wiki:DevelopmentActivities/ORCHIDEE-CN/NH3

Version 21 (modified by taudoux, 8 years ago) (diff)

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NH3

r4164

Evaluation of ammonia emissions results calculated by the model (Fertilizer =0)

  • Sites and PFT :
PFT Sites
2 BR-Sa3 ; ID-Pag
4 IL-Yat ; ES-ES1 ; IT-SRo ; US-Blo ; US-Me4 ; US-SP2 ; US-SP3 ; US-SP4 ; DE-Bay ; DE-Tha ; FR-LBr
5 FR-Pue ; IT-Cpz ; IT-Lec ; PT-Esp ; PT-Mi1 ; AU-Tum ; AU-Wac
6 IT-Col ; IT-Non ; IT-PT1 ; IT-Ro2 ; US-MMS ; US-MOz ; DK-Sor ; FR-Fon ; UK-PL3 ; IS-Gun ; IT-Ro1 ; US-WBW ; DE-Hai ; FR-Hes ; UK-Ham ; US-Bar ; US-Ha1 ; US-Oho ; US-UMB ; US-WCr
7 CA-Man ; CA-NS2 ; CA-NS4 ; CA-Qcu ; CA-Qfo ; CA-SF1 ; CA-SF2 ; FI-Hyy ; FI-Sod ; SE-Fla
12 FR-Gri ; DK-Ris ; NL-Lut
13 NL-Lan ; US-Bo1 ; US-Ne1 ; US-Ne2 ; US-Ne3

Sites we have not looked at :

AT-Neu ; CA-NS1 ; CA-NS3 ; CA-NS5 ; CH-Oe1 ; CZ-BK1 ; DE-Gri ; DE-Meh ; DE-Wet ; DK-Lva ; ES-VDA ; FR-Lq1 ; FR-Lqr2 ; HU-Bug ; ID-Dri ; IT-Amp ; IT-Lav ; IT-Lma ; IT-Lmal ; IT-Mbor ; IT-Ren ; NL-Ca1 ; NL-Haar ; NL-Hor ; NL-Loo ; PT-Mi2 ; RU-Fyo ; RU-Ha1 ; RU-Ha2 ; RU-Ha3 ; RU-Zot ; SE-Nor ; SE-SK1 ; SE-Sk2 ; SK-Tat ; UK-EBu ; UK-Gri ; UK-Tad ; US-Aud ; US-Bkg ; US-FPe ; US-Goo ; US-Ho1 ; US-Ho2 ; US-SP1 ; US-Var ; US-Wci0 ; US-Wi1 ; US-Wi2 ; US-Wi4 ; US-Wi5 ; US-Wi8 ; US-Wi9

  • Parameters studied

Temperature, Humidity and pH
path : /home/users/taudoux/documents/Results/Parameters/

Nitrogen Pools (Soil_NH4, Soil_NO3, Soil_NOX and Soil_N2O)
path : /home/users/taudoux/documents/Results/Pools/

Emissions (NH3) and Depositions (NHX)
path : /home/users/taudoux/documents/Results/Emission-Deposition/

  • Files

. The script "script_calcul_parameters.ksh" used in order to create files of Temperature, Humidity and pH of each site in function of time listed in :
/home/users/taudoux/documents/Results/Parameters/T2M/SITES/;
/home/users/taudoux/documents/Results/Parameters/LITTERHUM/SITES/;
/home/users/taudoux/documents/Results/Parameters/pH/SITES/.

. The script "script_calcul_pools.ksh" used in order to create files of soil_NH4+, Soil_NO3-, Soil_NOX and Soil_N2O for each site in function of time listed in :
/home/users/taudoux/documents/Results/Pools/SOIL_NH4/SITES/ ;
/home/users/taudoux/documents/Results/Pools/SOIL_NO3/SITES/ ;
/home/users/taudoux/documents/Results/Pools/SOIL_NOX/SITES/ ;
/home/users/taudoux/documents/Results/Pools/SOIL_N2O/SITES/ .

