meta data for this page
  •  

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

sector:agriculture:agricultural_soils:start [2024/04/18 07:36] – [Emission factors] kotzullasector:agriculture:agricultural_soils:start [2024/11/06 14:54] (current) – external edit 127.0.0.1
Line 13: Line 13:
 | 3.D.d                                                                                                                      | Off-farm storage, handling and transport of bulk agricultural products                                  NA & NR (Black Carbon only)                                                                     ||| | 3.D.d                                                                                                                      | Off-farm storage, handling and transport of bulk agricultural products                                  NA & NR (Black Carbon only)                                                                     |||
 | [[start#de_-_cultivated_crops|3.D.e]]                                                                                      | Cultivated crops                                                                                       | T2 (NMVOC)                                    | NS, RS  | D                                        | | [[start#de_-_cultivated_crops|3.D.e]]                                                                                      | Cultivated crops                                                                                       | T2 (NMVOC)                                    | NS, RS  | D                                        |
-| [[3Df_Agriculture other|3.D.f]]                                                                                            Agriculture: Other (including use of pesticides)                                                       | T2 (HCB)                                      | NS      | D                                        |+| [[use_of_pesticides|3.D.f]]                                                                                                Use of pesticides                                                                                      | T2 (HCB)                                      | NS      | D                                        |
  
 ---- ----
Line 257: Line 257:
 ==== Recalculations ==== ==== Recalculations ====
  
-Table 11 shows the effects of recalculations on NH<sub>3</sub> and NO<sub>x</sub> emissions. For all years the total emissions of NH<sub>3</sub> and NO<sub>x</sub> from application of other organic fertilizers are significantly higher than those of last year’s submission. The main reason for that is, that the emissions from application of residues from digested waste, compost of biowaste and compost of green waste are reported for the first time in the agriculture sector (see [[sector:agriculture:start|main page of the agricultural sector]], list of recalculation **reasons, No 2**, and Vos et al. (2024), Chapter 1.3) +For all yearstotal NH<sub>3</sub> and NO<sub>x</sub> emissions from application of other organic fertilizers are higher than those of last year’s submission as the emissions from application of residues from digested waste, compost of biowaste and compost of green waste are reported for the first time in the agriculture sector (see [[sector:agriculture:start|main page of the agricultural sector]], list of recalculation **reasons, No 2**, and Vos et al. (2024), Chapter 1.3) 
  
-__Table 11:REC-4: Revised NH<sub>3</sub> and NO<sub>x</sub> from application of other organic fertilizers, in kilotonnes__+__Table 12:REC-4: Revised NH<sub>3</sub> and NO<sub>x</sub> from application of other organic fertilizers, in kilotonnes__
 |                      ^  1990    1995    2000    2013  ^  2014  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ |                      ^  1990    1995    2000    2013  ^  2014  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 | **Ammonia**          |                                |        |        |        |        |        |        |        |        |        | | **Ammonia**          |                                |        |        |        |        |        |        |        |        |        |
Line 277: Line 277:
 The calculation of NH<sub>3</sub> and NO<sub>x</sub> (NO) emissions from N excretions on pasture is described in Vos et al. (2024), Chapters 5.2.1.1 and 5.2.2.1.  The calculation of NH<sub>3</sub> and NO<sub>x</sub> (NO) emissions from N excretions on pasture is described in Vos et al. (2024), Chapters 5.2.1.1 and 5.2.2.1. 
 ==== Activity data ==== ==== Activity data ====
-Activity data for NH<sub>3</sub> emissions during grazing is the amount of TAN excreted on pasture while for NO<sub>x</sub> emissions it is the amount of N excreted on pasture.  
  
