Forests are natural carbon removal sinks. Trees absorb and store gigatons worth of carbon each year. Actively protecting, restoring, and improving management of forests can help society reach our net-zero goals. Project Drawdown estimates that temperate forest restoration, tropical forest restoration, and forest protection can help reduce and sequester between 79.4 and 121.7 gigatons of CO2e over the next thirty years.
How does it work?
Trees remove carbon dioxide from the atmosphere and store carbon in their own biomass - their trunks, branches, roots, and leaves - as they grow. The carbon storage capacity of a tree depends on a number of factors, including size, age, species, location, and forest. According to Global Forest Watch, the world’s forests absorbed a net 7.6 gigatons of CO2 annually between 2001 and 2019.
Carbon offset forestry projects take different approaches to increasing carbon storage in forests. Depending on the method of the project, forestry projects may avoid emissions from being released (a shorter-term approach) -- or they may actually remove or scrub emissions from the atmosphere (a longer-term approach):
We like forestry projects because they reinforce the natural carbon cycle and can create many positive benefits for local communities.
Immediately implementable. Forestry practices are well-established, and no further technological development is required in order to scale forestry projects.
Supports local and indigenous communities. Local and indigenous communities around the world depend on forests for their livelihoods. Forestry carbon projects are one way to support, and create economic opportunities for communities.
Supports biodiversity. Forests are complex ecosystems filled with plants, fungi, animals, and other wildlife. Trees play a number of important functions in these ecosystems, including filtering water, preventing soil erosion, increasing resilience to floods and droughts, and encouraging pollination. Protecting these trees in turn helps protect the entire forest ecosystem.
We are skeptical because long-term forestry management is hard and it can be difficult to track the benefits.
Vulnerable to disturbances. While forests are an effective natural climate solution, they are also prone to both natural and man-made disturbances. Fires, hurricanes, droughts, and other natural events can result in the release of carbon into the atmosphere and must be considered in the carbon accounting of a project. Efforts must also be made to protect projects from illegal logging and other man-made destruction.
Difficult to measure carbon benefits. The carbon impact of a forestry project is measured against a baseline assumption of what would have happened had the project not taken place. Because this baseline is hypothetical, it is hard to prove exactly how “additional” the carbon removal of a forest project is. To address this, a number of organizations involved in forest carbon projects are working to improve monitoring, measuring, reporting, and verification methods.
Risk of displaced emissions. It is possible for forest carbon projects to simply displace deforestation from one place to another, resulting in no actual net reduction or removal of carbon. Forest carbon projects should be able to demonstrate that their activities avoid this “leakage” of carbon impacts to other areas.
What Joro looks for
Reliable data monitoring. Given the challenges around measuring the carbon benefits of forestry projects, Joro looks for projects that use rigorous data monitoring, as well as project suppliers who are constantly innovating and improving on these monitoring techniques.
Benefits to local communities. Joro looks to support projects that build a healthier, more sustainable, more equitable future. In line with this vision, Joro looks for projects that actively engage and support local communities.
Projects we recommend
Pachama: Brazil Nut Concessions.This project, sourced from Pachama, is a collaboration with over 300 landowners to prevent deforestation across 143 parcels of land. Besides protecting natural forest sinks, it also supports the local economy with the harvest of Brazil Nuts, a valuable commodity only found in old-growth rainforest. This project is verified by Verra, and its maintenance is validated by Pachama’s proprietary satellite imagery data and analysis.
Pachama: NIHT Topaiyo. Papua New Guinea is the world’s largest exporter of tropical timber wood. This project, sourced from Pachama, partners with local landowners to turn forested land slated for timber harvest into carbon credit projects. Pachama uses third-party standards and their own satellite imagery and analysis to validate and ensure that forestry projects are being maintained and protected. In addition to climate impacts, this project protects the integrity of local ecosystems and reinvests revenues into the local community.
Cool Effect: Oaxaca Forestry. Mexico’s 65 million hectares of forest are disappearing at a rate of 1 million hectares a year. This project, sourced from Cool Effect, prevents forest exploitation and restores areas affected by damage from erosion, fires, and illegal grazing, among other dangers. Without the project, the main activity is slash-and-burn agriculture with some cattle grazing. The project is a community effort, managed by local landowners who pooled their resources, and has created 50 jobs for local residents.