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    The role of fire in the carbon dynamics of the boreal forest

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    Author
    Balshi, Michael S.
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    URI
    http://hdl.handle.net/11122/6954
    Abstract
    The boreal forest contains large reserves of carbon, and across this region wildfire is a common occurrence. To improve the understanding of how wildfire influences the carbon dynamics of this region, methods were developed to incorporate the spatial and temporal effects of fire into the Terrestrial Ecosystem Model (TEM). The historical role of fire on carbon dynamics of the boreal region was evaluated within the context of ecosystem responses to changing atmospheric CO₂ and climate. These results show that the role of historical fire on boreal carbon dynamics resulted in a net carbon sink; however, fire plays a major role in the interannual and decadal scale variation of source/sink relationships. To estimate the effects of future fire on boreal carbon dynamics, spatially and temporally explicit empirical relationships between climate and fire were quantified. Fuel moisture, monthly severity rating, and air temperature explained a significant proportion of observed variability in annual area burned. These relationships were used to estimate annual area burned for future scenarios of climate change and were coupled to TEM to evaluate the role of future fire on the carbon dynamics of the North American boreal region for the 21st Century. Simulations with TEM indicate that boreal North America is a carbon sink in response to CO₂ fertilization, climate variability, and fire, but an increase in fire leads to a decrease in the sink strength. While this study highlights the importance of fire on carbon dynamics in the boreal region, there are uncertainties in the effects of fire in TEM simulations. These uncertainties are associated with sparse fire data for northern Eurasia, uncertainty in estimating carbon consumption, and difficulty in verifying assumptions about the representation of fires that occurred prior to the start of the historical fire record. Future studies should incorporate the role of dynamic vegetation to more accurately represent post-fire successional processes, incorporate fire severity parameters that change in time and space, and integrate the role of other disturbances and their interactions with future fire regimes.
    Description
    Dissertation (Ph.D.) University of Alaska Fairbanks, 2007
    Table of Contents
    The role of historical fire disturbance in the carbon dynamics of the pan-boreal region : a process-based analysis -- Modeling historical and future area burned of boreal North America using a Multivariate Adaptive Regression Splines (MARS) approach -- The vulnerability of carbon storage in boreal North America during the 21st century to increases in wildfire activity -- Conclusion.
    Date
    2007-12
    Type
    Dissertation
    Collections
    Biological Sciences
    Theses supervised by AKCFWRU

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