Model outputs from the study 'Can atmospheric chemistry deposition schemes reliably simulate stomatal ozone flux across global land covers and climates?''

Emmerichs, Tamara; Wong, Anthony Y. H.; Mamun, Abdulla; Gerosa, Giacomo; Emberson, Lisa Dianne; Betancourt, Clara; Ran, Limei; Zhang, Leiming; Guaita, Pierluigi Renan; Koren, Gerbrand; Mao, Huiting; Huang, Min

doi:10.5281/ZENODO.15812487

TY  - CHART
AU  - Emmerichs, Tamara
TI  - Model outputs from the study 'Can atmospheric chemistry deposition schemes reliably simulate stomatal ozone flux across global land covers and climates?''
PB  - Zenodo
M1  - FZJ-2025-04025
PY  - 2025
AB  - Over the past few decades, ozone risk assessments for vegetation have evolved two methods based on stomatal O3 flux. However, substantial uncertainties remain in accurately simulating these fluxes. In the study by Emmerichs et al. ('Can atmospheric chemistry deposition schemes reliably simulate stomatal ozone flux across global land covers and climates?', Biogeosciences 2025)  investigate stomatal O3 fluxes across various land cover types worldwide simulated by six established deposition models. This dataset contains the main model output from WebDO3SE (csv data per station) and simulated sunlit and total stomatal conductance from the TEMIR, ZHANG, CMAQ and MESSy models (xlsx data file).
LB  - PUB:(DE-HGF)32
DO  - DOI:10.5281/ZENODO.15812487
UR  - https://juser.fz-juelich.de/record/1046957
ER  -

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