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sector:agriculture:agricultural_soils:3df_agriculture_other [2022/01/12 13:19] – [Planned improvements] doeringsector:agriculture:agricultural_soils:3df_agriculture_other [2022/01/12 13:34] (current) doering
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 Hexachlorobenzene (HCB) is one of the listed persistent organic pollutants covered by the Aarhus Protocol on Persistent Organic Pollutants from 2009, Annex III((Aarhus Protocol on Persistent Organic Pollutants (2009), United Nation: Aarhus Protocol on Long-range Transboundary Air Pollution, Persistent Organic Pollutants, 1998 - Amendment - (on Annexes V and VII) Decision 2009. Status In force (since Dec 13, 2010), Annex III.)), the Stockholm Convention((Stockholm Convention (2001): The Stockholm Convention on Persistent Organic Pollutants, opened for signature May 23, 2001, UN Doc. UNEP/POPS/CONF/4, App. II (2001), reprinted in 40 ILM 532 (2001) [hereinafter Stockholm Convention]. The text of the convention and additional information about POPs is available online at the United Nations Environment Programme’s (UNEP’s) POPs website)) and Directive 2016/2284 (NECD), Annex I from 2016((Directive 2016/2284/EU: Directive (EU) 2016/2284 of the European Parliament and of the Council of 14 December 2016 on the reduction of national emissions of certain atmospheric pollutants, amending Directive 2003/35/EC and repealing Directive 2001/81/EC (Text with EEA relevance ).)). These conventions and directives oblige parties to reduce their emissions of dioxins, furans, polycyclic aromatic hydrocarbons (PAHs) and hexachlorobenzene (HCB) below their levels in 1990. Hexachlorobenzene (HCB) is one of the listed persistent organic pollutants covered by the Aarhus Protocol on Persistent Organic Pollutants from 2009, Annex III((Aarhus Protocol on Persistent Organic Pollutants (2009), United Nation: Aarhus Protocol on Long-range Transboundary Air Pollution, Persistent Organic Pollutants, 1998 - Amendment - (on Annexes V and VII) Decision 2009. Status In force (since Dec 13, 2010), Annex III.)), the Stockholm Convention((Stockholm Convention (2001): The Stockholm Convention on Persistent Organic Pollutants, opened for signature May 23, 2001, UN Doc. UNEP/POPS/CONF/4, App. II (2001), reprinted in 40 ILM 532 (2001) [hereinafter Stockholm Convention]. The text of the convention and additional information about POPs is available online at the United Nations Environment Programme’s (UNEP’s) POPs website)) and Directive 2016/2284 (NECD), Annex I from 2016((Directive 2016/2284/EU: Directive (EU) 2016/2284 of the European Parliament and of the Council of 14 December 2016 on the reduction of national emissions of certain atmospheric pollutants, amending Directive 2003/35/EC and repealing Directive 2001/81/EC (Text with EEA relevance ).)). These conventions and directives oblige parties to reduce their emissions of dioxins, furans, polycyclic aromatic hydrocarbons (PAHs) and hexachlorobenzene (HCB) below their levels in 1990.
  
-In Germany the application of HCB as a pesticide, in a pure form, has been prohibited since 1977 and thus no HCB emissions were reported before 2015. However, HCB can occur as an impurity in active substances e.g.:+In Germany the application of HCB as a pesticide, in a pure form, has been prohibited since 1977 and thus no HCB emissions were reported reported until the 2016 reporting. However, HCB can occur as an impurity in active substances e.g.:
  
 Lindane (gamma-hexachlorocyclohexane, γ-HCCH),  Lindane (gamma-hexachlorocyclohexane, γ-HCCH), 
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-Before 2006 there was no legal regulation in Germany on the maximum content of HCB in the active ingredient chlorothalonil. However, with the implementation of Directive 91/414/EEC ((Council Directive 91/414/EEC of 15 July 1991 concerning the placing of plant protection products on the market, https://eur-lex.europa.eu/legal-content/en/ALL/?uri=CELEX:31991L0414)), manufacturers had to analyse their technical active substance for possible relevant impurities and, where appropriate, indicate a maximum level. These maximum levels had to be maintained. Information about the levels specified for chlorothalonil for the years 1990 and 1999 for Germany are not known. As described in the FAO specification (2015, p. 49, ((FAO (2015): FAO (Food and Agriculture Organization of the United Nations) Specifications and Evaluations for Chlorothalonil, p 51. http://www.fao.org/agriculture/crops/thematic-sitemap/theme/pests/jmps/ps-new/en/))) Chlorothalonil was reviewed by IPCS (INTERNATIONAL PROGRAMME ON CHEMICAL SAFETY) in the Environmental Health Criteria (EHC) series in 1996. The limit for HCB in the FAO specification in 1998 for chlorothalonil was 0.3 g/kg and manufacturer stated in that report that the company had improved the manufacturing process (see FAO Specification, 2015, p. 51).+Before 2006 there was no legal regulation in Germany on the maximum content of HCB in the active substance chlorothalonil. However, with the implementation of Directive 91/414/EEC ((Council Directive 91/414/EEC of 15 July 1991 concerning the placing of plant protection products on the market, https://eur-lex.europa.eu/legal-content/en/ALL/?uri=CELEX:31991L0414)), manufacturers had to analyse their technical active substance for possible relevant impurities and, where appropriate, indicate a maximum level. These maximum levels had to be maintained. Information about the levels specified for chlorothalonil for the years 1990 and 1999 for Germany are not known. As described in the FAO specification (2015, p. 49, ((FAO (2015): FAO (Food and Agriculture Organization of the United Nations) Specifications and Evaluations for Chlorothalonil, p 51. http://www.fao.org/agriculture/crops/thematic-sitemap/theme/pests/jmps/ps-new/en/))) Chlorothalonil was reviewed by IPCS (INTERNATIONAL PROGRAMME ON CHEMICAL SAFETY) in the Environmental Health Criteria (EHC) series in 1996. The limit for HCB in the FAO specification in 1998 for chlorothalonil was 0.3 g/kg and manufacturer stated in that report that the company had improved the manufacturing process (see FAO Specification, 2015, p. 51).
 Thus, a maximum HCB concentration of 300 mg/kg (IPCS, 1996 ((IPCS (1996), Chlorothalonil. Environmental Health Criteria, 183. 145pp. WHO, Geneva, Switzerland. ISBN 92-4-157183-7. C12138614.7.))) is considered for the years 1990 until 1999 for Germany. Thus, a maximum HCB concentration of 300 mg/kg (IPCS, 1996 ((IPCS (1996), Chlorothalonil. Environmental Health Criteria, 183. 145pp. WHO, Geneva, Switzerland. ISBN 92-4-157183-7. C12138614.7.))) is considered for the years 1990 until 1999 for Germany.
  
