A process-based ecosystem model (Paleo-BGC) to simulate the dynamic response of Late Carboniferous plants to elevated O2 and aridification

Joseph D. White; Isabel P. Montañez; Jonathan P. Wilson; Christopher J. Poulsen; Jennifer C. McElwain; William A. DiMichele; Michael T. Hren; Sophia Macarewich; Jon D. Richey; William J. Matthaeus

doi:10.2475/09.2020.01

P-ISSN 0002-9599

E-ISSN 1945-452X

Science Paper

Vol. 320, Issue 7, 2020

September 01, 2020 EDT

A Process-Based Ecosystem Model (Paleo-BGC) to Simulate the Dynamic Response of Late Carboniferous Plants to Elevated O2 and Aridification

Joseph D. White, Isabel P. Montañez, Jonathan P. Wilson, Christopher J. Poulsen, Jennifer C. McElwain, William A. DiMichele, Michael T. Hren, Sophia Macarewich, Jon D. Richey, William J. Matthaeus,

Paleozoicecosystem modelingstomatal conductancesurface runoffcarbon cycleatmospheric oxygen

https://doi.org/10.2475/09.2020.01

American Journal of Science

White, J. D., Montañez, I. P., Wilson, J. P., Poulsen, C. J., McElwain, J. C., DiMichele, W. A., Hren, M. T., Macarewich, S., Richey, J. D., & Matthaeus, W. J. (2020). A process-based ecosystem model (Paleo-BGC) to simulate the dynamic response of Late Carboniferous plants to elevated O2 and aridification. American Journal of Science, 320(7), 547–598. https://doi.org/10.2475/09.2020.01

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