-Table 12 shows the share of N excretions on pasture. The TAN excretions are derived by multiplying the share of N excretion on pastures with the N excretions and TAN contents provided in 3.B, Table 2+Activity data for NH<sub>3</sub> emissions during grazing is the amount of TAN excreted on pasture, while for NO<sub>x</sub> emissions it is the amount of N excreted
  
-// Table 12: Share of N excretions on pasture // +The TAN excretions are derived by multiplying the share of N excretion on pastures with the N excretions and TAN contents provided in 3.B, Table 2.  
-^               ^  N excretions on pasture in % of total N excreted                                                                                                   ||||||||||||| + 
-|               1990                                                1995   | 2000   | 2005   | 2010   | 2015   | 2016   | 2017   | 2018   | 2019   | 2020   | 2021   | 2022   | +__Table 13: Shares of N excretions on pasturein [%]__ 
-Dairy cows    | 20.3                                                | 15.6   | 12.7   11.4   | 10.0   | 8.6    | 8.3    | 8.0    | 7.6    | 7.4    | 7.4    | 7.4    7.4    +|               ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ 
-Other cattle  | 15.1                                                | 17.3   | 18.9   | 19.0   | 19.6   | 20.5   | 20.7   | 20.9   | 21.2   | 21.4   | 21.5   | 21.4   21.4   +Dairy cows    |   20.3 |   15.6 |   12.7   11.4 |   10.0 |    8.6 |    8.3 |    8.0 |    7.6 |    7.4 |    7.4 |    7.4    7.4 | 
-Sheep         | 55.1                                                | 55.5   | 55.1   | 55.4   | 54.8   | 55.4   | 55.4   | 55.4   | 55.6   | 55.5   | 55.4   | 55.5   55.8   +Other cattle   15.1 |   17.3 |   18.9 |   19.0 |   19.6 |   20.5 |   20.7 |   20.9 |   21.2 |   21.4 |   21.5 |   21.4   21.4 | 
-Goats         | 34.2                                                | 34.2   34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   | 34.2   +Sheep           55.1 |   55.5 |   55.1 |   55.4 |   54.8 |   55.4 |   55.4 |   55.4 |   55.6 |   55.5 |   55.4 |   55.5   55.8 | 
-Horses        | 20.5                                                | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   | 20.5   +Goats           34.2 |   34.2   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 |   34.2 | 
-Laying hens   | 0.1                                                 | 0.1    | 0.5    | 1.0    | 1.7    | 2.3    | 2.4    | 2.3    | 2.5    | 2.6    | 2.8    | 2.8    | 3.0    +Horses        |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 |   20.5 | 
-Deer          | 100.0                                               | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  | 100.0  +Laying hens      0.1 |    0.1 |    0.5 |    1.0 |    1.7 |    2.3 |    2.4 |    2.3 |    2.5 |    2.6 |    2.8 |    2.8 |    3.0 | 
-Ostriches     80.0                                                | 80.0   | 80.0   | 80.0   80.0   | 80.0   | 80.0   | 80.0   | 80.0   | 80.0   | 80.0   | 80.0   | 80.0   |+Deer          |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 |  100.0 | 
 +^ Ostrich         80.0 |   80.0 |   80.0 |   80.0   80.0 |   80.0 |   80.0 |   80.0 |   80.0 |   80.0 |   80.0 |   80.0 |   80.0 |
 ==== Methodology ==== ==== Methodology ====
 NH<sub>3</sub> emissions from grazing are calculated by multiplying the respective animal population (3.B, Table 1) with corresponding N excretions and relative TAN contents (3.B, Table 2) and the fraction of N excreted on pasture (Table 9). The result is multiplied with the animal specific emission factor (Table 10). NO emissions are calculated the same way with the exception that the emission factor is related to N excreted instead of TAN. NH<sub>3</sub> emissions from grazing are calculated by multiplying the respective animal population (3.B, Table 1) with corresponding N excretions and relative TAN contents (3.B, Table 2) and the fraction of N excreted on pasture (Table 9). The result is multiplied with the animal specific emission factor (Table 10). NO emissions are calculated the same way with the exception that the emission factor is related to N excreted instead of TAN.
  
