subject: EAPS subject: Microbial-Based Model creator: Qianlai Zhuang, 0000-0002-4536-9851
10.4231/ANMV-J384
07/25/2019
Various levels of representations of biogeochemical processes in current biogeochemistry models contribute to uncertainty in carbon budget quantification. Detailed microbial mechanisms were incorporated into TEM 5.0 (Terrestrial Ecosystem Model).
Arctic Region Biogeochemistry Carbon Dynamics Climate Change EAPS Earth and Atmospheric Sciences Microbial-Based Model Terrestrial Ecosystem Model (TEM)
10.4231/Q3R8-SZ17
Bo Elberling , David Medvigy , Edward J. Dlugokencky , Gustaf Hugelius , Licheng Liu , Lisa R. Welp-Smith , Lori Bruhwiler , Ludovica D'Imperio , Maggie C.Y. Lau , Qianlai Zhuang , Tullis C. Onstott , Youmi Oh
02/04/2020
This publication contains code and data of a biogeochemistry model, XPTEM-XHAM, for paper "Reduced net methane emissions due to microbial methane oxidation in a warmer Arctic" by Oh et al. accepted in Nature Climate Change.
Arctic Region Biogeochemistry EAPS Earth and Atmospheric Sciences Methane Dynamics Model (MDM) Methane Emission Microbial-Based Model soil
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