FUN-BioCROP: Fixation and Uptake of Nitrogen-Bioenergy Carbon, Rhizosphere, Organisms, and Protection

 

CABBI Theme: Sustainability

Keywords: Modeling, Software

 

Citation

Juice, S.M., Walter, C.A., Allen, K.A., Berardi, D., Hudiburg, T.W., Sulman, B.N., Brzostek, E.R.  Nov. 21, 2021. “Soil organic matter and plant carbon allocated to nitrogen acquisition simulated by the FUN-BioCROP model.”Zenodo. DOI: 10.5281/zenodo.5562482.

 

The FUN-BioCROP model is a version of the FUN-CORPSE model modified for use in bioenergy systems to simulate plant C allocation to N acquisition and microbial soil organic matter decomposition.

Overview

This data package contains the model input, results, and validation data from Juice, et al. 2022. The FUN-BioCROP model (Fixation and Uptake of Nitrogen- Bioenergy Carbon, Rhizosphere, Organisms, and Protection) advances the field of bioenergy modeling by integrating new empirical paradigms of the role of belowground processes in shaping coupled carbon (C) and nitrogen (N) cycles. It was developed by modifying the FUN-CORPSE model (Fixation and Uptake of Nitrogen-Carbon, Organisms, Rhizosphere, and Protection in the Soil Environment, Sulman et al. 2017 Ecology Letters) for use in bioenergy systems by including mechanistic tillage, organic matter addition, nitrogen fertilization, harvest, and feedstock-specific parameters, and to be driven by DayCent plant productivity and biomass data.

 
Data

Model input, results, and validation data

Model code

 

Related Publication

Juice, S.M., Walter, C.A., Allen, K.A., Berardi, D., Hudiburg, T.W., Sulman, B.N., Brzostek, E.R. Jan. 12, 2022. “A New Bioenergy Model that Simulates the Impacts of Plant-Microbial Interactions, Soil Carbon Protection, and Mechanistic Tillage on Soil Carbon Cycling.” GCB Bioenergy. DOI: 10.1111/gcbb.12914.