A1,strawYield,straw yield (user input; value 0 or not filled in = straw remains in field; value > 0 means straw was exported),,
B1,nitrogen,Nitrogen surplus = N artifical fertilizer + N manure+ N atmospheric deposition + N fixation by crop + N from seed potatoes - N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer/manure applications.,,
B1,nHarvestedKgHa, N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield.,,
B1,nHarvestedStrawKgHa, N removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw.,,
B1,nFixationNKgHa, N fixated by crop (legumes only). Calculated KPI internal model & parameters and from user input: planting date,,
B1,nDepositionNKgHa, N deposition based on RIVM maps. ,,
B1,nFertilizerNKgHa, N from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.,,
B1,sowPlantingNKgHa, N from seed potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes,,
B2,phosphate,Phosphate surplus = P fertilizer + P from seed potatoes - P removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer applications ,,
B2,pHarvestedKgHa, P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yield,,
B2,pHarvestedStrawKgHa, P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw,,
B2,pFertillizerPKgHa, P2O5 from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.,,
B2,sowPlantingPKgHa, P2O5 from seeds potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes,,
C1,effective organic matter supply,"Organic matter supply = Organic matter from manure + Crop residues to soil + organic matter from green manure. Calculated KPI internal model & parameters and from user input: yield and manure applications. ""Effective"" means netto, after correction for carbon respiration by soil microbial activity",,
C1,fertilizerEom,Effective organic matter added through fertilizer (animal manure, compost, etc). Calculated KPI internal model & parameters and from user input: manure applications.
C1,greenManureEom,Effective organic matter added through green manure (also called cover crop). Calculated KPI internal model & parameters and from user input: cover crop.,,
C1,cropLeftoversEom,Effective organic matter added through crop residues of main product and (when relevant) straw. Calculated KPI internal model & parameters.,,
D1,pesticides,"kg/ha of active ingredient. Sum over kg a.i. of the different crop protection agents applied, with concentration (kg a.i. / kg or litre) of crop protection agents retrieved from CTBG",,
E1,mpb,"milieubelastingspunten. For each pesticide applied show 3 sub-mbp's: aquaticLife, groundWater, soilLife",,
E1,mpb,,,
E1,mpb,?,,
F1,greenness,time of year that the field was covered. Based on NDVI data from AgroDataCube.,,
F2,rotationindex,index of diversity of crops over time. Calculated in AgroDataCube,,
A1,yield,observed yield (user input),target value as in benchmark value for same crop in same region. E.g. cropyield target is from Central Bureau of Statistics (CBS) for same crop in region in which the cropfield (geometry) is located.,No threshold for this KPI.
A1,strawYield,straw yield (user input; value 0 or not filled in = straw remains in field; value > 0 means straw was exported),there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,nitrogen,Nitrogen surplus = N artifical fertilizer + N manure+ N atmospheric deposition + N fixation by crop + N from seed potatoes - N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer/manure applications.,The target value depends on the soil type. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).,The threshold value depends on soil type and groundwater levels. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
B1,nHarvestedKgHa, N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,nHarvestedStrawKgHa, N removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,nFixationNKgHa, N fixated by crop (legumes only). Calculated KPI internal model & parameters and from user input: planting date,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,nDepositionNKgHa, N deposition based on RIVM maps. ,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,nFertilizerNKgHa, N from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B1,sowPlantingNKgHa, N from seed potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B2,phosphate,Phosphate surplus = P fertilizer + P from seed potatoes - P removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer applications ,The phosphate target value is set at 20 kg/ha,No threshold for this KPI.
B2,pHarvestedKgHa, P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yield,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B2,pHarvestedStrawKgHa, P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B2,pFertillizerPKgHa, P2O5 from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
B2,sowPlantingPKgHa, P2O5 from seeds potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
C1,effective organic matter supply,"Organic matter supply = Organic matter from manure + Crop residues to soil + organic matter from green manure. Calculated KPI internal model & parameters and from user input: yield and manure applications. ""Effective"" means netto, after correction for carbon respiration by soil microbial activity",The target value for this KPI is the amount of EOM that companies with ‘ Goede Landbouwpraktijk’ supply (2500 kg EOM/ha/year). ,The threshold value is 2000 kg EOM/ha/year. This value comes from van Doorn et al. (2022) which states that on average 2000 kg of EOM/ha degrades on Dutch agricultural land. This is the also the threshold value from biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw)
C1,fertilizerEom,"Effective organic matter added through fertilizer (animal manure, compost, etc). Calculated KPI internal model & parameters and from user input: manure applications.",there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
C1,greenManureEom,Effective organic matter added through green manure (also called cover crop). Calculated KPI internal model & parameters and from user input: cover crop.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
C1,cropLeftoversEom,Effective organic matter added through crop residues of main product and (when relevant) straw. Calculated KPI internal model & parameters.,there are no target values for individual compenets of KPI's,there are no threshold values for individual compenets of KPI's
D1,pesticides,"kg/ha of active ingredient. Sum over kg a.i. of the different crop protection agents applied, with concentration (kg a.i. / kg or litre) of crop protection agents retrieved from CTBG",The target value fort his KPI is to reduce pesticide use to 50% of the amount used in the Netherlands during 2020. Data for 2020 is obtained from CBS statline ,No threshold for this KPI.
