Authors
Philip Radtke, David Walker, Jereme Frank, Aaron Weiskittel, Clara DeYoung, David MacFarlane, Grant Domke, Christopher Woodall, John Coulston, James Westfall
Publication date
2017/1/1
Journal
Forestry: An International Journal of Forest Research
Volume
90
Issue
1
Pages
32-46
Publisher
Oxford University Press
Description
Accurate estimation of forest biomass and carbon stocks at regional to national scales is a key requirement in determining terrestrial carbon sources and sinks on United States (US) forest lands. To that end, comprehensive assessment and testing of alternative volume and biomass models were conducted for individual tree models employed in the component ratio method (CRM) currently used in the US’ National Greenhouse Gas Inventory. The CRM applies species-specific stem volume equations along with specific gravity conversions and component expansion factors to ensure consistency between predicted stem volumes and weights, and additivity of predicted live tree component weights to match aboveground biomass (AGB). Data from over 76 600 stem volumes and 6600 AGB observations were compiled from individual studies conducted in the past 115 years – what we refer to as legacy data – to …
Scholar articles
P Radtke, D Walker, J Frank, A Weiskittel, C DeYoung… - Forestry: An International Journal of Forest Research, 2017