 ==== Emission Factors ==== ==== Emission Factors ====
 +
 The emission factors for NH<sub>3</sub> are taken from EMEP (2019)-3B-31, Table 3.9. They relate to the amount of TAN excreted on pasture. For laying hens, deer and ostriches there are no emission factors given in this table. Germany uses for laying hens an emission factor of 0.35 kg NH<sub>3</sub>-N per kg TAN excreted, based on an expert judgement from KTBL (see Vos et al. 2024, Chapter 5.2.1.1). The same EF is used by UK. It was also used for ostriches. For deer the emission factor of sheep was adopted. The emission factors for NH<sub>3</sub> are taken from EMEP (2019)-3B-31, Table 3.9. They relate to the amount of TAN excreted on pasture. For laying hens, deer and ostriches there are no emission factors given in this table. Germany uses for laying hens an emission factor of 0.35 kg NH<sub>3</sub>-N per kg TAN excreted, based on an expert judgement from KTBL (see Vos et al. 2024, Chapter 5.2.1.1). The same EF is used by UK. It was also used for ostriches. For deer the emission factor of sheep was adopted.
  
Line 301: Line 302:
  
  
-//Table 13: Emission factors for emissions of NH<sub>3</sub> and NO from grazing// +__Table 14: Emission factors for emissions of NH<sub>3</sub> and NO from grazing__
-^  Emission factors                                      ^^+
 | Dairy cows         | 0.14 kg NH3-N per kg TAN excreted  | | Dairy cows         | 0.14 kg NH3-N per kg TAN excreted  |
 | Other cattle       | 0.14 kg NH3-N per kg TAN excreted  | | Other cattle       | 0.14 kg NH3-N per kg TAN excreted  |
Line 317: Line 317:
  
 ==== Recalculations ==== ==== Recalculations ====
-Table 14 shows the effects of recalculations on NH<sub>3</sub> and NO<sub>x</sub> emissions.  
  
 +For all years, totals of NH<sub>3</sub> and NO<sub>x</sub> emissions from grazing are slightly higher than those of last year’s submission. 
  
-For all years the total emissions of NH<sub>3</sub> and NO<sub>x</sub> from grazing are slightly higher than those of last year’s submission. The main reason for that is the introduction of the new animal categories ostrich and deer. It is assumed that rabbits and fur bearing animals do not have access to pasture (see main page of the agricultural sector, list of recalculations, No. 1). Further details on recalculations are described in Vos et al. (2024), Chapter 1.3. +The main reason for that is the introduction of the new animal categories "ostriches" and "deer". It is assumed that rabbits and fur bearing animals do not have access to pasture (see main page of the agricultural sector, list of recalculations, No. 1). Further details on recalculations are described in Vos et al. (2024), Chapter 1.3. 
  
-__Table 14: REC-5: Revised NH<sub>3</sub> and NO<sub>x</sub> emissions, in kilotonnes__+__Table 15: REC-5: Revised NH<sub>3</sub> and NO<sub>x</sub> emissions, in kilotonnes__
 |                      ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ |                      ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 | **Ammonia**          |        |        |        |        |        |        |        |        |        |        |        |        |        | | **Ammonia**          |        |        |        |        |        |        |        |        |        |        |        |        |        |
Line 342: Line 342:
  
 ==== Activity data ==== ==== Activity data ====
 +
 The activity data is the total area of agricultural land (arable land, grassland and horticultural land). This data is provided by official statistics.  The activity data is the total area of agricultural land (arable land, grassland and horticultural land). This data is provided by official statistics. 
  
-//Table 15AD for the estimation of TSP,  PM<sub>10</sub>  and PM<sub>2.5</sub> emissions from soils//^+__Table 16Arable land and grasslandin  [1000*ha]__
 ^  Arable land and grassland in 1000*ha                                                                                                                          ||||||||||||| ^  Arable land and grassland in 1000*ha                                                                                                                          |||||||||||||
 ^  1990                                  ^  1995    ^  2000    ^  2005    ^  2010    ^  2015    ^  2016    ^  2017    ^  2018    ^  2019    ^  2020    ^  2021    ^  2022    ^ ^  1990                                  ^  1995    ^  2000    ^  2005    ^  2010    ^  2015    ^  2016    ^  2017    ^  2018    ^  2019    ^  2020    ^  2021    ^  2022    ^
Line 352: Line 353:
  
