Soil urea application
[/business/agriculture/soil/urea]
Summary
This methodology represents carbon dioxide (CO2) emissions associated with the application of urea to managed soils. The data and calculation methodology is sourced from the IPCC, as published in Volume 4, Chapter 11 - N2O Emissions from Managed Soils, and CO2 Emissions from Lime and Urea Application of their 2006 IPCC Guidelines for National Greenhouse Gas Inventories.
The methodology
Emissions model
Adding urea to soils during fertilisation leads to a loss of CO2 that was fixed in the industrial production process. Urea (CO(NH2)2) is converted into ammonium (NH4+), hydroxyl ion (OH-), and bicarbonate (HCO3-), in the presence of water and urease enzymes. The bicarbonate which is formed evolves into CO2 and water (H2O).
The methodology calculates CO2 emissions based on the mass-balance of carbon (C) applied during treatment. This assumes that all C added to soils is eventually emitted as CO2.
This methodology represents the IPCC Tier 1 approach.
Model data
The precise relationship between the quantity of urea applied and the quantity of CO2 emitted depends on the concentration of carbon within urea. A carbon content (by weight) factor is provided for urea which allows the conversion of a quantity of urea into a quantity of C.
In addition, this methodology uses a second conversion factor, representing the ratio of the molecular mass of CO2 and the atomic mass of C. This quantity allows the conversion of a quantity of C into the corresponding quantity of CO2. In combination, these two conversion factors enable the conversion of a quantity of urea into a quantity of CO2 emitted - under the assumption of mass-balance.
Activity data required
CO2 emissions are directly proportionate to the quantity of urea applied, which therefore needs to be specified in order to make an emissions calculation.
Calculation and results
This emissions calculated by this methodology represent those attributable to the specified quantity of urea applied to managed soils.
Additional information
Inventory compilation
The application of urea to soils releases CO2 which was fixed (taken out of the atmosphere) during the manufacture of urea. If emissions reductions are included within an inventory on the basis of this manufacturing process, these are offset if urea is used on managed soils within the same jurisdiction.
Related methodologies
A number of other methodologies focus on emissions from managed soils. These include those arising from the addition of urine and dung, lime/carbonates and synthetic and organic fertilizers, as well as organically-managed soils.