Estimating carbon carrying capacity in natural forest ecosystems across heterogeneous landscapes: addressing sources of error

Keith, HeatherMackey, BrendanBerry, Sandra LeeGibbons, PhilipLindenmayer, David B2015-12-101354-1013http://hdl.handle.net/1885/59768Evaluating contributions of forest ecosystems to climate change mitigation requires well-calibrated carbon cycle models with quantified baseline carbon stocks. An appropriate baseline for carbon accounting of natural forests at landscape scales is carbonen-AUKeywords: baseline conditions; carbon cycle; carbon sequestration; carrying capacity; climate change; environmental disturbance; forest ecosystem; growth response; human activity; landscape ecology; net primary production; temperate forest; uncertainty analysis; Au Carbon accounting baseline; Forest carbon stocks; Net primary production; Total ecosystem carbon; Uncertainty analysisEstimating carbon carrying capacity in natural forest ecosystems across heterogeneous landscapes: addressing sources of error201010.1111/j.1365-2486.2009.02146.x2016-02-24