 ==== Emission factors ==== ==== Emission factors ====
-Emission factors given in EMEP (2019)-3D-18, Tables 3.5 and 3.7 are used with the exception of „Harvesting“ PM<sub>10</sub>-factors for Wheat, Rye, Barley and Oat which were taken from the Danish IIR. These Guidebook-EFs are obviously too high by a factor of 10 and were corrected in the Danish IIR. The missing default-EFs for „other arable“ in the 2019 EMEP/EEA Guidebook were replaced with the average of the EFs of wheat, rye, barley and oat, as it was done in the Danish IIR. The PM<sub>10</sub> EFs were also used as TSP EFs. The Guidebook does not indicate whether EFs have considered the condensable component (with or without). For details on country specific numbers of agricultural crop operations see Vos et al. (2024), Chapter 5.2.4. Table 12 shows the implied emission factors for PM emissions from soils. 
  
-//Table 16Emission factors for PM emissions from agricultural soils// +Emission factors given in EMEP (2019)-3D-18, Tables 3.5 and 3.7 are used with the exception of „Harvesting“ PM<sub>10</sub>-factors for Wheat, Rye, Barley and Oat which were taken from the Danish IIR. These Guidebook-EFs are obviously too high by a factor of 10 and were corrected in the Danish IIR.  
-^                    IEF in kg ha<sup>-1</sup>                                                                                                  |||||||||||||+ 
 +The missing default-EFs for „other arable“ in the 2019 EMEP/EEA Guidebook were replaced with the average of the EFs of wheat, rye, barley and oat, as it was done in the Danish IIR. The PM<sub>10</sub> EFs were also used as TSP EFs. The Guidebook does not indicate whether EFs have considered the condensable component (with or without). For details on country specific numbers of agricultural crop operations see Vos et al. (2024), Chapter 5.2.4.  
 + 
 +__Table 17Implied emission factors for PM emissions from agricultural soilsin kg ha<sup>-1</sup>__
 |                    1990                        1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ |                    1990                        1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 ^ TSP               | 1.41                        | 1.41   | 1.42   | 1.40   | 1.39   | 1.38   | 1.37   | 1.37   | 1.36   | 1.36   | 1.35   | 1.35   | 1.36   | ^ TSP               | 1.41                        | 1.41   | 1.42   | 1.40   | 1.39   | 1.38   | 1.37   | 1.37   | 1.36   | 1.36   | 1.35   | 1.35   | 1.36   |
Line 368: Line 371:
 ==== Recalculations ==== ==== Recalculations ====
  
-Table 17 shows the effects of recalculations on particulate matter emissions. The only difference is in the year 2021, where the emissions are slightly higher than in the submission 2023. The reason for this is the correction of area data in one federal state.Further details on recalculations are described in Vos et al. (2024), Chapter 1.3. +The only difference occurs for 2021, where the emissions are slightly higher than in the previous submission due to the correction of area data in one federal state. 
 +Further details on recalculations are described in Vos et al. (2024), Chapter 1.3. 
  
-__Table 17: REC-6: Revised particle emissions (TSP, PM<sub>10</sub> & PM<sub>2.5</sub>), in kilotonnes__+__Table 18: REC-6: Revised particle emissions (TSP, PM<sub>10</sub> & PM<sub>2.5</sub>), in kilotonnes__
 |                                      ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ |                                      ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 | **TOTAL SUSPENDED PARTICLES (TSP)**                                                                                                          |||||||||||||| | **TOTAL SUSPENDED PARTICLES (TSP)**                                                                                                          ||||||||||||||
Line 396: Line 400:
  
 ==== Activity data ==== ==== Activity data ====
-The activity data is the total area of arable land and grassland. This data is provided by official statistics. 
  
