- Latest available (Revised)
- Point in Time (31/01/2020)
- Original (As adopted by EU)
Regulation (EU) 2019/1009 of the European Parliament and of the Council of 5 June 2019 laying down rules on the making available on the market of EU fertilising products and amending Regulations (EC) No 1069/2009 and (EC) No 1107/2009 and repealing Regulation (EC) No 2003/2003 (Text with EEA relevance)
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Solid inorganic macronutrient fertiliser
Straight solid inorganic macronutrient fertiliser
Straight solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content
Compound solid inorganic macronutrient fertiliser
Compound solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content
Liquid inorganic macronutrient fertiliser
Straight liquid inorganic macronutrient fertiliser
Compound liquid inorganic macronutrient fertiliser
Straight inorganic micronutrient fertiliser
Compound inorganic micronutrient fertiliser
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the use of the EU fertilising product as specified in the use instructions must not lead to the exceedance of those limit values in food or feed.
=
phosphorus pentoxide (P2O5) × 0,436;
=
potassium oxide (K2O) × 0,830;
=
calcium oxide (CaO) × 0,715;
=
magnesium oxide (MgO) × 0,603;
=
sodium oxide (Na2O) × 0,742;
=
sulphur trioxide (SO3) × 0,400.
organic carbon (Corg) = organic matter × 0,56.
A fertiliser shall be an EU fertilising product the function of which is to provide nutrients to plants or mushrooms.
organic carbon (Corg) and
nutrients
of solely biological origin.
An organic fertiliser may contain peat, leonardite and lignite, but no other material which is fossilized or embedded in geological formations.
:
1,5 mg/kg dry matter,
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
50 mg/kg dry matter,
:
120 mg/kg dry matter, and
:
40 mg/kg dry matter.
Biuret (C2H5N3O2) must not be present in an organic fertiliser.
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in colony forming units (CFU) is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
Where a solid organic fertiliser contains only one declared primary nutrient, that nutrient content shall be at least the following:
2,5 % by mass of total nitrogen (N),
2 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
Where a solid organic fertiliser contains more than one declared primary nutrient, those nutrient contents shall be at least the following:
1 % by mass of total nitrogen (N),
1 % by mass of total phosphorus pentoxide (P2O5), or
1 % by mass of total potassium oxide (K2O).
The sum of those nutrient contents shall be at least 4 % by mass.
Where a liquid organic fertiliser contains only one declared primary nutrient, that nutrient content shall be at least the following:
2 % by mass of total nitrogen (N),
1 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
Where a liquid organic fertiliser contains more than one declared primary nutrient, those nutrient contents shall be at least the following:
1 % by mass of total nitrogen (N),
1 % by mass of total phosphorus pentoxide (P2O5), or
1 % by mass of total potassium oxide (K2O).
The sum of those nutrient contents shall be at least 3 % by mass.
one or more inorganic fertilisers, as specified in PFC 1(C), and
one or more materials containing:
organic carbon (Corg); and
nutrients
of solely biological origin.
An organo-mineral fertiliser may contain peat, leonardite and lignite, but no other material which is fossilized or embedded in geological formations.
:
where an organo-mineral fertiliser has a total phosphorus (P) content of less than 5 % phosphorus pentoxide (P2O5)-equivalent by mass: 3 mg/kg dry matter, or
where an organo-mineral fertiliser has a total phosphorus (P) content of 5 % phosphorus pentoxide (P2O5)-equivalent or more by mass (‘phosphate fertiliser’): 60 mg/kg phosphorus pentoxide (P2O5);
:
2 mg/kg dry matter;
:
1 mg/kg dry matter;
:
50 mg/kg dry matter;
:
120 mg/kg dry matter;
:
40 mg/kg dry matter; and
:
12 g/kg dry matter.
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in CFU is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
Where a solid organo-mineral fertiliser contains only one declared primary nutrient, that nutrient content shall be at least the following:
2,5 % by mass of total nitrogen (N), out of which 1 % by mass shall be organic nitrogen (Norg),
2 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
Where a solid organo-mineral fertiliser contains more than one declared primary nutrient, those nutrient contents shall be at least the following:
2 % by mass of total nitrogen (N), out of which 0,5 % by mass shall be organic nitrogen (Norg),
2 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
The sum of those nutrient contents shall be at least 8 % by mass.
Where a liquid organo-mineral fertiliser contains only one declared primary nutrient, that nutrient content shall be at least the following:
2 % by mass of total nitrogen (N), out of which 0,5 % by mass shall be organic nitrogen (Norg),
2 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
Where a liquid organo-mineral fertiliser contains more than one declared primary nutrient, those nutrient contents shall be at least the following:
2 % by mass of total nitrogen (N), out of which 0,5 % by mass shall be organic nitrogen (Norg),
2 % by mass of total phosphorus pentoxide (P2O5), or
2 % by mass of total potassium oxide (K2O).
The sum of those nutrient contents shall be at least 6 % by mass.
chelating or complexing agents referred to in point 3 of component material category (CMC) 1 in Part II of Annex II,
nitrification inhibitors, denitrification inhibitors or urease inhibitors referred to in point 4 of CMC 1 in Part II of Annex II,
coating agents referred to in point 1(a) of CMC 9 in Part II of Annex II,
urea (CH4N2O), or
calcium cyanamide (CaCN2)
shall meet the requirement that pathogens in an inorganic fertiliser must not exceed the limits set out in the following table:
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in CFU is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
primary macronutrients: nitrogen (N), phosphorus (P) or potassium (K),
secondary macronutrients: calcium (Ca), magnesium (Mg), sodium (Na) or sulphur (S).
:
where an inorganic macronutrient fertiliser has a total phosphorus (P) content of less than 5 % phosphorus pentoxide (P2O5)-equivalent by mass: 3 mg/kg dry matter, or
where an inorganic macronutrient fertiliser has a total phosphorus (P) content of 5 % phosphorus pentoxide (P2O5)-equivalent or more by mass (‘phosphate fertiliser’): 60 mg/kg phosphorus pentoxide (P2O5);
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
100 mg/kg dry matter,
:
120 mg/kg dry matter,
:
40 mg/kg dry matter,
:
12 g/kg dry matter,
:
50 mg/kg dry matter.
A solid inorganic macronutrient fertiliser shall be in solid form.
only one macronutrient (nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)), or
only one primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)) and one or more secondary macronutrients (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)).
10 % by mass of total nitrogen (N),
12 % by mass of total phosphorus pentoxide (P2O5),
6 % by mass of total potassium oxide (K2O),
5 % by mass of total magnesium oxide (MgO),
12 % by mass of total calcium oxide (CaO),
10 % by mass of total sulphur trioxide (SO3), or
1 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 40 % by mass.
Where a straight solid inorganic macronutrient fertiliser contains only one declared primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)) and one or more declared secondary macronutrients (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)):
that primary macronutrient content shall be at least the following:
3 % by mass of total nitrogen (N),
3 % by mass of total phosphorus pentoxide (P2O5), or
3 % by mass of total potassium oxide (K2O);
that or those secondary macronutrient contents shall be at least the following:
1,5 % by mass of total magnesium oxide (MgO),
1,5 % by mass of total calcium oxide (CaO),
1,5 % by mass of total sulphur trioxide (SO3), or
1 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 40 % by mass.
