1. USEPA Inventory for U.S. using IPCC Guidelines
Review of the IPCC 1996 National Inventory Guidelines for N2O from Agricultural Soils
USEPA Inventory for U.S. using IPCC Guidelines
Using the DAYCENT Model to Estimate N2O Emissions

2. Review of IPCC 1996 National Inventory Guidelines for N2O from Agricultural Soils

3. Atmospheric N2 N2O biological fixation N2O N2O Volatilization NOx, NH3
fertilizer
production
Volatilization
NOx, NH3
manure
agricultural land
cattle
leaching
soil
organic
matter
crops
people
N2O
litter
sewage

4. Nitrification [HNO] [X] Denitrification
REDUCED
OXIDIZED
Nitrification NO NO NO
NH4+
[HNO]
NH2OH
NO2-
NO3-
[X]
N2O
Denitrification N2
N2O NO
NO2-
NO3-

5. Total N2O-N Emissions from Country (kg N2O-N Y-1) =
N2ODIRECT + N2OANIMALS + N2OINDIRECT

6. N2ODIRECT = [(FSN+FAN+FBN+FCR)*0.0125)] + Hist. Cult. (5 kg N ha-1 y-1)

7. Emission Factors used in IPCC 1996 Estimates of Agricultural Soil N2O
Direct Emission / kg N2O-N/kg N input
Histosol Cultivation 5 kg (2-15) N ha-1 y-1
Livestock Management System dependent
Indirect G ( ) kg N2O-N/kg N
Indirect L ( ) kg N2O-N/kg N
Indirect S ( ) kg N2O-N/kg sewage-N

8. Biological N-fixation Synthetic Fixed N Animal Manures
Estimate of Global N2O Emissions Directly From Agricultural Fields in 1996
N input and N2O Production in Tg N
NOX 12
NH3
Biological
N-fixation
Crop Residue
N2O
~2.2 30
Corn
Synthetic
Fixed N
Animal
Manures
Soy Bean 65 83 NO
N2O
Nitrification NH4+
NO2-
NO3
Denitrification NO3
N2O N2

9. N2OANIMALS = N2O LIVESTOCK MANURE MANAGEMENT

10. Emission Factors used in IPCC 1996 Estimates of Agricultural Soil N2O
Direct Emission / kg N2O-N/kg N input
Histosol Cultivation 5 kg (2-15) N ha-1 y-1
Livestock Management System dependent
Indirect G ( ) kg N2O-N/kg N
Indirect L ( ) kg N2O-N/kg N
Indirect S ( ) kg N2O-N/kg sewage-N

11. Estimates of Global N2O Emissions From Animal Production - 1996
N2O ~2 Tg
NH3 ~22Tg
NOX ~3Tg NO
N2O
Organic Waste
~120Tg N
NH4+
NO2-
NO3
Mineralization
Nitrification
NO3-
N2O N2
Denitrification

12. N2OINDIRECT = N2O(G) + N2O(L) + N2O(S)

13. Emission Factors used in IPCC 1996 Estimates of Agricultural Soil N2O
Direct Emission / kg N2O-N/kg N input
Histosol Cultivation 5 kg (2-15) N ha-1 y-1
Livestock Management System dependent
Indirect G ( ) kg N2O-N/kg N
Indirect L ( ) kg N2O-N/kg N
Indirect S ( ) kg N2O-N/kg sewage-N

14. N2O Indirect = N20(G) + N2O(L) + N2O(S)
1996 Estimate of Global N2O Emissions Indirectly Derived from AGN Input
N2O Indirect = N20(G) + N2O(L) + N2O(S)
NH3
NOX
~13 Tg N
NH3
9Tg N
N2O
~2.2 Tg N
NO3
NO3
N2O N2

15. __________________________________________________________________
Relationship of type of crop to measured N2O emissions in temperate agricultural
systems from 35 studies published since 1994.
__________________________________________________________________
Crop N2O Emitted as % of N Applied Number of Studies
(range)
______________________________________________________________________________
maize
spring barley or wheat
other crops
grasslands
fallow fields

16. Effect of fertilizer N source on N2O emissions in temperate agricultural systems
______________________________________________________________________________
N Source N2O Emissions Number of Studies
% of fertilizer N applied
Range Mean
Anhydrous ammonia
Urea
Manure
Ammonium nitrate
Urea/ammonium nitrate
Calcium nitrate
Ammonium sulfate

17. Changes in Atmospheric N2O Concentration: Measured and Modeled (Mosier and Kroeze, 2000)

18. USEPA Inventory for U.S. N2O Emissions using IPCC Guidelines

19. USEPA, 2001
Inventory of U.S.
Greenhouse Gas
Emissions & Sinks

23. Process Models to Replace IPCC Factor-based National Inventories
A few points that need to be considered:
Anthropogenic N2O Emissions
Indirect N2O Emissions
Livestock Grazing
Appropriate Data for Model Verification
Model Intercomparison
Uncertainty Analysis

24. Using the DAYCENT Model to Estimate N2O Emissions

26. DAYCENT APPLICATIONS
DAYCENT was used to calculate net greenhouse gas flux (GHGnet) for
different land management and climate scenarios.
GHGnet = DSOC + CN2O + CNfert + CCH4
DSOC = Change in Soil Organic Carbon
CN2O = CO2-C equivalents of N2O emissions
CNfert = CO2-C emissions of N fert production
CCH4 = CO2-C equivalents of CH4 uptake
Initial condition = soil depleted of C due to > 50 years of
conventional tillage winter wheat/fallow

27. DAYCENT MODEL VALIDATIONS
Soil Organic C

28. N2O Emissions

29. CH4 Uptake

30. Short Term Simulations Using Sterling, CO Weather
Reduction of the fallow period and conversion to no-till result in
increased flows of CO2-C to SOC:
DSOC

31. N2O emissions are similar
N2O-C Equivalents
GHGnet is reduced with annual cropping even though N fertilizer additions and grain yields are higher with annual cropping:
GHGnet

32. Long Term Simulations Using CPER, CO Weather
Conversion from winter wheat/fallow to high intensity agriculture results in sequestration of CO2-C in Soil Organic Carbon (SOC):
DSOC

33. But irrigation and N fertilization also lead to higher N2O emissions:
N2O-C Equivalents
GHGnet is negative only during the first 25 year period following conversion:
GHGnet