POD$_6$, POD$_0$, O$_3$ concentrations, and Jarvis functions to assess the global flux-based ozone risk for wheat up to 2100 under different climate scenarios
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Università Cattolica del Sacro Cuore
Description
Model output associated with the study “Global flux-based assessment reveals declining ozone risk for wheat in future climate change scenarios” (Guaita et al., 2025).
The output is provided under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.
Please cite both this repository and the associated paper when referencing this output.
Associated paper:
Guaita, P. R., Marzuoli, R., Zhang, L., Turnock, S., Koren, G., Wild, O., Crippa, P., & Gerosa, G. (2025).
Global Flux-Based Assessment Reveals Declining Ozone Risk for Wheat in Future Climate Change Scenarios.
Global Change Biology, 31(12), e70643. DOI: 10.1111/gcb.70643
Model documentation:
Guaita, P. R., Marzuoli, R., & Gerosa, G. (2023).
A regional scale flux-based O₃ risk assessment for winter wheat in northern Italy, and effects of different spatio-temporal resolutions.
Environmental Pollution, 333, 121860. DOI: 10.1016/j.envpol.2023.121860
Model code:
See the GitHub repository O3-Deposition-model-for-wheat (© 2025 Guaita & Gerosa. All rights reserved).