Future changes in Earth system state will impact agricultural yields and, through these changed yields, can have
profound impacts on the global economy. Global gridded crop models estimate the influence of these Earth system changes
on future crop yields, but are often too computationally intensive to dynamically couple into global multi-sector economic
models, such as GCAM and other similar-in-scale models. Yet, generalizing a faster site-specific crop model’s results to be
used globally will introduce inaccuracies, and the question of which model to use is unclear given the wide variation in yield
response across crop models. To examine the feedback loop among GCAM, Earth system changes, and crop yield changes,
rapidly generated yield responses with some quantification of crop response uncertainty are desirable. The Persephone v1.0
response functions presented in this work are based on the Agricultural Model Intercomparison and Improvement Project
(AgMIP) Coordinated Climate-Crop Modeling Project (C3MP) sensitivity test data set and are focused on providing GCAM and similar models with a tractable number of rapid to evaluate, dynamic yield response functions corresponding to a range of
the yield response sensitivities seen in the C3MP data set.With the Persephone response functions, a new variety of agricultural
impact experiments will be open to GCAM; for example, examining the economic impacts of a multi-year drought in a key
agricultural region and how economic changes in response to the drought can, in turn, impact the drought.
Revised: June 4, 2019 |
Published: April 3, 2019
Citation
Snyder A.C., K.V. Calvin, M. Phillips, and A. Ruane. 2019.A crop yield change emulator for use in GCAM and similar models: Persephone v1.0.Geoscientific Model Development 12, no. 4:1319-1350.PNNL-SA-136789.doi:10.5194/gmd-12-1319-2019