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  • General publications
  • 23 May 2023
  • Joint Research Centre
  • 2 min read

Forests can store less carbon than previously believed

Reducing the intensity of forest management increases carbon sequestration in forests. However, even if forest management were removed altogether, the mitigation potential of this strategy is limited.

Image of man planting a tree
To compensate for a single year of global CO2 emissions, an area larger than Germany, France and Spain together would need to be reforested/afforested.
@ Patrick, stockadobe.com

Climate change is increasingly putting strain on ecosystems and societies. International policy frameworks such as the UN Framework Convention for Climate Change, the Paris Agreement and the EU’s European Green Deal have been put in place to prevent the worst effects.

These agreements stress the importance of combining strong reductions in emissions with strategies that remove some of the carbon dioxide (CO2) already in the atmosphere. Forests play a large role in this, as they naturally absorb atmospheric CO2 and store it in their biomass.

One proposed strategy is to reduce forest management – such as logging – in order to increase the amount of carbon that can be stored in forests.  A new study by the JRC and ETH Zurich university evaluated how much carbon could be stored in forests under the hypothetical scenario of completely removing forest management. This scenario provides an insight into how much such a strategy could, at best, contribute to climate change mitigation.

The results show that reducing forest management would mitigate climate change only to a limited extent. The hypothetical scenario of removing all forest management, and thus stopping any interference with forests, would only compensate for 4 years of CO2 emissions (at the 2019 CO2 emissions rate from fossil fuel).

Another forest-based climate-change-mitigation strategy put forward is to increase the amount of land covered with forests, by reforesting previously forested areas or afforesting areas that have not (recently) been covered with trees. This strategy is complicated by the strong competition for land presented by agriculture and urban expansion, particularly given the projected population increase in the coming decades.

If this competition for land were somehow to be overcome, storing enough carbon in trees to mitigate climate change in a meaningful way would require massive amounts of land. The study suggests that, to compensate for one single year of global CO2 emissions, an area larger than Germany, France and Spain together would need to be reforested/afforested and allowed to fully grow.

Together, storing carbon in existing forests by forgoing management practices and planting new forests has the potential of sequestering CO2 from the atmosphere, and compensating for carbon emissions. The scale of these processes is, however, insufficient to fully compensate for the current rates of CO2  emissions.

The forest carbon sink should instead be used to compensate for the emissions of those sectors which we cannot decarbonise completely, such as agriculture. Forests do not provide a silver bullet to fight climate change. Reaching carbon neutrality will be a difficult journey, and one in which all other emissions will have to be drastically reduced.

Details

Publication date
23 May 2023
Author
Joint Research Centre
JRC portfolios