Mapping the irrecoverable carbon in Earth’s ecosystems

Avoiding catastrophic climate change requires rapid decarbonization and improved ecosystem stewardship at a planetary scale. The carbon released through the burning of fossil fuels would take millennia to regenerate on Earth. Though the timeframe of carbon recovery for ecosystems such as peatlands,...

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Bibliographic Details
Published in:Nature sustainability 2022-01, Vol.5 (1), p.37-46
Main Authors: Noon, Monica L., Goldstein, Allie, Ledezma, Juan Carlos, Roehrdanz, Patrick R., Cook-Patton, Susan C., Spawn-Lee, Seth A., Wright, Timothy Maxwell, Gonzalez-Roglich, Mariano, Hole, David G., Rockström, Johan, Turner, Will R.
Format: Article
Language:English
Subjects:
704/106/694
704/106/694/1108
Adaptive management
Carbon
Climate change
Decarbonization
Earth
Earth and Environmental Science
Ecosystems
Emissions
Environment
Global climate
Global warming
Indigenous peoples
Land use
Local communities
Logging
Mangroves
Native peoples
Net zero
Peatlands
Protected areas
Sustainable Development
Wildfires
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Summary:Avoiding catastrophic climate change requires rapid decarbonization and improved ecosystem stewardship at a planetary scale. The carbon released through the burning of fossil fuels would take millennia to regenerate on Earth. Though the timeframe of carbon recovery for ecosystems such as peatlands, mangroves and old-growth forests is shorter (centuries), this timeframe still exceeds the time we have remaining to avoid the worst impacts of global warming. There are some natural places that we cannot afford to lose due to their irreplaceable carbon reserves. Here we map ‘irrecoverable carbon’ globally to identify ecosystem carbon that remains within human purview to manage and, if lost, could not be recovered by mid-century, by when we need to reach net-zero emissions to avoid the worst climate impacts. Since 2010, agriculture, logging and wildfire have caused emissions of at least 4.0 Gt of irrecoverable carbon. The world’s remaining 139.1 ± 443.6 Gt of irrecoverable carbon faces risks from land-use conversion and climate change. These risks can be reduced through proactive protection and adaptive management. Currently, 23.0% of irrecoverable carbon is within protected areas and 33.6% is managed by Indigenous peoples and local communities. Half of Earth’s irrecoverable carbon is concentrated on just 3.3% of its land, highlighting opportunities for targeted efforts to increase global climate security. Avoiding catastrophic climate change requires that we avoid losing key natural carbon reserves. This study maps such irrecoverable carbon globally and finds a third of the remaining managed by Indigenous peoples and local communities and nearly a quarter in protected areas.
ISSN:2398-9629
2398-9629
DOI:10.1038/s41893-021-00803-6