The State of Carbon Dioxide Removal

New edition of the State of Carbon Dioxide Removal coming on 4 June 2024.

New data, new chapters, key updates.

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Image shows front cover of the State of Carbon Dioxide Removal report. Text reads "A global independent scientific assessment of CarbonDioxide Removal, 1st edition." Cover images is of green bark from a tree and abstract graphs are used as visuals.

1st Edition re-cap

Carbon Dioxide Removal (CDR) involves capturing carbon dioxide (CO₂) from the atmosphere and storing it for decades to millennia on land, in the ocean, in geological formations or in products.

Innovation in CDR has expanded substantially, exemplified by R&D, in patents and capacity investment. CDR has been subject of increasing public attention, and the peer-reviewed scientific literature now consists of over 28,000 English-language studies, growing at a faster rate than for climate change as a whole.

Virtually all current CDR (99.9% or 2 GtCO₂ per year) comes from conventional management of land, primarily via afforestation and reforestation.

Only a tiny fraction (0.1% or 0.002 GtCO₂ per year) results from novel CDR methods which involve storing captured carbon in the lithosphere, ocean or products. This is shown in the figure below.

Examples of novel CDR include Bioenergy with Carbon Capture and Storage (BECCS), biochar, and Direct Air Carbon Capture and Storage (DACCS).

$Image shows that only a tiny fraction of all current carbon dioxide removal results from novel methods (shown in yellow, 0.002GtCO2 per year); a grey bar shows that 2GtCO2 per year is removed by conventional CDR.$

Download this figure (PDF)

While scenarios show that the bulk of CDR deployment will occur in the second half of the century, those levels will only be feasible if we see substantial new deployment in the next 10 years - novel CDR’s formative phase. Almost all scenarios that limit warming to 1.5°C or 2°C require novel CDR.

We find a gap between proposed CDR deployment and what will be needed to meet the Paris temperature goal to limit warming to well below 2°C and pursue efforts to achieve 1.5°C.

About 120 national governments have a net-zero emissions target, which implies using CDR to counterbalance residual emissions. But few have actionable plans for developing CDR, particularly for novel methods.

The figure below shows that CDR is needed in scenarios to meet the Paris Agreement’s temperature goal, in addition to reducing emissions.

Download this figure (PDF)

This report is intended to regularly inform researchers, policymakers and practitioners on the state of progress, by systematically collecting and analysing the vast amount of data and developments in many parts of the world.

If we are to meet the temperature goal of the Paris Agreement, scaling up novel CDR, expanding land-based CDR and the rapid reduction of emissions are urgent priorities.

“In the coming years, this global CDR report should continue to regularly inform policymakers on the state of progress, by systematically collecting and analysing the vast amount of data and developments in many parts of the world.”