E1,mpb,"milieubelastingspunten. For each pesticide applied show 3 sub-mbp's: aquaticLife, groundWater, soilLife","0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <100 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).","0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <10 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw)."
F1,greenness,time of year that the field was covered. Based on NDVI data from AgroDataCube.,Target value is 75%.,Threshold value is 25%.
F2,rotationindex,index of diversity of crops over time. Calculated in AgroDataCube,Target value is 75%.,Threshold value is 25%.
1
KPIid
KPIvariable
Description
KPItargetvalue
KPIthresholdValue
2
A1
yield
observed yield (user input)
target value as in benchmark value for same crop in same region. E.g. cropyield target is from Central Bureau of Statistics (CBS) for same crop in region in which the cropfield (geometry) is located.
No threshold for this KPI.
3
A1
strawYield
straw yield (user input; value 0 or not filled in = straw remains in field; value > 0 means straw was exported)
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
4
B1
nitrogen
Nitrogen surplus = N artifical fertilizer + N manure+ N atmospheric deposition + N fixation by crop + N from seed potatoes - N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer/manure applications.
The target value depends on the soil type. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
The threshold value depends on soil type and groundwater levels. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
5
B1
nHarvestedKgHa
N removal through harvested product. Calculated KPI internal model & parameters and from user input: yield.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
6
B1
nHarvestedStrawKgHa
N removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
7
B1
nFixationNKgHa
N fixated by crop (legumes only). Calculated KPI internal model & parameters and from user input: planting date
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
8
B1
nDepositionNKgHa
N deposition based on RIVM maps.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
9
B1
nFertilizerNKgHa
N from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
10
B1
sowPlantingNKgHa
N from seed potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
11
B2
phosphate
Phosphate surplus = P fertilizer + P from seed potatoes - P removal through harvested product. Calculated KPI internal model & parameters and from user input: yield and fertilizer applications
The phosphate target value is set at 20 kg/ha
No threshold for this KPI.
12
B2
pHarvestedKgHa
P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yield
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
13
B2
pHarvestedStrawKgHa
P2O5 removal through harvested product. Calculated KPI internal model & parameters and from user input: yieldStraw
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
14
B2
pFertillizerPKgHa
P2O5 from artifical fertilizers and manure.Calculated KPI internal model & parameters and from user input: fertilizer/manure applications.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
15
B2
sowPlantingPKgHa
P2O5 from seeds potatoes (potatoes only). Calculated KPI internal model & parameters and from user input: amount of planted seed potatoes
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
16
C1
effective organic matter supply
Organic matter supply = Organic matter from manure + Crop residues to soil + organic matter from green manure. Calculated KPI internal model & parameters and from user input: yield and manure applications. "Effective" means netto, after correction for carbon respiration by soil microbial activity
The target value for this KPI is the amount of EOM that companies with ‘ Goede Landbouwpraktijk’ supply (2500 kg EOM/ha/year).
The threshold value is 2000 kg EOM/ha/year. This value comes from van Doorn et al. (2022) which states that on average 2000 kg of EOM/ha degrades on Dutch agricultural land. This is the also the threshold value from biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw)
17
C1
fertilizerEom
Effective organic matter added through fertilizer (animal manureEffective organic matter added through fertilizer (animal manure, compost, etc). Calculated KPI internal model & parameters and from user input: manure applications.
compost
there are no target values for individual compenets of KPI's
etc). Calculated KPI internal model & parameters and from user input: manure applications.
there are no threshold values for individual compenets of KPI's
18
C1
greenManureEom
Effective organic matter added through green manure (also called cover crop). Calculated KPI internal model & parameters and from user input: cover crop.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
19
C1
cropLeftoversEom
Effective organic matter added through crop residues of main product and (when relevant) straw. Calculated KPI internal model & parameters.
there are no target values for individual compenets of KPI's
there are no threshold values for individual compenets of KPI's
20
D1
pesticides
kg/ha of active ingredient. Sum over kg a.i. of the different crop protection agents applied, with concentration (kg a.i. / kg or litre) of crop protection agents retrieved from CTBG
The target value fort his KPI is to reduce pesticide use to 50% of the amount used in the Netherlands during 2020. Data for 2020 is obtained from CBS statline
No threshold for this KPI.
21
E1
mpb
milieubelastingspunten. For each pesticide applied show 3 sub-mbp's: aquaticLife, groundWater, soilLife
0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <100 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <10 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
22
E1F1
mpbgreenness
time of year that the field was covered. Based on NDVI data from AgroDataCube.
