Bioenergy plantations or long-term carbon sinks? – A model based analysis
Artikel i vetenskaplig tidskrift, 2009
In order to mitigate climate change bio-productive land may be used mainly in two ways:
afforestation with long-rotation forests with the primary aim to act as carbon sinks, and
short-rotation forests that are used for energy purposes and thereby replace fossil fuels.
Under an ambitious climate target, land that may be used for both bioenergy plantations
and long-rotation forests, are likely to be scarce, and thereby competition between longrotation
forests and bioenergy plantations can be expected. The goal of the study is to
analyze the cost-effectiveness of bioenergy plantations versus long-rotations forests aimed
at capturing and storing carbon. The study is performed by solving and analyzing a linear
optimization model that links the energy system, an afforestation sector and the pulp and
timber market. Many earlier studies tend to suggest that long-rotation forests offer lower
costs per ton of CO2 avoided. Our study, however, shows that long-rotation forests for the
purpose of carbon sequestration will not be cost-effective in the long run under a stringent
climate policy. Thus, economic efficiency considerations tend to support short-rotation
plantations for high carbon prices. The reason for this is that scarcity of land increases the
opportunity cost of land, a feature which is generally not captured in static near-term
analysis, but it is captured in a dynamic model like ours. For less stringent carbon targets
long-rotation forests, that are harvested and sold as timber are cost-effective during
a transient phase.
Climate change
Carbon sinks
Biomass