济
有机化学
复合数
生物
算法
数学分析
作者
Matthew Gidden,Siddharth Joshi,John Armitage,Alina-Berenice Christ,Miranda Boettcher,Elina Brutschin,Alexandre C. Köberle,Keywan Riahi,Hans Joachim Schellnhuber,Carl-Friedrich Schleußner,Joeri Rogelj
出处
期刊:Nature
[Nature Portfolio]
日期:2025-09-03
卷期号:645 (8079): 124-132
被引量:1
标识
DOI:10.1038/s41586-025-09423-y
摘要
Abstract Geologically storing carbon is a key strategy for abating emissions from fossil fuels and durably removing carbon dioxide (CO 2 ) from the atmosphere 1,2 . However, the storage potential is not unlimited 3,4 . Here we establish a prudent planetary limit of around 1,460 (1,290–2,710) Gt of CO 2 storage through a risk-based, spatially explicit analysis of carbon storage in sedimentary basins. We show that only stringent near-term gross emissions reductions can lower the risk of breaching this limit before the year 2200. Fully using geologic storage for carbon removal caps the possible global temperature reduction to 0.7 °C (0.35–1.2 °C, including storage estimate and climate response uncertainty). The countries most robust to our risk assessment are current large-scale extractors of fossil resources. Treating carbon storage as a limited intergenerational resource has deep implications for national mitigation strategies and policy and requires making explicit decisions on priorities for storage use.
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