Credit: Credit, S. Lewis.
International plans to restore forests to combat global warming are flawed and will fall far short of meeting 1.5C climate targets, according to new research by UCL and University of Edinburgh scientists.
The study, published as a comment piece in this week’s Nature, reveals that almost half (45%) of the vast areas that countries have pledged are set to become plantations of commercial trees, a move which will seriously reduce expected carbon uptake and prevent agreements to curb climate change being met.
Lead author, Professor of Global Change Science, Simon Lewis (UCL Geography) said, “There is a scandal here. To most people forest restoration means bringing back natural forests, but policy makers are calling vast monocultures ‘forest restoration’. And worse, the advertised climate benefits are absent.”
“Plantations are much poorer at storing carbon than natural forests. To combat climate change, natural forest restoration is clearly the most effective approach. Well-managed forests can also help to alleviate poverty in low-income regions, as well as conserve biodiversity and support the UN’s Sustainable Development Goals.”
To meet 1.5C requires rapid emissions cuts and removing carbon from the atmosphere. The international community is striving to restore 350 million hectares of forest, an area slightly larger than the size of India, by 2030, to do just this.
New calculations based on 43 countries’ restoration pledges show that only by allowing natural forests to return would sufficient carbon be captured for new forests to play their part in meeting global climate goals.
The 43 tropical and sub-tropical countries — where trees grow fast — have signed up to restoration commitments, many as part of the Bonn Challenge that aims to restore 350 million hectares of forest. Together, those countries, which include Brazil, India and China, have already committed to restore 292 million hectares of forest.
The study, which is the first in the world to compile and analyse country-level commitments for forest restoration, shows that land put aside for natural forests holds 40 times more carbon than plantations and six times more than agriculture that mixes trees and crops, known as agroforestry.
Using long-term carbon sequestration rates for natural forest, plantations and agroforestry, the researchers show that restoring natural forests over 350 million hectares of land removes 42 billion tonnes of carbon by 2100, whereas using current pledges for plantations (45%), natural forests (34%) and agroforestry (21%) applied to the whole area reduce this to 16 billion tonnes of carbon by 2100, assuming that all new natural forests are protected. And if commercial monocultures were planted across 100% of the area just 1 billion tonnes of carbon is sequestered.
Countries differ vastly in their commitments. Vietnam represents the world’s largest commitment of new natural forests, at 14.6 million hectares; Brazil has pledged 19 million hectares of new plantations; Nigeria has the most agroforestry, 15.7 million hectares.
Co-author Dr Charlotte Wheeler (University of Edinburgh and formerly of UCL) said, “The reason plantations are so poor at storing carbon is that they are harvested every decade or so, meaning all the carbon stored in the trees goes back into the atmosphere, as the plantation waste and the wood products – mostly paper and chipboards – decompose.
“Instead, restoring all 350 million hectares back to natural forests can meet the role forests need to play under Inter-governmental Panel on Climate Change emissions pathways that keep global warming to 1.5C.
“Of course, new natural forests alone are not sufficient to meet our climate goals. Emissions from fossil fuels and deforestation must also stop. Other ways to remove carbon from the atmosphere are also needed. But, no scenario has been produced that keeps climate change below dangerous levels without the large-scale restoration of natural forests.”
The scientists recommend that the definition of ‘forest restoration’ excludes monoculture plantations, and propose four ways to increase carbon capture from today’s forest restoration schemes. Firstly, increase the proportion of land being regenerated to natural forest; second, prioritise restoration in Amazonia, Borneo and the Congo Basin, which support very high biomass forest compared to drier regions; third, build on existing carbon stocks by targeting degraded forests for natural regeneration; and fourth, once natural forest is restored, protect it.
Notes to Editors
A full list of country restoration commitments is in Supplementary Information Table S1, and carbon implications of the national plans and scenarios is in Table S5.
Forty-three tropical and sub-tropical countries have pledged 292 million hectares under forest restoration (87% of global restoration commitments). Twenty-four of these countries have detailed the type of restoration (196 million hectares, 67% of the pledged area), showing 45% new plantations, 34% new natural forest, and 21% new agroforestry.
The research is funded by Natural Environmental Research Council Open CASE Award to S.L.L. and C.W. C.W and E.M were funded by the UK Space Agency grant ‘Forests 2020’.
For more information or to speak to the researchers involved, please contact:
Natasha Downes, UCL Media Relations. T: +44 (0)20 3108 3844, E: [email protected]
Simon Lewis, Charlotte Wheeler and colleagues. ‘Regenerate natural forests to store carbon,’ will be published in Nature online on Tuesday 2 April 2019 and in print on Thursday 4 April 2019.
Images are available here. Please credit as below.
- Restoration opportunity map across 43 tropical and sub-tropical countries. Data source: Minnemeyer, S., et al. Bonn Challenge: A World of Opportunity (World Resource Institute, 2011).
- 18-year-old naturally regenerating forest (exclusion of fire, some planting of native species) in Kibale National Park, Uganda. The forest supports elephants and many species of monkey after just 18 years. Credit, S. Lewis.
About UCL (University College London)
UCL was founded in 1826. We were the first English university established after Oxford and Cambridge, the first to open up university education to those previously excluded from it, and the first to provide systematic teaching of law, architecture and medicine. We are among the world’s top universities, as reflected by performance in a range of international rankings and tables. UCL currently has over 41,500 students from 150 countries and over 12,500 staff.