Unit process data for Rapeseed production in the U.S. wheat belt
Principal Investigator(s): View help for Principal Investigator(s) US Department of Agriculture; National Agricultural Library
Version: View help for Version V1
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Project Citation:
Project Description
These crop production simulations illustrate using the IPCC (Tier 1) method for calculating changes in soil C and the roundtable on sustainable biomaterials (RSB) method for estimating N2O emissions in different locations for the use in modeling the crop production portion of the HRJ lifecycle. Data are archived in a SimaPro .csv file, which can be imported into various life cycle assessment modeling tools.
The locations for cultivation of rapeseed were chosen from the top 5 wheat-producing counties in these states: CA, KS, MT, ND, NE, OK, OR, TX, SD, and WA (USDA 2007), which are the major wheat growing states in the USA. The cropping system of WWR rotation was assumed to be planted on long-term cultivated land, and soil C changes were calculated based on one hectare of land. The use of tillage practices and crop residue managements for wheat cultivation vary across the USA (Horowitz et al. 2010). Therefore, in this study, the cultivation of rapeseed in rotation with wheat was assumed to use a range of tillage practices and residue inputs. In order to simplify the analysis, the same tillage practices were assumed to be adopted for wheat and rapeseed. However, variations of residue inputs for both crops as low (L), medium (M), and high (H) without manure (Lasco et al. 2006) were included. These levels refer to the amounts of residue produced in growing the crops. Harvesting residues would further reduce residue inputs. However, residue harvest effects are not included in this analysis. The estimates of soil C change for WWR rotation were compared to WWF rotation as the reference system. Although variations of tillage practices are used for fallow rotation, reduced tillage is one of the practices that is commonly used for fallow rotation (Baker 2011). The proposed condition for the reference WWF was assumed to use high residue input for wheat, low residue input for the fallow period (since no crop is typically grown at this time), and reduced tillage for both wheat and fallow.
Resources in this dataset:
Resource Title: rapeseed; average tillage mix; at farm; 9% moisture, csv. File Name: rapeseed; average tillage mix; at farm; 9% moisture.csvResource Description: Metadata about the process and factors surrounding the rapeseed cultivation including processes and materials used, soil conditions, emissions, etc.
Resource Title: rapeseed; average tillage mix; at farm; 9% moisture, csv.
File Name: rapeseed; average tillage mix; at farm; 9% moisture.csv
Resource Description: Metadata about the process and factors surrounding the rapeseed cultivation including processes and materials used, soil conditions, emissions, etc.
Resource Title: Calculation_N2O emissions. File Name: Calculation_N2O emissions.xlsx
Resource Title: Calculation_N2O emissions.
File Name: Calculation_N2O emissions.xlsx
Resource Title: Calculation_soil C change. File Name: Calculation_soil C change.xlsx
Resource Title: Calculation_soil C change.
File Name: Calculation_soil C change.xlsx
Resource Title: Data Dictionary - Unit process data for Rapeseed production in the U.S. wheat belt. File Name: Data Dictionary - Unit process data rapeseed production US wheat belt.csv
Resource Title: Data Dictionary - Unit process data for Rapeseed production in the U.S. wheat belt.
File Name: Data Dictionary - Unit process data rapeseed production US wheat belt.csv
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