Target value is 75%.
Threshold value is 25%.
23
E1F2
mpbrotationindex
?index of diversity of crops over time. Calculated in AgroDataCube
Target value is 75%.
Threshold value is 25%.
F1
greenness
time of year that the field was covered. Based on NDVI data from AgroDataCube.
F2
rotationindex
index of diversity of crops over time. Calculated in AgroDataCube
A1,yield,target value as in benchmark value for same crop in same region. E.g. cropyield target is from Central Bureau of Statistics (CBS) for same crop in region in which the cropfield (geometry) is located.,No threshold for this KPI.,
B1,nitrogen,The target value depends on the soil type. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).,The threshold value depends on soil type and groundwater levels. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).,
B2,phosphate,The phosphate target value is set at 20 kg/ha,No threshold for this KPI.,
C1,effective organic matter supply,The target value for this KPI is the amount of EOM that companies with ‘ Goede Landbouwpraktijk’ supply (2500 kg EOM/ha/year). ,The threshold value is 2000 kg EOM/ha/year. This value comes from van Doorn et al. (2022) which states that on average 2000 kg of EOM/ha degrades on Dutch agricultural land. This is the also the threshold value from biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw),
D1,pesticides,The target value fort his KPI is to reduce pesticide use to 50% of the amount used in the Netherlands during 2020. Data for 2020 is obtained from CBS statline ,No threshold for this KPI.,
E1,mpb,"0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <100 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).","0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <10 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).",
F1,greenness,Target value is 75%.,Threshold value is 25%.,
F2,rotationindex,Target value is 75%.,Threshold value is 25%.,
1
KPIid
KPIvariable
KPItargetvalue
KPIthresholdValue
2
A1
yield
target value as in benchmark value for same crop in same region. E.g. cropyield target is from Central Bureau of Statistics (CBS) for same crop in region in which the cropfield (geometry) is located.
No threshold for this KPI.
3
B1
nitrogen
The target value depends on the soil type. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
The threshold value depends on soil type and groundwater levels. To calculate the threshold and target values data from CBS and RIVM are used. The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
4
B2
phosphate
The phosphate target value is set at 20 kg/ha
No threshold for this KPI.
5
C1
effective organic matter supply
The target value for this KPI is the amount of EOM that companies with ‘ Goede Landbouwpraktijk’ supply (2500 kg EOM/ha/year).
The threshold value is 2000 kg EOM/ha/year. This value comes from van Doorn et al. (2022) which states that on average 2000 kg of EOM/ha degrades on Dutch agricultural land. This is the also the threshold value from biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw)
6
D1
pesticides
The target value fort his KPI is to reduce pesticide use to 50% of the amount used in the Netherlands during 2020. Data for 2020 is obtained from CBS statline
No threshold for this KPI.
7
E1
mpb
0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <100 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
0 applications with exceedances of either the target MBP or risks. MBP's consist of three categories (groundwater, soil life, and aquatic life). An value of <10 in either or these categories counts as exceedance. Each application of pesticides cannot have more then one exceedance for MBP. Risks consist of two categories (natural enemies and pollinators), a value of B or C in either category counts as exceedance. Each application of pesticides cannot have more then one exceedance for risks. Values and methodology come from Environmental Yardstick for Pesticides (https://www.milieumeetlat.nl/). The same calculation method is also used in biodiversiteitsmonitoring akkerbouw (https://www.bo-akkerbouw.nl/kennis-en-innovatie/pps-biodiversiteitsmonitor-akkerbouw).
@ -32,6 +32,11 @@ Effect of location (e.g. different atmospheric N deposition).
"DataCropfieldCharacteristic": {
"code": "860619", //PO20231004: so what does this code mean? Can we see the code list somewhere? COMPLETED code comes from codelist CL265. 860619 refers to cropyield in ton/ha
productionPurposeCode: different result depending on starch or consumption potato (different N contents in tubers)?
nContentFactor seems not to be adjusted by productionPurposeCode. Tamara check with Francisco
idem for pContentFactor
DONE (using KPIinput.json): surprisingly no effect?, format of the productionPurposeCode was wrong i.e was '2' instead of '002'. Format has been adjusted.
KPIelementsOfBalance: Tamara
a. define elements for C1 organic matter supply
@ -40,18 +45,14 @@ KPIelementsOfBalance: Tamara
d. for phosporous B2 rename from pFertilizerNKgHa to pFertilizerPKgHa COMPLETED
e. idem sowPlantingNKgHa COMPLETED
f. add straw for N & P in output COMPLETED
g. add 2 examples in KPIinput.json: straw yes/no removed. Bijv. nStrawLeftInField EN nStrawRemoved COMPLETED but not yet fully functional
h. add amount of removed straw in A1
i. update KPIdefinitions.csv PARTLY
g. add 2 examples in KPIinput.json: straw yes/no removed. Bijv. nStrawLeftInField EN nStrawRemoved COMPLETED
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