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-The data on lindane sales were compared by the BVL with historical data from the GDR statistics and published since 2020 (see Table II). For the years after 1997 no data are available because the application of lindane was phased out in 1998.+The data on lindane sales were compared by the BVL with historical data from the former GDR statistics and published since 2020 (see Table II). For the years after 1997 no data are available because the application of lindane was phased out in 1998.
  
  
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 Recalculations were made for the complete time series due to the changes and new information given by the BVL for the amount of domestic sales of the active substances. The following Tables IV a) - c) show the differences between the data for submission 2021 and the current data and are given in tonnes per year and in percentage. Recalculations were made for the complete time series due to the changes and new information given by the BVL for the amount of domestic sales of the active substances. The following Tables IV a) - c) show the differences between the data for submission 2021 and the current data and are given in tonnes per year and in percentage.
  
-//Tables IV a) - c): Recalculation of the activity data: lindane, chlorthalonil and picloram.//+//Tables IV a) - c): Recalculation of the activity data: lindane, chlorothalonil and picloram.//
  
 a) a)
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 b) b)
 ^  Active Substance        Unit  ^  2019  ^ ^  Active Substance        Unit  ^  2019  ^
-Chlorthalonil_SUB 2022  |  t      911.8 | +Chlorothalonil_SUB 2022  |  t      911.8 | 
-Chlorthalonil_SUB 2021  |  t      860.8 |+Chlorothalonil_SUB 2021  |  t      860.8 |
 | Difference              |  t       50.9 | | Difference              |  t       50.9 |
 | Difference              |  %        5.9 | | Difference              |  %        5.9 |
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 | HCB_SUB 2021  |  kg    |  107.1 |    138 |   55.7 |   29.7 |   26.7 |     18 |   26.6 |   24.2 |    5.0 |   45.0 | | HCB_SUB 2021  |  kg    |  107.1 |    138 |   55.7 |   29.7 |   26.7 |     18 |   26.6 |   24.2 |    5.0 |   45.0 |
 | Difference    |  kg    |    0.1 |    0.1 |    0.1 |   0.04 |   0.03 |   0.01 |   0.02 |   0.01 |    0.0 |    0.0 | | Difference    |  kg    |    0.1 |    0.1 |    0.1 |   0.04 |   0.03 |   0.01 |   0.02 |   0.01 |    0.0 |    0.0 |
-| Difference    |  %        0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.0 |   0.00   0.00 |+| Difference    |  %        0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.1 |    0.0 |    0.   0.0 |
  
 ^  Emissions    ^  Unit  ^  2000  ^  2001  ^  2002  ^  2003  ^  2004  ^  2005  ^  2006  ^  2007  ^  2008  ^  2009  ^ ^  Emissions    ^  Unit  ^  2000  ^  2001  ^  2002  ^  2003  ^  2004  ^  2005  ^  2006  ^  2007  ^  2008  ^  2009  ^
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 | Difference    |  kg    |      0 |      0 |      0 |      0 |      0 |   22.9 |   24.1 |   19.8 |   19.2 |   15.8 | | Difference    |  kg    |      0 |      0 |      0 |      0 |      0 |   22.9 |   24.1 |   19.8 |   19.2 |   15.8 |
 | Difference    |  %          0 |      0 |      0 |      0 |      0 |    200 |    200 |    200 |    200 |    300 | | Difference    |  %          0 |      0 |      0 |      0 |      0 |    200 |    200 |    200 |    200 |    300 |
-| Difference    |  %       18.6 |    0.8 |      1 |    9.6 |    1.6 |   34.3 |   36.2 |   29.6 |   28.8 |     21 | 
  
 ^  Emissions    ^  Unit  ^  2010  ^  2011  ^  2012  ^  2013  ^  2014  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^ ^  Emissions    ^  Unit  ^  2010  ^  2011  ^  2012  ^  2013  ^  2014  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^