The sum of all declared primary and secondary macronutrient contents shall be at least 18 % by mass.
more than one primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)), or
more than one secondary macronutrient (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)) and no primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)).
3 % by mass of total nitrogen (N),
3 % by mass of total phosphorus pentoxide (P2O5),
3 % by mass of total potassium oxide (K2O),
1,5 % by mass of total magnesium oxide (MgO),
1,5 % by mass of total calcium oxide (CaO),
1,5 % by mass of total sulphur trioxide (SO3), or
1 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 40 % by mass.
The sum of all declared macronutrient contents shall be at least 18 % by mass.
following five thermal cycles as described under point 4.3 in Module A1 in Part II of Annex IV,
in two detonation resistance tests as described under point 4.4 in Module A1 in Part II of Annex IV,
one or more of the supporting lead cylinders is crushed by less than 5 %.
0,2 % for a straight or compound solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content having a nitrogen (N) content of at least 31,5 % by mass, and
0,4 % for a straight or compound solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content having a nitrogen (N) content of at least 28 % but less than 31,5 % by mass.
A liquid inorganic macronutrient fertiliser shall be in liquid form.
only one macronutrient (nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)), or
only one primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)) and one or more secondary macronutrients (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)).
5 % by mass of total nitrogen (N),
5 % by mass of total phosphorus pentoxide (P2O5),
3 % by mass of total potassium oxide (K2O),
2 % by mass of total magnesium oxide (MgO),
6 % by mass of total calcium oxide (CaO),
5 % by mass of total sulphur trioxide (SO3), or
1 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 40 % by mass.
Where a straight liquid inorganic macronutrient fertiliser contains only one declared primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)), and one or more declared secondary macronutrients (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)):
that primary macronutrient content shall be at least the following:
1,5 % by mass of total nitrogen (N),
1,5 % by mass of total phosphorus pentoxide (P2O5), or
1,5 % by mass of total potassium oxide (K2O); and
that or those secondary macronutrient contents shall be at least the following:
0,75 % by mass of total magnesium oxide (MgO),
0,75 % by mass of total calcium oxide (CaO),
0,75 % by mass of total sulphur trioxide (SO3), or
0,5 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 20 % by mass.
The sum of all declared primary and secondary macronutrient contents shall be at least 7 % by mass.
more than one primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)), or
more than one secondary macronutrient (calcium (Ca), magnesium (Mg), sodium (Na), sulphur (S)), and no primary macronutrient (nitrogen (N), phosphorus (P), potassium (K)).
1,5 % by mass of total nitrogen (N),
1,5 % by mass of total phosphorus pentoxide (P2O5),
1,5 % by mass of total potassium oxide (K2O),
0,75 % by mass of total magnesium oxide (MgO),
0,75 % by mass of total calcium oxide (CaO),
0,75 % by mass of total sulphur trioxide (SO3), or
0,5 % by mass of total sodium oxide (Na2O).
However, the total sodium oxide (Na2O) content shall not exceed 20 % by mass.
The sum of all declared nutrient contents shall be at least 7 % by mass.
Contaminant | Limit values of contaminants expressed in mg, in relation to the total micronutrient content expressed in kg( mg/kg of total micronutrient content, which means boron (B), cobalt (Co), copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo) and zinc (Zn)) |
---|---|
Arsenic (As) | 1 000 |
Cadmium (Cd) | 200 |
Lead (Pb) | 600 |
Mercury (Hg) | 100 |
Nickel (Ni) | 2 000 |
a UVCB: Substance of unknown or variable composition, complex reaction products or biological materials. | ||
Typology | Description | Minimum micronutrient content |
---|---|---|
Micronutrient salt fertiliser | A chemically obtained straight solid inorganic micronutrient fertiliser containing a mineral ion salt as its essential ingredient | 10 % by mass of micronutrient salt fertiliser shall consist of a water-soluble micronutrient |
Micronutrient oxide or hydroxide fertiliser | A chemically obtained straight solid inorganic micronutrient fertiliser containing oxide or hydroxide as its essential ingredient | 10 % by mass of a micronutrient oxide or hydroxide fertiliser shall consist of a micronutrient |
Micronutrient-based fertiliser | A straight inorganic micronutrient fertiliser combining a micronutrient salt fertiliser with one or more other micronutrient salt fertilisers and/or with a single micronutrient chelate | 5 % by mass of a micronutrient-based fertiliser shall consist of a micronutrient |
Micronutrient solution fertiliser | An aqueous solution of different forms of a straight inorganic micronutrient fertiliser | 2 % by mass of a micronutrient solution fertiliser shall consist of a water-soluble micronutrient |
Micronutrient suspension fertiliser | A suspension of different forms of a straight inorganic micronutrient fertiliser | 2 % by mass of a micronutrient suspension fertiliser shall consist of a micronutrient |
Micronutrient chelate fertiliser | A water-soluble straight inorganic micronutrient fertiliser in which the declared micronutrient is chemically combined with chelating agent(s) fulfilling the requirements of CMC 1 in Part II of Annex II |
|
UVCBa iron chelates | A water-soluble straight inorganic micronutrient fertiliser in which the declared iron is chemically combined with chelating agent(s) fulfilling the requirements of CMC 1 in Part II of Annex II |
|
Micronutrient complex fertiliser | A water-soluble straight inorganic micronutrient fertiliser in which the declared micronutrient is chemically combined with complexing agent(s) fulfilling the requirements of CMC 1 in Part II of Annex II |
|
2 % by mass for fertilisers in liquid form;
5 % by mass for fertilisers in solid form.
A liming material shall contain oxides, hydroxides, carbonates or silicates of the nutrients calcium (Ca) or magnesium (Mg).
:
2 mg/kg dry matter,
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
90 mg/kg dry matter,
:
120 mg/kg dry matter,
:
40 mg/kg dry matter.
minimum neutralising value: 15 (equivalent CaO) or 9 (equivalent HO-),
minimum reactivity: 10 % (hydrochloric acid test) or 50 % after 6 months (incubation test), and
minimum grain size: at least 70 % < 1 mm, except for burnt limes, granulated liming material and chalk (at least 70 % of the liming material shall pass through a 1 mm sieve).
A soil improver shall be an EU fertilising product the function of which is to maintain, improve or protect the physical or chemical properties, the structure or the biological activity of the soil to which it is added.
An organic soil improver may contain peat, leonardite and lignite, but no other material which is fossilized or embedded in geological formations.
:
2 mg/kg dry matter,
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
50 mg/kg dry matter,
:
120 mg/kg dry matter, and
:
40 mg/kg dry matter.
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in CFU is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
:
1,5 mg/kg dry matter,
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
100 mg/kg dry matter,
:
120 mg/kg dry matter,
:
40 mg/kg dry matter.
