Impacts of frequent burning on live tree carbon biomass and demography in post-harvest regrowth forest

Luke Collins, Trent Penman, Fabiano de Aquino Ximenes, Doug Binns, Alan York, Ross Bradstock

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The management of forest ecosystems to increase carbon storage is a global concern. Fire frequency has the potential to shift considerably in the future. These shifts may alter demographic processes and growth of tree species, and consequently carbon storage in forests. Examination of the sensitivity of forest carbon to the potential upper and lower extremes of fire frequency will provide crucial insight into the magnitude of possible change in carbon stocks associated with shifts in fire frequency. This study examines how tree biomass and demography of a eucalypt forest regenerating after harvest is affected by two experimentally manipulated extremes in fire frequency (i.e., ~3 year fire intervals vs. unburnt) sustained over a 23 year period. The rate of post-harvest biomass recovery of overstorey tree species, which constituted ~90% of total living tree biomass, was lower within frequently burnt plots than unburnt plots, resulting in approximately 20% lower biomass in frequently burnt plots by the end of the study. Significant differences in carbon biomass between the two extremes in frequency were only evident after >15-20 years of sustained treatment. Reduced growth rates and survivorship of smaller trees on the frequently burnt plots compared to unburnt plots appeared to be driving these patterns. The biomass of understorey trees, which constituted ~10% of total living tree biomass, was not affected by frequent burning. These findings suggest that future shifts toward more frequent fire will potentially result in considerable reductions in carbon sequestration across temperate forest ecosystems in Australia.
    Original languageEnglish
    Pages (from-to)802-821
    Number of pages20
    JournalForests
    Volume5
    Issue number4
    DOIs
    Publication statusPublished - 2014

    Keywords

    • Australia
    • biomass
    • bushfires
    • carbon
    • eucalyptus
    • forests
    • fuel reduction (wildfire prevention)

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