News Release

Young forests could help to capture carbon in climate change fight

Peer-Reviewed Publication

University of Birmingham

Young forests regrowing from land where mature woodlands have been cut down have a key role to play in removing billions of tonnes of atmospheric carbon dioxide (CO2) and combating climate change, a new study reveals.   

To avoid severe global warming, large-scale removals of atmospheric carbon are needed. Forest regeneration offers a cost-effective method for carbon removal, but rates vary by location and forest age.  

Researchers have discovered that young secondary forests, particularly those aged between 20 and 40 years, exhibit the highest rates of carbon removal – locking away up to eight times more carbon per hectare than newly regenerating forests. 

Publishing their findings in Nature Climate Change an international team of scientists highlights several critical findings, including: 

  • Carbon removal rates vary significantly across different biomes and ecoregions, with tropical moist forests reaching their peak carbon removal capacity earlier than boreal and Mediterranean forests. 

  • Protecting existing young secondary forests offers immediate and substantial carbon removal benefits - delaying forest regeneration efforts reduces the potential for carbon sequestration. 

Their study reveals that if 800 million hectares of restorable forest begin regenerating in 2025, up to 20.3 billion metric tonnes of carbon could be removed by 2050 but delays sharply reduce this potential. 

Co-author Professor Adriane Esquivel-Muelbert, from the University of Birmingham, commented: “Our research underscores the critical role of young secondary forests in the global fight against climate change. The upcoming COP30 in Belém, Brazil presents a critical opportunity for world leaders to take decisive action. 

“We urge policymakers to prioritise the protection and regeneration of young secondary forests as a key component of climate mitigation strategies. This can help us achieve faster and more substantial carbon removal, contributing significantly to global climate goals." 

Using a comprehensive dataset of more than 100,000 field estimates, researchers employed advanced random forest models to predict carbon densities in five-year age intervals, from five to 100 years - resulting in detailed global maps of carbon removal rates. 

Co-author Dr Tom Pugh, from the University of Birmingham, commented: “Current carbon market methodologies often overlook the protection of very young secondary forests. This study highlights the need to revise these methodologies to credit the substantial carbon removal potential of these forests.” 

ENDS   

For more information, please contact the University of Birmingham press office on pressoffice@contacts.bham.ac.uk or +44 (0) 121 414 2772.  

Notes to Editors   

  • The University of Birmingham is ranked amongst the world’s top 100 institutions, its work brings people from across the world to Birmingham, including researchers and teachers and more than 8,000 international students from over 150 countries.  

  • ‘Protect young secondary forests for optimum carbon removal’ - Nathaniel Robinson, C. Ronnie Drever, David A. Gibbs, Kristine Lister, Adriane Esquivel-Muelbert, Viola Heinrich, Philippe Ciais, Celso H. L. Silva-Junior, Zhihua Liu, Thomas A. M. Pugh, Sassan Saatchi, Yidi Xu, and Susan C. Cook-Patton is published in Nature Climate Change. 

  • Participating institutions: The University of Birmingham, UK; The Nature Conservancy, Worthington, USA; CIFOR-ICRAF, Nairobi, Kenya; Nature United, Toronto, Canada; World Resources Institute,  Washington, DC, USA; Duke University, Durham, USA; Helmholtz Centre for GeoSciences (GFZ), Potsdam, Germany; University of Bristol, Bristol, UK; Université Paris-Saclay, France; Instituto de Pesquisa Ambiental da Amazônia - IPAM, Brasília, Brazil; Universidade Federal do Maranhão (UFMA), São Luís, Brazil; CTrees, Pasadena, USA; Lund University, Sweden; NASA Jet Propulsion Laboratory, Pasadena, USA; The Nature Conservancy, Arlington, USA; and Smithsonian Environmental Research Center, Edgewater, USA.   


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