For the purpose of this point, plants include algae.
:
1,5 mg/kg dry matter,
:
2 mg/kg dry matter,
:
1 mg/kg dry matter,
:
50 mg/kg dry matter,
:
120 mg/kg dry matter, and
:
40 mg/kg dry matter.
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in CFU is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
An inhibitor shall be an EU fertilising product the function of which is to improve the nutrient release patterns of a product providing plants with nutrients by delaying or stopping the activity of specific groups of micro-organisms or enzymes.
ammoniacal nitrogen (NH3-N) disappearance, or
the sum of nitrite nitrogen (NO2-) and nitrate nitrogen (NO3-) production with respect to time.
Compared to a control sample where the nitrification inhibitor has not been added, a soil sample containing the nitrification inhibitor shall show a 20 % reduction in ammoniacal nitrogen (NH3-N) oxidation rate based on an analysis carried out 14 days after application at the 95 % confidence level.
nutrient use efficiency,
tolerance to abiotic stress,
quality traits, or
availability of confined nutrients in the soil or rhizosphere.
:
1,5 mg/kg dry matter,
:
2 mg/kg dry matter,
:
120 mg/kg dry matter,
:
1 mg/kg dry matter,
:
50 mg/kg dry matter, and
:
40 mg/kg dry matter.
Micro-organisms/their toxins, metabolites | Sampling plans | Limit | |
---|---|---|---|
n | c | ||
Salmonella spp. | 5 | 0 | Absence in 25 g or 25 ml |
Escherichia coli | 5 | 0 | Absence in 1 g or 1 ml |
Listeria monocytogenes | 5 | 0 | Absence in 25 g or 25 ml |
Vibrio spp. | 5 | 0 | Absence in 25 g or 25 ml |
Shigella spp. | 5 | 0 | Absence in 25 g or 25 ml |
Staphylococcus aureus | 5 | 0 | Absence in 25 g or 25 ml |
Enterococcaceae | 5 | 2 | 10 CFU/g |
Anaerobic plate count unless the microbial plant biostimulant is an aerobic bacterium | 5 | 2 | 105 CFU/g or ml |
Yeast and mould count unless the microbial plant biostimulant is a fungus | 5 | 2 | 1 000 CFU/g or ml |
Where:
=
number of units comprising the sample,
=
number of sample units giving values over the defined limit.
Micro-organisms to be tested | Sampling plans | Limit | ||
---|---|---|---|---|
n | c | m | M | |
Salmonella spp. | 5 | 0 | 0 | Absence in 25 g or 25 ml |
Escherichia coli or Enterococcaceae | 5 | 5 | 0 | 1 000 in 1 g or 1 ml |
Where:
=
number of samples to be tested,
=
number of samples where the number of bacteria expressed in CFU is between m and M,
=
threshold value for the number of bacteria expressed in CFU that is considered satisfactory,
=
maximum value of the number of bacteria expressed in CFU.
drawing up an EU declaration of conformity for the fertilising product blend in accordance with Article 6(2) of this Regulation, and
being in possession of the EU declaration of conformity of each of the component EU fertilising products.
Article 6(3) (manufacturers’ obligation to keep the EU declaration of conformity);
point (a) of Article 7(2) (authorised representatives’ obligation to keep the EU declaration of conformity);
Article 8(8) (importers’ obligation to keep a copy of the EU declaration of conformity at the disposal of the market surveillance authorities).
An EU fertilising product shall consist solely of component materials complying with the requirements for one or more of the CMCs listed in this Annex.
The component materials, and the input materials used to produce them, shall not contain any of the substances for which maximum limit values are indicated in Annex I in such quantities as to jeopardise the EU fertilising product’s compliance with the applicable requirements of that Annex.
CMC 1: Virgin material substances and mixtures
CMC 2: Plants, plant parts or plant extracts
CMC 3: Compost
CMC 4: Fresh crop digestate
CMC 5: Digestate other than fresh crop digestate
CMC 6: Food industry by-products
CMC 7: Micro-organisms
CMC 8: Nutrient polymers
CMC 9: Polymers other than nutrient polymers
CMC 10: Derived products within the meaning of Regulation (EC) No 1069/2009
CMC 11: By-products within the meaning of Directive 2008/98/EC
This Part defines the component materials of which EU fertilising products shall solely consist.
waste within the meaning of Directive 2008/98/EC,
substances or mixtures which have ceased to be waste in one or more Member States by virtue of the national measures transposing Article 6 of Directive 2008/98/EC,
substances formed from precursors which have ceased to be waste in one or more Member States by virtue of the national measures transposing Article 6 of Directive 2008/98/EC, or mixtures containing such substances,
by-products within the meaning of Directive 2008/98/EC,
animal by-products or derived products within the meaning of Regulation (EC) No 1069/2009,
polymers,
compost, or
digestate.
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by points 6, 7, 8, or 9 of Annex V to that Regulation.
The chelating agent shall be an organic substance consisting in a molecule which:
has two or more sites that donate electron pairs to a central transition metal cation (zinc (Zn), copper (Cu), iron (Fe), manganese (Mn), magnesium (Mg), calcium (Ca) or cobalt (Co)), and
is large enough to form a five- or six- membered cyclic structure.
The EU fertilising product shall remain stable in standard Hoagland solution at pH 7 and 8 for at least 3 days.
The complexing agent shall be an organic substance forming a flat or steric structure with one di- or tri- valent transition metal cation (zinc (Zn), copper (Cu), iron (Fe), manganese (Mn) or cobalt (Co)).
The EU fertilising product shall remain stable in water solution at pH 6 and 7 for at least 1 day.
The nitrification inhibitor shall inhibit the biological oxidation of ammoniacal nitrogen (NH3-N) to nitrite nitrogen (NO2-), thus slowing the formation of nitrate nitrogen (NO3-).
The ammoniacal nitrogen (NH3-N) oxidation rate shall be measured either by:
ammoniacal nitrogen (NH3-N) disappearance, or
the sum of nitrite nitrogen (NO2-) and nitrate nitrogen (NO3-) production with respect to time.
Compared to a control sample where the nitrification inhibitor has not been added, a soil sample containing the nitrification inhibitor shall show a 20 % reduction in ammoniacal nitrogen (NH3-N) oxidation rate based on an analysis carried out 14 days after application at the 95 % confidence level.
At least 50 % of the total nitrogen (N) content of the EU fertilising product shall consist of the nitrogen (N) forms ammonium (NH4 +) and urea (CH4N2O).
The denitrification inhibitor shall inhibit the formation of nitrous oxide (N2O) by slowing down or blocking the conversion of nitrate (NO3-) to dinitrogen (N2) without influencing the nitrification process as described in PFC 5(A).
Compared to a control sample where the denitrification inhibitor has not been added, an in vitro test containing the denitrification inhibitor shall show a 20 % reduction in rate of the release of nitrous oxide (N2O) based on an analysis carried out 14 days after application at the 95 % confidence level.
