Sustainability in Boreal Forests: Does Elevated CO 2 Increase Wood Volume?

While boreal forests constitute 30% of the Earth’s forested area and are responsible for 20% of the global carbon sink, there is considerable concern about their sustainability. This paper focuses on the role of elevated CO 2 , examining whether wood volume in these forests has responded to increased CO 2 over the last 60 years. To accomplish this, we use a rich set of wood volume measurement data from the Province of Alberta, Canada, and deploy quasi-experimental techniques to determine the effect of elevated CO 2 . While the few experimental studies that have examined boreal forests have found almost no effect of elevated CO 2 , our results indicate that a 1.0% increase in lifetime exposure to CO 2 leads to a 1.1% increase in aboveground wood volume in these boreal forests. This study showcases the value of research designs that use natural settings to better account for the effects of prolonged exposure to elevated CO 2 . Our results should enable improved delineation of the drivers of historical changes in wood volume and carbon storage in boreal forests. In addition, when combined with other studies, these results will likely aid policymakers in designing management or policy approaches that will enhance the sustainability of forests in boreal regions.