Abstract: Absolute and Relative Uncertainty of Model Generated Soil Greenhouse Gas Emissions. (2010 Annual Meeting (Oct. 31

See more from this Division: A03 Agroclimatology & Agronomic Modeling
See more from this Session: Climate Change Adaptations and Greenhouse Gas Emissions

Tuesday, November 2, 2010: 11:30 AM

Long Beach Convention Center, Room 103A, First Floor

Share |

Stephen Del Grosso¹, William Parton², Stephen Ogle³, Keith Paustian⁴ and Jay Breidt³, (1)USDA-ARS, Fort Collins, CO
(2)University of Toronto, Agincourt, ON, CANADA
(3)Colorado State University, Fort Collins, CO
(4)200 West Lake Street/Central Rec., Colorado State University, Fort Collins, CO

Audio File Recorded presentation

Rigorous methods have recently been developed to quantify uncertainty in model generated greenhouse gas emissions reported in national greenhouse gas emission inventories. Monte Carlo analysis involving probability distribution functions are used to quantify uncertainty due to not precisely knowing model inputs. Model outputs are compared with observations to quantify uncertainty in model structure. Uncertainty in absolute levels of GHG emissions ranges from 30% to greater than 100%, depending on spatial and temporal scales. However, there is some evidence that relative uncertainty based on comparing simulated and observed treatment differences may be narrower. We compare absolute and relative uncertainty in soil GHG emissions from various cropped systems in the US.

See more from this Division: A03 Agroclimatology & Agronomic Modeling
See more from this Session: Climate Change Adaptations and Greenhouse Gas Emissions

<< Previous Abstract | Next Abstract >>

157-6 Absolute and Relative Uncertainty of Model Generated Soil Greenhouse Gas Emissions.