Sequestering Carbon in Native Forests Part II

Part II of this series discusses what carbon sequestration is, as well as an overview of how to do it with trees. 

“The term sequestration means achieving and maintaining a net increase in the amount of organic carbon present in a soil,” Battaglia, 2011.

Sequestering carbon using trees means managing the trees so that the net amount of carbon captured through photosynthesis is greater than the net amount of carbon released by respiration, burning, logging and so on (see Fig. 1).


Fig. 1. Overview of main effects of forest management options for sequestration. The chart shows pools and services (grey boxes), fluxes of carbon (arrows) (Böttcher, 2007).

Using natural biophysical processes to lock the carbon in the soils makes the captured carbon relatively stable and able to stay in that state for a long time. There are many factors inherent to the amount of carbon that can be sequestered, from rainfall to soil type to vegetation to land use.

The disturbance to Australia’s forests and soil wrought by commercial agricultural operations and land clearing cannot be overstated; between 2000 and 2004 nationally there was a net loss of 287 000 hectares of forest (State of the Environment Committee, 2006), an area larger than the Australian Capital Territory and since 1973 there has been a net loss of tree cover every year (see Fig. 2, below) (one could safely assume that since white settlement there has been an overall downward trend in tree cover in Australia but there are no concise records).

Fig 2. Net forest change in Australia (using forest regrowth and deforestation data) 1973–2004 (State of the Environment Report, 2006).

To effectively use forests to sequester carbon the landscape must be managed using whole system thinking so the needs of the environment and agriculture are balanced (Battaglia, 2011). Forests that are overly ‘managed’ such as plantations are sometimes less effective at sequestering carbon because the mortality of the trees cannot be captured as dead branches, roots and so on being returned to the soil by natural process (Binkley et al, 1997).

For this reason, the minimum length of time for a stand of trees to sequester its full potential of carbon (in best conditions) is 100 years (see fig. 3, below).

Fig. 3. Cumulative carbon sequestered by a permanent stand of southern pine and by a periodically harvested stand (Vled and Plantinga, 2005).

Although the diagram is specific to southern pines this trend is common to all forests. Using trees in this way is effective as it requires no great input of infrastructure or costs once the trees have been planted and it takes carbon out of the atmosphere and places it in a stable and long-term storage system.


Author: mirisumwelt



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