Simulated Land Allocation, Nitrogen Use, and Nitrogen Loss in the Mississippi Atchafalaya River Basin for Various RFS2 (Renewable Fuel Standard) Policy Scenarios
CABBI Theme: Sustainability
Keywords: Economics, Modeling, Software
Ferin, K.M., Chen, L., Zhong, J., Acquah, S., Heaton, E.A., Khanna, M., VanLoocke, A. Feb. 21, 2021. “Simulated Land Allocation, Nitrogen Use, and Nitrogen Loss in the Mississippi Atchafalaya River Basin for Various RFS2 (Renewable Fuel Standard) Policy Scenarios.” University of Illinois at Urbana-Champaign. DOI: 10.13012/B2IDB-3388479_V1
Total nitrogen leaching rates were calculated over the Mississippi Atchafalaya River Basin (MARB) using an integrated economic-biophysical modeling approach. Land allocation for corn production and total nitrogen application rates were calculated for crop reporting districts using the Biofuel and Environmental Policy Analysis Model (BEPAM) for 5 RFS2 policy scenarios. These were used as input in the Integrated BIosphere Simulator-Agricultural Version (Agro-IBIS) and the Terrestrial Hydrologic Model with Biogeochemistry (THMB) to calculate the nitrogen loss.
Land allocation and total nitrogen application simulations were simulated for the period 2016-2030 for 303 crop reporting districts (https://www.nass.usda.gov/Data_and_Statistics/County_Data_Files/Frequently_Asked_Questions/county_list.txt). The final 2030 values are reported here. Both are stored in csv files. Units for land allocation are million ha and nitrogen application are million kg.
The nitrogen leaching rates were modeled with a spatial resolution of 5′ x 5′ using the North American Datum of 1983 projection and stored in NetCDF files. The 30-year average is calculated over the last 30 years of the 45 years being simulated. Leaching rates are calculated in kg-N/ha.
Data page (571 KB) contains:
- Nitrogen Leaching Files for 5 Policy Scenarios
- Land Area for Corn Production
- Total Nitrogen Application Rates
- Model inputs
- Validation data
- Impact data
Ferin, K.M., Chen, L., Zhong, J., Acquah, S., Heaton, E.A., Khanna, M., VanLoocke, A. Jan. 12, 2021. “Water Quality Effects of Economically Viable Land Use Change in the Mississippi River Basin under the Renewable Fuel Standard.” Environmental Science & Technology. DOI: 10.1021/acs.est.0c04358.