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Distribution and landscape controls of organic layer thickness and carbon within the Alaskan Yukon River Basin

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Publication date: October 2014
Source:Geoderma, Volumes 230–231
Author(s): Neal J. Pastick , Matthew Rigge , Bruce K. Wylie , M. Torre Jorgenson , Joshua R. Rose , Kristofer D. Johnson , Lei Ji
Understanding of the organic layer thickness (OLT) and organic layer carbon (OLC) stocks in subarctic ecosystems is critical due to their importance in the global carbon cycle. Moreover, post-fire OLT provides an indicator of long-term successional trajectories and permafrost susceptibility to thaw. To these ends, we 1) mapped OLT and associated uncertainty at 30m resolution in the Yukon River Basin (YRB), Alaska, employing decision tree models linking remotely sensed imagery with field and ancillary data, 2) converted OLT to OLC using a non-linear regression, 3) evaluate landscape controls on OLT and OLC, and 4) quantified the post-fire recovery of OLT and OLC. Areas of shallow (<10cm), moderate (≥10cm and <20cm), moderately thick (≥20cm and <30cm), and thick (≥30cm) OLT, composed 34, 20, 14, and 18% of the YRB, respectively; the average OLT was 19.4cm. Total OLC was estimated to be 3.38Pg. A regional chronosequence analysis over 30years revealed that OLT and OLC increased with stand age (OLT: R 2 =0.68; OLC: R 2 =0.66), where an average of 16cm OLT and 5.3kg/m2 OLC were consumed by fires. Strong predictors of OLT included climate, topography, near-surface permafrost distributions, soil wetness, and spectral information. Our modeling approach enabled us to produce regional maps of OLT and OLC, which will be useful in understanding risks and feedbacks associated with fires and climate feedbacks.


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