342-2AgMIP: Developing An Intercomparison Protocol for Global Gridded Biophysical Simulations.
See more from this Division: ASA Section: Climatology & ModelingSee more from this Session: Symposium--the Agmip Project: Comparison of Model Approaches to Simulation of Crop Response to Global Climate Change Effects of Carbon Dioxide, Water and Temperature
Crop-soil model characteristics and processes in the AgMIP matrix include timestep, leaf area development, light interception, light utilization, yield formation, crop phenology, root distribution, water and heat stress, water dynamics, evapotranspiration, soil C/N model, CO2 effects, and cultivar coefficients. The matrix also documents model inputs, their sources, and assumptions relative to source of weather data, spatial scale of inputs, land masses covered; source of soil property inputs, source of planting details, nitrogen fertilizer amounts and dates of application, crop residue management, and initial soil water, nitrate, ammonia, carbon and organic matter, carbon pools, and crop residues. It is also important to document how biophysical process and results are linked to global economic models. For example, there are inputs and assumptions that the economic modelers specify, such as how biophysical model outputs are processed to provide input to the economic models (if at all). This includes whether absolute yield levels are used or if relative yields under scenarios vs. baseline are used. Documentation of structure, inputs, and assumptions will help to interpret results across multiple global biophysical models, with the role of scale and grid size explicitly considered.
See more from this Session: Symposium--the Agmip Project: Comparison of Model Approaches to Simulation of Crop Response to Global Climate Change Effects of Carbon Dioxide, Water and Temperature