. The Script "script_calcul_emission-deposition.ksh" used in order to create files of NH3 emission and NHX deposition for each site in function of time in :
/home/users/taudoux/documents/Results/Emission-Deposition/NH3_EMISSION/Sites/ ;
/home/users/taudoux/documents/Results/Emission-Deposition/NHX_DEPOSITION/Sites/.

For each parameter are listed :

. Figure of correlation with NH3 emissions (except pH) obtained using "script_calcul_r2.ksh" to obtain the R2 and then bar_plot.py in order to create the figure ;
. Average emission of ammonia on each site in function of the parameter studied using "scatterplot.py" ;
. Text documents in which are listed the different values.

  • Comparison with data used by LMDz-INCA model

path : /home/users/taudoux/documents/Results/Comparison/

Figure, created using "bar_plot_donnees.py", in which for each site are listed the average emission of NH3 for both model.

Average emission of ammonia (g(NH3-N).m⁻².day⁻¹) on each site in function of the parameter considered
Temperature (K) Humidity (-) pH (-) Deposition g(NHx).m-2
SOIL NH4 g(NH4).m-2 SOIL N2O g(N2O).m-2 SOIL NOX g(NOx).m-2 SOIL NO3 g(NO3).m-2


Correlation with NH3 emissions (g(NH3-N).m⁻².day⁻¹)
Temperature (K) Humidity (-) Deposition g(NHx).m-2
SOIL NH4 g(NH4).m-2 SOIL N2O g(N2O).m-2 SOIL NOX g(NOx).m-2 SOIL NO3 g(NO3).m-2


Comparison with LMDz-INCA model's data



Evaluation of ammonia emissions results calculated by the model (Fertilizer added)

Code was changed : separation of nitrogen input. Initially fertilizer, bnf and atmospheric deposition were in the same loop.

Multiple simulations were run with different amount of fertilizer (0 , 0.015, 0.0225, 0.03, 0.0375, 0.045 , 0.0525, 0.06 and 0.1 g.m-2.day-1). Each simulation were run with two different ratio of NH4 in the fertilizer : 0.5 and 0.8.

We obtain same results when nfert=0 or when nfert is not precised.

  • Sites we looked at and their PFT :
PFT Sites
12 FR-Gri ; DK-Ris ; NL-Lut
13 NL-Lan ; US-Bo1 ; US-Ne1 ; US-Ne2 ; US-Ne3
  • Parameters studied

General path : path : /home/users/taudoux/documents/Results/B/Simul_ratio0.5_v1/ or /home/users/taudoux/documents/Results/B/Simul_ratio0.8_v1/
Temperature, Humidity in the folder Parameters/

Nitrogen Pools (Soil_NH4, Soil_NO3, Soil_NOX and Soil_N2O) and Leaching (NH4 and NO3) in the folder Pools_fluxes/

Emissions (NH3, N2, N2O, NOx) in the folder NH3_EM/

GPP in the folder GPP/

Nitrogen input summed (fertiliser, NHx and NOx depositions) in the folder DEP_FERT/

We looked at how those parameters evolved in each site with the amount of fertilizer with both of ammonium's percentage in the fertilizer (0.5 and 0.8).
Script used : scatterplot_X.py in the folders
/home/users/taudoux/documents/Results/B/Simuls_ratio0.5_v1/Graph/
/home/users/taudoux/documents/Results/B/Simuls_ratio0.8_v1/Graph/
X = em_n2 ; em_n2o ; em_nh3 ; em_nox ; GPP ; leaching_nh4 ; leaching_no3 ; pools_n2 ; pools_n2o ; pools_nh4 ; pools_no3 ; pools_nox.

N2 emission N2O emission NH3 emission NOx emission
0.5 0.8 0.5 0.8 0.5 0.8 0.5 0.8
Soil N2 Soil N2O Soil NH4 Soil NOx
0.5 0.8 0.5 0.8 0.5 0.8 0.5 0.8
NH4 leaching NO3 leaching Soil NO3 GPP
0.5 0.8 0.5 0.8 0.5 0.8 0.5 0.8

Legend :
. Red = DK-Ris
. Yellow = FR-Gri
. Green = NL-Lan
. Blue= NL-Lut
. Black= US-Bo1
. Gray = US-Ne1
. Orange = US-Ne2
. Purple = US-Ne3

We calculated emission factor (EF) of different fluxes of nitrogen (NH3, N2, N2O and NOx emission, but also NH4 and NO3 leaching) with different methods :
. The first (A.) consisted to normalized the fluxes minus emissions when nfert=0 by the amount of fertiliser added ;
. The second (B.) consisted to normalized the fluxes by the amount of fertiliser added ;
. The third (C.) consisted to normalized the fluxes by the amount of all nitrogen inputs.

