Abstract
Climate change mitigation benefits from the land sector are not being fully realised because of uncertainty and controversy about the role of native forest management. The dominant policy view, as stated in the IPCC’s Fifth Assessment Report, is that sustainable forest harvesting yielding wood products, generates the largest mitigation benefit. We demonstrate that changing native forest management from commercial harvesting to conservation can make an important contribution to mitigation. Conservation of native forests results in an immediate and substantial reduction in net emissions relative to a reference case of commercial harvesting. We calibrated models to simulate scenarios of native forest management for two Australian case studies: mixed-eucalypt in New South Wales and Mountain Ash in Victoria. Carbon stocks in the harvested forest included forest biomass, wood and paper products, waste in landfill, and bioenergy that substituted for fossil fuel energy. The conservation forest included forest biomass, and subtracted stocks for the foregone products that were substituted by non-wood products or plantation products. Total carbon stocks were lower in harvested forest than in conservation forest in both case studies over the 100-year simulation period. We tested a range of potential parameter values reported in the literature: none could increase the combined carbon stock in products, slash, landfill and substitution sufficiently to exceed the increase in carbon stock due to changing management of native forest to conservation. The key parameters determining carbon stock change under different forest management scenarios are those affecting accumulation of carbon in forest biomass, rather than parameters affecting transfers among wood products. This analysis helps prioritise mitigation activities to focus on maximising forest biomass. International forest-related policies, including negotiations under the UNFCCC, have failed to recognize fully the mitigation value of native forest conservation. Our analyses provide evidence for decision-making about the circumstances under which forest management provides mitigation benefits.
Highlights
Storage of carbon as biomass in the land sector is an important activity for climate change mitigation
We have demonstrated that changing native forest management from commercial harvesting to conservation can make an important contribution to climate change mitigation
The mitigation benefit of carbon stock changes due to forest management is determined by the net effect on the atmospheric carbon dioxide concentration over time [77]
Summary
Storage of carbon as biomass in the land sector is an important activity for climate change mitigation. In Australia, an estimated 44% of the carbon stock in temperate forests has been emitted due to deforestation [4] Reducing these emissions and restoring the land carbon stock by identifying strategies for forest management that increase carbon storage is an important component of a comprehensive approach to climate change mitigation [5]. It is argued that mitigation benefits can be derived from using forest biomass as a feedstock for bioenergy, substituting for an equivalent amount of fossil fuel energy, and avoiding the associated carbon dioxide emissions. Given that a range of forest management and carbon accounting strategies is possible with varying mitigation outcomes, a critical question is: how can we best manage forests and their harvested products to maximise carbon storage in the land sector and minimise net anthropogenic greenhouse gas emissions?
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