The urease inhibitor shall inhibit hydrolytic action on urea (CH4N2O) by the urease enzyme, primarily targeted to reduce ammonia volatilisation. Compared to a control sample where the urease inhibitor has not been added, an in vitro test containing the urease inhibitor shall show a 20 % reduction in the rate of hydrolysis of urea (CH4N2O) based on an analysis carried out 14 days after application at the 95 % confidence level.
At least 50 % of the total nitrogen (N) content of the EU fertilising product shall consist of the nitrogen (N) form urea (CH4N2O).
An EU fertilising product may contain plants, plant parts or plant extracts having undergone no other processing than cutting, grinding, milling, sieving, sifting, centrifugation, pressing, drying, frost treatment, freeze-drying or extraction with water or supercritical CO2 extraction.
For the purpose of this point, plants include mushrooms and algae and exclude blue-green algae (cyanobacteria).
bio-waste within the meaning of Directive 2008/98/EC resulting from separate bio-waste collection at source;
derived products referred to in Article 32 of Regulation (EC) No 1069/2009 for which the end point in the manufacturing chain has been determined in accordance with the third subparagraph of Article 5(2) of that Regulation;
living or dead organisms or parts thereof, which are unprocessed or processed only by manual, mechanical or gravitational means, by dissolution in water, by flotation, by extraction with water, by steam distillation or by heating solely to remove water, or which are extracted from air by any means, except:
the organic fraction of mixed municipal household waste separated through mechanical, physicochemical, biological and/or manual treatment,
sewage sludge, industrial sludge or dredging sludge, and
animal by-products or derived products falling within the scope of Regulation (EC) No 1069/2009 for which no end point in the manufacturing chain has been determined in accordance with the third subparagraph of Article 5(2) of that Regulation;
composting additives which are necessary to improve the process performance or the environmental performance of the composting process provided that:
the additive is registered pursuant to Regulation (EC) No 1907/2006(7), with a dossier containing:
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by point 6, 7, 8 or 9 of Annex V to that Regulation, and
the total concentration of all additives does not exceed 5 % of the total input material weight; or
any material listed in points (a), (b) or (c) which:
has previously been composted or digested, and
contains no more than 6 mg/kg dry matter of PAH16 (8).
in which production lines for the processing of input materials referred to in point 1 are clearly separated from production lines for the processing of input materials other than those referred to in point 1, and
where physical contacts between input and output materials are avoided, including during storage.
70 °C or more for at least 3 days,
65 °C or more for at least 5 days,
60 °C or more for at least 7 days, or
55 °C or more for at least 14 days.
no more than 6 mg/kg dry matter of PAH16 (9);
no more than 3 g/kg dry matter of macroscopic impurities above 2 mm in any of the following forms: glass, metal or plastics; and
no more than 5 g/kg dry matter of the sum of the macroscopic impurities referred to in point (b).
From 16 July 2026, the presence of plastics above 2 mm within the maximum limit value referred to in point (b) shall be no more than 2,5 g/kg dry matter. By 16 July 2029 the limit-value of 2,5 g/kg dry matter for plastics above 2 mm shall be re-assessed in order to take into account the progress made with regards to separate collection of bio-waste.
Oxygen uptake rate:
Definition: an indicator of the extent to which biodegradable organic matter is being broken down within a specified time period. The method is not suitable for material with a content of particle sizes > 10 mm that exceeds 20 %,
Criterion: maximum 25 mmol O2/kg organic matter/h; or
Self heating factor:
Definition: the maximum temperature reached by a compost in standardised conditions as an indicator of the state of its aerobic biological activity,
Criterion: minimum Rottegrad III.
plants or plant parts grown for the production of biogas. For the purpose of this point, plants include algae and exclude blue-green algae (cyanobacteria);
digestion additives which are needed to improve the process performance or the environmental performance of the digestion process provided that:
the additive is registered pursuant to Regulation (EC) No 1907/2006(10), with a dossier containing:
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by point 6, 7, 8 or 9 of Annex V to that Regulation, and
the total concentration of all additives does not exceed 5 % of the total input material weight; or
any material referred to in point (a) that has previously been digested.
in which production lines for the processing of input materials referred to in point 1 are clearly separated from production lines for the processing of input materials other than those referred to in point 1, and
where physical contacts between input and output materials are avoided, including during storage.
thermophilic anaerobic digestion at 55 °C for at least 24 hours followed by a hydraulic retention time of at least 20 days;
thermophilic anaerobic digestion at 55 °C with a treatment process including pasteurisation as described in point 1 of Section 1 of Chapter I of Annex V to Commission Regulation (EU) No 142/2011(11);
thermophilic anaerobic digestion at 55 °C followed by composting in:
70 °C or more for at least 3 days,
65 °C or more for at least 5 days,
60 °C or more for at least 7 days, or
55 °C or more for at least 14 days;
mesophilic anaerobic digestion at 37-40 °C with a treatment process including pasteurisation as described in point 1 of Section 1 of Chapter I of Annex V to Regulation (EU) No 142/2011; or
mesophilic anaerobic digestion at 37-40 °C followed by composting in:
70 °C or more for at least 3 days,
65 °C or more for at least 5 days,
60 °C or more for at least 7 days, or
55 °C or more for at least 14 days.
Oxygen uptake rate:
Definition: an indicator of the extent to which biodegradable organic matter is being broken down within a specified time period. The method is not suitable for material with a content of particle sizes > 10 mm that exceeds 20 %;
Criterion: maximum 25 mmol O2/kg organic matter/h; or
Residual biogas potential:
Definition: an indicator of the gas released from a digestate in a 28 day period and measured against the volatile solids contained within the sample. The test is run in triplicate, and the average result is used to demonstrate compliance with the criterion. The volatile solids are those solids in a sample of material that are lost on ignition of the dry solids at 550 °C;
Criterion: maximum 0,25 l biogas/g volatile solids.
bio-waste within the meaning of Directive 2008/98/EC resulting from separate bio-waste collection at source;
derived products referred to in Article 32 of Regulation (EC) No 1069/2009 for which the end point in the manufacturing chain has been determined in accordance with the third subparagraph of Article 5(2) of that Regulation;
living or dead organisms or parts thereof which are unprocessed or processed only by manual, mechanical or gravitational means, by dissolution in water, by flotation, by extraction with water, by steam distillation or by heating solely to remove water, or which are extracted from air by any means, except:
the organic fraction of mixed municipal household waste separated through mechanical, physicochemical, biological and/or manual treatment,
sewage sludge, industrial sludge or dredging sludge,
animal by-products or derived products falling within the scope of Regulation (EC) No 1069/2009 for which no end point in the manufacturing chain has been determined in accordance with the third subparagraph of Article 5(2) of that Regulation;
digestion additives which are necessary to improve the process performance or the environmental performance of the digestion process provided that:
the additive is registered pursuant to Regulation (EC) No 1907/2006(12), with a dossier containing:
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by point 6, 7, 8 or 9 of Annex V to that Regulation, and
the total concentration of all additives does not exceed 5 % of the total input material weight; or
any material listed in points (a), (b) or (c) which:
has previously been composted or digested, and
contains no more than 6 mg/kg dry matter of PAH16 (13).