Script python used :
. barplot.py using files.txt in which values of nitrogen emissions and leaching are listed in order to plot EF in function of fertilizer added.
. barplot_c.py using files.txt in which values of nitrogen emissions and leaching are listed in order to plot EF in function of nitrogen inputs (fertilizer, NHx and NOx depositions).
. files.txt are in the folders :
/home/users/taudoux/documents/Results/B/Simuls_ratio0.5_v1/EF
/home/users/taudoux/documents/Results/B/Simuls_ratio0.5_v1/EFb
/home/users/taudoux/documents/Results/B/Simuls_ratio0.8_v1/EF
/home/users/taudoux/documents/Results/B/Simuls_ratio0.8_v1/EFb

  1. EF of each parameters on each site for NH4%=0.5 and 0.8

path : /home/users/taudoux/documents/Results/B/EF/

The first (A.) consisted to normalized the fluxes minus emissions when nfert=0 by the amount of fertiliser added.

DK-Ris
0.5 0.8
FR-Gri
0.5 0.8
NL-Lan
0.5 0.8
NL-Lut
0.5 0.8
US-Bo1
0.5 0.8
US-Ne1
0.5 0.8
US-Ne2
0.5 0.8
US-Ne3
0.5 0.8
  1. EF of each parameters on each site for NH4%=0.5 and 0.8

path : /home/users/taudoux/documents/Results/B/EFb/

The second (B.) consisted to normalized the fluxes by the amount of fertiliser added.

DK-Ris
0.5 0.8
FR-Gri
0.5 0.8
NL-Lan
0.5 0.8
NL-Lut
0.5 0.8
US-Bo1
0.5 0.8
US-Ne1
0.5 0.8
US-Ne2
0.5 0.8
US-Ne3
0.5 0.8
  1. EF of each parameters on each site for NH4%=0.5 and 0.8

path : /home/users/taudoux/documents/Results/B/EFc/

The third (C.) consisted to normalized the fluxes by all nitrogen inputs.

DK-Ris
0.5 0.8
FR-Gri
0.5 0.8
NL-Lan
0.5 0.8
NL-Lut
0.5 0.8
US-Bo1
0.5 0.8
US-Ne1
0.5 0.8
US-Ne2
0.5 0.8
US-Ne3
0.5 0.8

The sum of those EF is not equal to 1 for each site. So we looked at the difference between nitrogen pools (soil_nh4, soil_n2, soil_n2o, soil_no3 and soil_nox) at day1 and nitrogen pools on the last day.

path : /home/users/taudoux/documents/Results/B/EFd/

Difference between nitrogen pools normalized by the amount of all nitrogen inputs (fertilizer, NHx and NOx deposition).

DK-Ris
0.5 0.8
FR-Gri
0.5 0.8
NL-Lan
0.5 0.8
NL-Lut
0.5 0.8
US-Bo1
0.5 0.8
US-Ne1
0.5 0.8
US-Ne2
0.5 0.8
US-Ne3
0.5 0.8

In order to know if the loop is closed, we stacked in barplot all the nitrogen outputs (N2, N2O, NH3, NOX emissions ; NH4 and NO3 Leaching; NH4 and NO3 Plant Uptake ; difference between nitrogen pools shown previously; Mineralisation) divided by all nitrogen inputs (NOX and NHX deposition but also Fertilizer)

DK-Ris
0.5 0.8
FR-Gri
0.5 0.8
NL-Lan
0.5 0.8
NL-Lut
0.5 0.8
US-Bo1
0.5 0.8
US-Ne1
0.5 0.8
US-Ne2
0.5 0.8
US-Ne3
0.5 0.8

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