IEA Bioenergy Response to Chatham House report
A recent report by UK think-tank ‘Chatham House’ on the impact of bioenergy on global climate adds to the increasing number of misleading statements in the context of EU discussions about its energy future.
On Monday, the International Energy Agency Bioenergy Technology Collaboration Programme (IEA Bioenergy) attracted more than 125 academic signatories from both sides of the Atlantic who consider that this report does not present an objective overview of the current state of scientific understanding with respect to the climate effects of bioenergy.
With the upcoming EU-level discussion on the future of European energy, publications analyzing the contribution of bioenergy have proliferated, including the recent Chatham house report “Woody Biomass for Power and Heat: Impacts on the Global Climate”. IEA Bioenergy points out that this report does not present an objective overview of the current state of scientific understanding with respect to the climate effects of bioenergy. The report was analysed by members of the IEA Bioenergy Technology Collaboration Programme with globally recognised expertise in biomass production, carbon accounting and sustainability of biomass. They determined that the major conclusions and policy-specific recommendations are based on unsubstantiated claims and flawed arguments.
The IEA Bioenergy experts identified 3 major areas of concern:
- Climate effects and carbon neutrality of bioenergy. The report gives an inaccurate interpretation of the impact of harvesting on forest carbon stock, proposes a misguided focus on short-term carbon balances and overstates the climate change mitigation value of unharvested forests. It also assumes that forests would remain unharvested and continue to grow if no biomass was used for bioenergy, which is unrealistic.
- Bioenergy and forest products markets and systems. The report considers roundwood to be the main woody bioenergy feedstock, but the on-ground reality is that in the EU, by-products and residues from silviculture are the most common type of feedstock. Furthermore, bioenergy can prompt forest owners to plant more trees and invest in sustainable forest management practices. The report largely overlooks the role bioenergy can play in supporting the urgently needed energy system transition.
- Sustainability criteria. The report fails to acknowledge that forest bioenergy is not a single entity but an integral part of the forest management, forestry and energy-industry system that also produces material products. It is therefore unreasonable to expect that the maintenance of the carbon stock in forests would be guaranteed by sustainability criteria applied to the bioenergy category only.