in which production lines for the processing of input materials referred to in point 1 are clearly separated from production lines for the processing of input materials other than those referred to in point 1, and
where physical contacts between input and output materials are avoided, including during storage.
thermophilic anaerobic digestion at 55 °C for at least 24 hours followed by a hydraulic retention time of at least 20 days;
thermophilic anaerobic digestion at 55 °C with a treatment process including pasteurisation as described in point 1 of Section 1 of Chapter I of Annex V to Regulation (EU) No 142/2011;
thermophilic anaerobic digestion at 55 °C followed by composting in:
70 °C or more for at least 3 days,
65 °C or more for at least 5 days,
60 °C or more for at least 7 days, or
55 °C or more for at least 14 days;
mesophilic anaerobic digestion at 37-40 °C with a treatment process including pasteurisation as described in point 1 of Section 1 of Chapter I of Annex V to Regulation (EU) No 142/2011; or
mesophilic anaerobic digestion at 37-40 °C followed by composting in:
70 °C or more for at least 3 days,
65 °C or more for at least 5 days,
60 °C or more for at least 7 days, or
55 °C or more for at least 14 days.
no more than 3 g/kg dry matter of macroscopic impurities above 2 mm in any of the following forms: glass, metal or plastics; and
no more than 5 g/kg dry matter of the sum of the macroscopic impurities referred to in point (a).
From 16 July 2026, the presence of plastics above 2 mm within the maximum limit value referred to in point (a) shall be no more than 2,5 g/kg dry matter. By 16 July 2029 the limit-value of 2,5 g/kg dry matter for plastics above 2 mm shall be re-assessed in order to take into account the progress made with regards to separate collection of bio-waste.
Oxygen uptake rate:
Definition: an indicator of the extent to which biodegradable organic matter is being broken down within a specified time period. The method is not suitable for material with a content of particle sizes > 10 mm that exceeds 20 %.
Criterion: maximum 25 mmol O2/kg organic matter/h; or
Residual biogas potential:
Definition: an indicator of the gas released from a digestate in a 28 day period and measured against the volatile solids contained within the sample. The test is run in triplicate, and the average result is used to demonstrate compliance with the criterion. The volatile solids are those solids in a sample of material that are lost on ignition of the dry solids at 550 °C.
Criterion: maximum 0,25 l biogas/g volatile solids.
food industry factory lime, i.e. a material from the food processing industry obtained by carbonation of organic matter, using exclusively burnt lime from natural sources;
molasses, i.e. a viscous by-product of the refining of sugarcane or sugar beets into sugar;
vinasse, i.e. a viscous by-product of the fermentation process of molasses into ethanol, ascorbic acid or other products;
distillers grains, i.e. by-products resulting from the production of alcoholic beverages;
plants, plant parts or plant extracts having undergone only heat treatment or heat treatment in addition to processing methods referred to in CMC 2; or
lime from drinking water production, i.e. residue which is released by production of drinking water from groundwater or surface water and consists, mainly, of calcium carbonate.
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by point 6, 7, 8, or 9 of Annex V to that Regulation.
An EU fertilising product belonging to PFC 6(A) may contain micro-organisms, including dead or empty-cell micro-organisms and non-harmful residual elements of the media on which they were produced, which:
have undergone no other processing than drying or freeze-drying; and
are listed in the following table:
Azotobacter spp. |
Mycorrhizal fungi |
Rhizobium spp. |
Azospirillum spp. |
to control the water penetration into nutrient particles and thus the release of nutrients (in which case the polymer is commonly referred to as a ‘coating agent’),
to increase the water retention capacity or wettability of the EU fertilising product, or
to bind material in an EU fertilising product belonging to PFC 4.
In the plant growth acute toxicity test, the germination rate and the plant biomass of the tested plant species grown on the soil exposed to the test material shall be more than 90 % of the germination rate and the plant biomass of the same plant species grown on corresponding blank soil not exposed to the test material.
The results shall be considered to be valid only if in the controls (i.e. blank soil):
the seedling emergence is at least 70 %;
the seedlings do not exhibit visible phytotoxic effects (e.g. chlorosis, necrosis, wilting, leaf and stem deformations) and the plants exhibit only normal variation in growth and morphology for that particular species;
the mean survival of emerged control seedlings is at least 90 % for the duration of the study; and
environmental conditions for a particular species are identical and growing media contain the same amount of soil matrix, support media, or substrate from the same source.
In the earthworm acute toxicity test, the observed mortality and the biomass of surviving earthworms in a soil exposed to the test material shall not differ by more than 10 % compared to those from the corresponding blank soil not exposed to the test material. The results shall be considered to be valid, if:
the percent mortality observed in the control (i.e. blank soil) is less than 10 %, and
the average loss of biomass (mean weight) of the worms in the blank soil does not exceed 20 %.
In the nitrification inhibition test with soil micro-organisms, the nitrite formation in soil exposed to the test material shall be more than 90 % of those from the corresponding blank soil not exposed to the test material. The results shall be considered to be valid, if the variation between replicate control samples (blank soil) and test samples is less than 20 %.
An EU fertilising product may contain derived products within the meaning of Regulation (EC) No 1069/2009 having reached the end point in the manufacturing chain as determined in accordance with that Regulation, and which are listed in the following table and as specified therein(16):
animal by-products or derived products within the meaning of Regulation (EC) No 1069/2009,
polymers,
compost, or
digestate.
the information provided for by Annexes VI, VII and VIII to Regulation (EC) No 1907/2006, and
a chemical safety report pursuant to Article 14 of Regulation (EC) No 1907/2006 covering the use as a fertilising product,
unless explicitly covered by one of the registration obligation exemptions provided for by Annex IV to Regulation (EC) No 1907/2006 or by point 6, 7, 8 or 9 of Annex V to that Regulation.
This Annex sets out the labelling requirements for EU fertilising products. The requirements laid down in Part II and Part III of this Annex for a given PFC, as specified in Annex I, apply to EU fertilising products in all subcategories of that PFC.
for EU fertilising products in PFC 1 to PFC 6, the designation as indicated in Part I of Annex I of the PFC corresponding to the product’s claimed function;
for EU fertilising products in PFC 7, the designations as indicated in Part I of Annex I of all the PFCs corresponding to the claimed functions of the component EU fertilising products;
the quantity of the EU fertilising product, indicated by mass or volume;
instructions for intended use, including application rates, timing and frequency, and target plants or mushrooms;
recommended storage conditions;
for products containing a polymer belonging to CMC 9 in Part II of Annex II, the time period following use during which the nutrient release is being controlled or the water retention capacity is being increased (the ‘functionality period’), which shall not be longer than the period between two applications in accordance with the use instructions referred to in point (d);
any relevant information on measures recommended to manage risks to human, animal or plant health, to safety or to the environment; and
a list of all ingredients above 5 % by product weight in descending order of magnitude by dry weight, including the designations of the relevant CMCs as referred to in Part I of Annex II to this Regulation; where the ingredient is a substance or a mixture, it shall be identified as specified in Article 18 of Regulation (EC) No 1272/2008.
shall not mislead the user, for example by attributing to the product properties that it does not possess, or by suggesting that the product possesses unique characteristics which similar products also have;
shall relate to verifiable factors;
shall not make claims such as ‘sustainable’ or ‘environmentally friendly’ unless such claims refer to legislation, or clearly identified guidelines, standards or schemes, with which the EU fertilising product complies; and
shall not make claims by means of statements or visual representations that the EU fertilising product prevents or treats plant diseases or protects plants against harmful organisms.