-// Table 18: AD for the estimation of NMVOC emissions from crop production// +The __total area of arable land and grassland__ applied as activity data is provided by official statistics. 
-^  Arable land and grassland in 1000*ha                                                                                                              ||||||||||||| + 
-^  1990                                  ^  1995    2000    2005    2010    2015    2016    2017    2018    2019    2020    2021    2022   ^ +__Table 19: Arable land and grasslandin [1000 ha]__ 
-| 16.506                                 | 15.312  | 15.498  | 15.561  | 15.734  | 15.719  | 15.662  | 15.647  | 15.570  | 15.563  | 15.447  | 15.376  | 15.336  |+^  1990    ^  1995    2000    2005    2010    2015    2016    2017    2018    2019    2020    2021    2022   ^ 
 +| 16.506  | 15.312  | 15.498  | 15.561  | 15.734  | 15.719  | 15.662  | 15.647  | 15.570  | 15.563  | 15.447  | 15.376  | 15.336  |
  
 ==== Methodology ==== ==== Methodology ====
Line 407: Line 411:
  
 ==== Emission Factors ==== ==== Emission Factors ====
-The emission factors for wheat, rye, rape and grass (15°C) given in EMEP (2019)-3D-16, Table 3.3 were used. For all grassland areas the grass (15°C) EF is used, for all other crops except rye and rape the EF of wheat is used. Table 19 shows the implied emission factors for NMVOC emissions from crop production. The implied emission factor is defined as ratio of the total NMVOC emissions from cultivated crops to the total area given by activity data. 
  
-__Table 19: IEF for NMVOC emissions from crop production, in [kg ha-1]__+The emission factors for wheat, rye, rape and grass (15°C) given in EMEP (2019)-3D-16, Table 3.3 were used. For all grassland areas the grass (15°C) EF is used, for all other crops except rye and rape the EF of wheat is used.  
 + 
 +The implied emission factors provided in thr following table are defined as ratio of the total NMVOC emissions from cultivated crops to the total area given by activity data. 
 + 
 +__Table 20: IEF for NMVOC emissions from crop production, in [kg ha-1]__
 ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 |  0.47  |  0.53  |  0.57  |  0.59  |  0.61  |  0.63  |  0.62  |  0.62  |  0.50  |  0.55  |  0.59  |  0.61  |  0.58  | |  0.47  |  0.53  |  0.57  |  0.59  |  0.61  |  0.63  |  0.62  |  0.62  |  0.50  |  0.55  |  0.59  |  0.61  |  0.58  |
Line 416: Line 423:
  
 ==== Recalculations ==== ==== Recalculations ====
-Table 20 shows the effects of recalculations on NMVOC emissions. The only change with respect to last year’s submission is in 2021, where emissions are slightly higher in the present submission. The reason for this is the correction of area data in one federal state. Further details on recalculations are described in Vos et al. (2024), Chapter 1.3.  
  
-__Table 20: REC-7: Revised NMVOC emissions, in kilotonnes__+The only change with respect to last year’s submission occurs for 2021, where emissions are slightly higher in the present submission due to the correction of area data in one federal state. Further details on recalculations are described in Vos et al. (2024), Chapter 1.3.  
 + 
 +__Table 21: REC-7: Revised NMVOC emissions, in kilotonnes__
 |                                                1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ |                                                1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^
 ^ current submission                            |   7.69 |   8.19 |   8.79 |   9.17 |   9.53 |   9.91 |   9.69 |   9.74 |   7.82 |   8.56 |   9.16 |   9.44 |   8.91 | ^ current submission                            |   7.69 |   8.19 |   8.79 |   9.17 |   9.53 |   9.91 |   9.69 |   9.74 |   7.82 |   8.56 |   9.16 |   9.44 |   8.91 |
Line 425: Line 433:
 ^ relative change [%]                             0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.05 |        | ^ relative change [%]                             0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.00 |   0.05 |        |
  
-<WRAP center round info 60%>+<WRAP center round info 65%>
 For **pollutant-specific information on recalculated emission estimates for Base Year and 2021**, please see the pollutant specific recalculation tables following [[general:recalculations:start|chapter 8.1 - Recalculations]]. For **pollutant-specific information on recalculated emission estimates for Base Year and 2021**, please see the pollutant specific recalculation tables following [[general:recalculations:start|chapter 8.1 - Recalculations]].
 </WRAP> </WRAP>