=
phosphorus pentoxide (P2O5) × 0,436;
=
potassium oxide (K2O) × 0,830;
=
calcium oxide (CaO) × 0,715;
=
magnesium oxide (MgO) × 0,603;
=
sodium oxide (Na2O) × 0,742;
=
sulphur trioxide (SO3) × 0,400.
organic carbon (Corg) = organic matter × 0,56.
the label shall state the words ‘nitrification inhibitor’, ‘denitrification inhibitor’ or ‘urease inhibitor’, as relevant;
the nitrification inhibitor content shall be expressed as a % by mass of the total nitrogen (N) present as ammonium nitrogen (NH4 +) and urea nitrogen (CH4N2O);
the denitrification inhibitor content shall be expressed as a % by mass of the nitrate (NO3-) present;
the urease inhibitor content shall be expressed as a % by mass of the total nitrogen (N) present as urea nitrogen (CH4N2O).
the mineral fertiliser must not contain more than 1 % by mass of organic carbon (Corg), other than organic carbon from:
chelating or complexing agents referred to in point 3 of CMC 1 in Part II of Annex II,
nitrification inhibitors, denitrification inhibitors or urease inhibitors referred to in point 4 of CMC 1 in Part II of Annex II,
coating agents referred to in point 1(a) of CMC 9 in Part II of Annex II,
urea (CH4N2O), or
calcium cyanamide (CaCN2);
where phosphorus (P) is a declared nutrient, the declared phosphorus content shall consist only of phosphorus in the phosphatic form, and the mineral fertiliser shall fulfil at least one of the following solubility criteria:
water solubility: minimum level 40 % of total phosphorus (P),
solubility in neutral ammonium citrate: minimum level 75 % of total phosphorus (P), or
solubility in formic acid (only for soft rock phosphate): minimum level 55 % of total phosphorus (P);
where nitrogen (N) is a declared nutrient, the declared nitrogen content shall consist only of the sum of nitric nitrogen, ammoniacal nitrogen, ureic nitrogen, and nitrogen from methylene-urea, from isobutylidenediurea, and from crotonylidenediurea.
The following information shall be provided:
the declared primary nutrients nitrogen (N), phosphorus (P) or potassium (K), by their chemical symbols in the order N-P-K;
the declared secondary nutrients calcium (Ca), magnesium (Mg), sodium (Na), or sulphur (S) by their chemical symbols in the order Ca-Mg-Na-S;
numbers indicating the content of the declared nutrients total nitrogen (N), total phosphorus in the form of phosphorus pentoxide (P2O5) or total potassium in the form of potassium oxide (K2O), followed by numbers in brackets indicating the total content of calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) or sulphur trioxide (SO3);
the content of the following declared nutrients and other parameters, in the following order and as % by mass:
nitrogen (N):
total nitrogen (N);
minimum amount of organic nitrogen (Norg), followed by a description of the origin of the organic matter used;
nitrogen in the form of ammoniacal nitrogen;
total phosphorus pentoxide (P2O5);
total potassium oxide (K2O);
calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) and sulphur trioxide (SO3), expressed:
where those nutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those nutrients is at least a quarter of the total content of those nutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
organic carbon (Corg);
dry matter;
the ratio of organic carbon to total nitrogen (Corg/N);
production date;
the form of the physical unit of the product, such as powder or pellets, if applicable.
the declared primary nutrients nitrogen (N), phosphorus (P) or potassium (K), by their chemical symbols in the order N-P-K;
where applicable, the declared secondary nutrients calcium (Ca), magnesium (Mg), sodium (Na) or sulphur (S) by their chemical symbols in the order Ca-Mg-Na-S;
numbers indicating the content of the declared nutrients total nitrogen (N), total phosphorus in the form of phosphorus pentoxide (P2O5) or total potassium in the form of potassium oxide (K2O), followed by numbers in brackets indicating the total content of calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) or sulphur trioxide (SO3);
the content of the following declared nutrients and other parameters, in the following order and as % by mass:
nitrogen (N):
total nitrogen (N);
minimum amount of organic nitrogen (Norg), followed by a description of the origin of the organic matter used;
nitrogen in the form of nitric nitrogen;
nitrogen in the form of ammoniacal nitrogen;
nitrogen in the form of urea nitrogen;
phosphorus pentoxide (P2O5):
total phosphorus pentoxide (P2O5);
water-soluble phosphorus pentoxide (P2O5);
phosphorus pentoxide (P2O5) soluble in neutral ammonium citrate;
where soft ground phosphate is present, phosphorus pentoxide (P2O5) soluble in formic acid;
potassium oxide (K2O):
total potassium oxide (K2O);
water soluble potassium oxide (K2O);
calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) and sulphur trioxide (SO3), expressed:
where those nutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those nutrients is at least a quarter of the total content of those nutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
organic carbon (Corg);
dry matter,
where urea (CH4N2O) is present, information about the possible air quality impacts of the release of ammonia from the fertiliser use, and an invitation to users to apply appropriate remediation measures.
shall be declared if they are intentionally added to an organo-mineral fertiliser, and
may be declared in other cases:
Micronutrient | Content of micronutrient (% by mass) | ||
---|---|---|---|
Solid organo-mineral fertiliser | Liquid organo-mineral fertiliser | ||
Intended for use on crops or grassland | Intended for horticultural use | ||
Boron (B) | 0,01 | 0,01 | 0,01 |
Cobalt (Co) | 0,002 | n.a. | 0,002 |
Iron (Fe) | 0,5 | 0,02 | 0,02 |
Manganese (Mn) | 0,1 | 0,01 | 0,01 |
Molybdenum (Mo) | 0,001 | 0,001 | 0,001 |
Micronutrient | Content of micronutrient (% by mass) | ||
---|---|---|---|
Solid organo-mineral fertiliser | Liquid organo-mineral fertiliser | ||
Intended for use on crops or grassland | Intended for horticultural use | ||
Copper (Cu) | 0,01 | 0,002 | 0,002 |
Zinc (Zn) | 0,01 | 0,002 | 0,002 |
indication of the names and chemical symbols of the declared micronutrients, listed in the following order: boron (B), cobalt (Co), copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo) and zinc (Zn), followed by the names of their counter-ions;
the total micronutrient content expressed as % by mass:
where those micronutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those micronutrients is at least a quarter of the total content of those micronutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
where the declared micronutrients are chelated by chelating agents, the following qualifier after the name and the chemical identifier of the micronutrient:
‘chelated by … (name of the chelating agent or its abbreviation)’, and the amount of chelated micronutrient as % by mass;
where the organo-mineral fertiliser contains micronutrients complexed by complexing agents the following qualifier after the name and the chemical identifier of the micronutrient:
‘complexed by … (name of the complexing agent or its abbreviation)’, and the amount of complexed micronutrient as % by mass;
where micronutrients are intentionally added, the following statement: ‘To be used only where there is a recognised need. Do not exceed the application rate’.
where applicable, the declared primary nutrients nitrogen (N), phosphorus (P) or potassium (K), by their chemical symbols in the order N-P-K;
where applicable, the declared secondary nutrients calcium (Ca), magnesium (Mg), sodium (Na) or sulphur (S) by their chemical symbols in the order Ca-Mg-Na-S;
numbers indicating the content of the declared nutrients total nitrogen (N), total phosphorus in the form of phosphorus pentoxide (P2O5) or total potassium in the form of potassium oxide (K2O), followed by numbers in brackets indicating the total content of calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) or sulphur trioxide (SO3);
the content of the following declared nutrients, in the following order and as % by mass:
nitrogen (N):
total nitrogen (N);
nitrogen in the form of nitric nitrogen;
nitrogen in the form of ammoniacal nitrogen;
nitrogen in the form of urea nitrogen;
nitrogen from urea formaldehyde, isobutylidenediurea, crotonylidenediurea;
nitrogen from cyanamide nitrogen;
phosphorus pentoxide (P2O5):
total phosphorus pentoxide (P2O5);
water-soluble phosphorus pentoxide (P2O5);
phosphorus pentoxide (P2O5) soluble in neutral ammonium citrate;
where soft ground phosphate is present, phosphorus pentoxide (P2O5) soluble in formic acid;
water soluble potassium oxide (K2O);
calcium oxide (CaO), magnesium oxide (MgO), sodium oxide (Na2O) and sulphur trioxide (SO3), expressed:
where those nutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those nutrients is at least a quarter of the total content of those nutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
where urea (CH4N2O) is present, information about the possible air quality impacts of the release of ammonia from the fertiliser use, and an invitation to users to apply appropriate remediation measures.
granules,
pellets,
powder, where at least 90 % by mass of the product can pass through a sieve with a mesh of 1 mm, or
prills.
for polymer coated solid inorganic macronutrient fertilisers, the following marking: ‘The rate of nutrient releases can vary according to the temperature of the substrate. An adjustment of fertilisation may be necessary’; and
for sulphur (S) coated solid inorganic macronutrient fertilisers and sulphur (S)/polymer coated solid inorganic macronutrient fertilisers, the following marking: ‘The rate of nutrient release can vary according to the temperature of the substrate and the biological activity. An adjustment of fertilisation may be necessary’.
shall be declared if they are intentionally added to the solid inorganic macronutrient fertiliser, and
may be declared in other cases:
Micronutrient | Content of micronutrients (% by mass) | |
---|---|---|
Intended for use on crops or grassland | Intended for horticultural use | |
Boron (B) | 0,01 | 0,01 |
Cobalt (Co) | 0,002 | n.a. |
Iron (Fe) | 0,5 | 0,02 |
Manganese (Mn) | 0,1 | 0,01 |
Molybdenum (Mo) | 0,001 | 0,001 |
Micronutrient | Content of micronutrients (% by mass) | |
---|---|---|
Intended for use on crops or grassland | Intended for horticultural use | |
Copper (Cu) | 0,01 | 0,002 |
Zinc (Zn) | 0,01 | 0,002 |
indication of the names and chemical symbols of the declared micronutrients, listed in the following order: boron (B), cobalt (Co), copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo) and zinc (Zn), followed by the names of their counter-ions;
the total micronutrient content expressed as % by mass:
where those micronutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those micronutrients is at least a quarter of the total content of those micronutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
where the declared micronutrients are chelated by chelating agents, the following qualifier after the name and the chemical identifier of the micronutrient:
‘chelated by … (name of the chelating agent or its abbreviation)’, and the amount of chelated micronutrient as % by mass;
where the solid inorganic macronutrient fertiliser contains micronutrients complexed by complexing agents the following qualifier after the name and the chemical identifier of the micronutrient:
‘complexed by … (name of the complexing agent or its abbreviation)’, and the amount of complexed micronutrient as % by mass;
where micronutrients are intentionally added, the following statement: ‘To be used only where there is a recognised need. Do not exceed the application rate’.
shall be declared if they are intentionally added to the liquid inorganic macronutrient fertiliser, and
may be declared in other cases:
Micronutrient | Content of micronutrient (% by mass) |
---|---|
Boron (B) | 0,01 |
Cobalt (Co) | 0,002 |
Iron (Fe) | 0,02 |
Manganese (Mn) | 0,01 |
Molybdenum (Mo) | 0,001 |
indication of the names and chemical symbols of the declared micronutrients, listed in the following order: boron (B), cobalt (Co), copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo) and zinc (Zn), followed by the names of their counter-ions;
the total micronutrient content expressed as % by mass or volume:
where those micronutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of those micronutrients is at least a quarter of the total content of those micronutrients, as the total content and as the content soluble in water;
in other cases, as the total content;
where the declared micronutrients are chelated by chelating agents, the following qualifier after the name and the chemical identifier of the micronutrient:
‘chelated by … (name of the chelating agent or its abbreviation)’, and the amount of chelated micronutrient as % by mass;
where the liquid inorganic macronutrient fertiliser contains micronutrients complexed by complexing agents the following qualifier after the name and the chemical identifier of the micronutrient:
‘complexed by … (name of the complexing agent or its abbreviation)’, and the amount of complexed micronutrient as % by mass;
where micronutrients are intentionally added, the following statement: ‘To be used only where there is a recognised need. Do not exceed the application rate’.
‘chelated by … (name of the chelating agent or its abbreviation)’, and the amount of chelated micronutrient as % by mass.
‘complexed by … (name of the complexing agent or its abbreviation)’, and the amount of complexed micronutrient as % by mass.
where the micronutrient is totally soluble in water, only as the content soluble in water;
where the soluble content of the micronutrient is at least a quarter of the total content of that micronutrient, as the total content and as the content soluble in water;
in other cases, as the total content.
Micronutrient | Content of micronutrient (% by mass) | |
---|---|---|
Non-chelated, non-complexed | Chelated or complexed | |
Boron (B) | 0,2 | n.a. |
Cobalt (Co) | 0,02 | 0,02 |
Copper (Cu) | 0,5 | 0,1 |
Iron (Fe) | 2 | 0,3 |
Manganese (Mn) | 0,5 | 0,1 |
Molybdenum (Mo) | 0,02 | n.a. |
Zinc (Zn) | 0,5 | 0,1 |
where the micronutrients are totally soluble in water, only as the content soluble in water;
where the soluble content of the micronutrients is at least half of the total content of those micronutrients, as the total content and as the content soluble in water;
in other cases, as the total content.
The following parameters shall be declared in the following order:
neutralising value;
granulometry, expressed as % by mass of product passing through a sieve of 1,0 mm;
total calcium oxide (CaO), expressed as % by mass;
total magnesium oxide (MgO), expressed as % by mass;
reactivity and method of determination of reactivity, except for oxide and hydroxide limes.
The following parameters shall be declared:
pH;
electrical conductivity, given as mS/m;
organic carbon (Corg) content, expressed as % by mass;
minimum amount of organic nitrogen (Norg), expressed as % by mass, followed by a description of the origin of the organic matter used;
the ratio of organic carbon to total nitrogen (Corg/N).
The following parameters shall be declared in the following order:
electrical conductivity given as mS/m, except for mineral wool;
pH;
quantity:
for mineral wool, expressed as number of pieces and the three dimensions length, height, and width;
for other pre-shaped growing media, expressed as size in at least two dimensions;
for other growing media, expressed as total volume;
except for pre-shaped growing media, quantity expressed as volume of materials with a particle size greater than 60 mm, when present;
nitrogen (N) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’), if above 150 mg/l;
phosphorus pentoxide (P2O5) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’), if above 20 mg/l;
potassium oxide (K2O) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’), if above 150 mg/l;
production date.
All ingredients shall be declared by product weight or volume in descending order of magnitude.
The following information shall be provided:
physical form;
production and expiry date;
application method(s);
effect claimed for each target plant; and
any relevant instructions related to the efficacy of the product, including soil management practices, chemical fertilisation, incompatibility with plant protection products, recommended spraying nozzles size, sprayer pressure and other anti-drift measures.
All intentionally added micro-organisms shall be indicated. Where the micro-organism has several strains, the intentionally added strains shall be indicated. Their concentration shall be expressed as the number of active units per volume or weight, or in any other manner that is relevant to the micro-organism, e.g. colony forming units per gram (cfu/g).
The label shall contain the following phrase: ‘Micro-organisms may have the potential to provoke sensitising reactions’.
All the labelling requirements applicable to all component EU fertilising products apply to the fertilising product blend, and shall be expressed in relation to the final fertilising product blend.
Where the fertilising product blend contains one or more plant biostimulants belonging to PFC 6, the concentration of each plant biostimulant in the blend shall be indicated in g/kg or g/l at 20 °C.
The following tolerance rules apply to fertilisers containing nitrification inhibitors, denitrification inhibitors or urease inhibitors, as specified in CMC 1 in Part II of Annex II:
Inhibitors | Permissible tolerance for the declared content of inhibitors |
---|---|
Concentration below or equal to 2 % | ± 20 % of the declared value |
Concentration of more than 2 % | ± 0,3 percentage points in absolute terms |
Forms of the declared nutrient and other declared parameters | Permissible tolerance for the declared nutrient content and other declared parameters |
---|---|
Organic carbon (Corg) | ± 20 % relative deviation of the declared value up to a maximum of 2,0 percentage points in absolute terms |
Dry matter content | ± 5,0 percentage points in absolute terms |
Total nitrogen (N) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Organic nitrogen (Norg) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Total phosphorus pentoxide (P2O5) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Total potassium oxide (K2O) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Total and water-soluble magnesium oxide (MgO), calcium oxide (CaO), sulphur trioxide(SO3) or sodium oxide (Na2O) | ± 25 % of the declared content of those nutrients up to a maximum of 1,5 percentage points in absolute terms |
Organic carbon (Corg)/total nitrogen (N) | ± 20 % relative deviation of the declared value up to a maximum of 2,0 percentage points in absolute terms |
Quantity | ± 1,5 % relative deviation of the declared value |
Forms of the declared nutrient and other declared parameters | Permissible tolerance for the declared macronutrient content and other declared parameters |
---|---|
Organic carbon (Corg) | ± 20 % relative deviation of the declared value up to a maximum of 2,0 percentage points in absolute terms |
Dry matter content | ± 5,0 percentage points in absolute terms |
Declared forms of inorganic nitrogen (N) | ± 25 % relative deviation of the declared value up to a maximum of 2,0 percentage points in absolute terms |
Organic nitrogen (Norg) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Declared forms of phosphorus pentoxide (P2O5) | ± 25 % relative deviation of the declared value up to a maximum of 1,5 percentage points in absolute terms |
Declared forms of potassium oxide (K2O) | ± 25 % relative deviation of the declared value up to a maximum of 1,5 percentage points in absolute terms |
Total and water-soluble magnesium oxide (MgO), calcium oxide (CaO), sulphur trioxide (SO3) | ± 25 % of the declared content of those nutrients up to a maximum of 1,0 percentage point in absolute terms |
Total and water-soluble sodium oxide (Na2O) | ± 25 % of the declared content up to a maximum of 0,9 percentage point in absolute terms |
Quantity | ± 1,5 % relative deviation of the declared value |
Micronutrient | Permissible tolerance for the declared content of forms of micronutrient |
---|---|
Concentration below or equal to 2 % | ± 20 % of the declared value |
Concentration of more than 2 % and below or equal to 10 % | ± 20 % of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Concentration of more than 10 % | ± 1,0 percentage point in absolute terms |
Forms of the declared nutrient and other declared parameters | Permissible tolerance for the declared macronutrient content and other declared parameters |
---|---|
Declared forms of nitrogen (N) | ± 20 % relative deviation of the declared value up to a maximum of 1,5 percentage points in absolute terms |
Declared forms of phosphorus pentoxide (P2O5) | ± 20 % relative deviation of the declared value up to a maximum of 1,5 percentage points in absolute terms |
Declared forms of potassium oxide (K2O) | ± 20 % relative deviation of the declared value up to a maximum of 1,5 percentage points in absolute terms |
Declared forms of nitrogen (N), phosphorus pentoxide (P2O5) or potassium oxide (K2O) in binary fertilisers | ± 1,5 percentage points in absolute terms |
Declared forms of nitrogen (N), phosphorus pentoxide (P2O5) or potassium oxide (K2O) in tertiary fertilisers | ± 1,9 percentage points in absolute terms |
Total and water-soluble magnesium oxide (MgO), calcium oxide (CaO), sulphur trioxide (SO3) | ± 25 % of the declared content of those nutrients up to a maximum of 1,0 percentage point in absolute terms |
Total and water soluble sodium oxide (Na2O) | – 25 % of the declared content up to a maximum of 0,9 percentage point in absolute terms + 50 % of the declared content up to a maximum of 1,8 percentage points in absolute terms |
Granulometry | ± 10 % relative deviation of the declared percentage of material passing a specific sieve |
Quantity | ± 1 % relative deviation of the declared value |
Micronutrient | Permissible tolerance for the declared content of forms of micronutrient |
---|---|
Concentration below or equal to 2 % | ± 20 % of the declared value |
Concentration of more than 2 % and below or equal to 10 % | ± 20 % of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Concentration of more than 10 % | ± 1,0 percentage point in absolute terms |
Quantity: ± 5 % relative deviation of the declared value
Forms of the declared nutrient and other declared parameters | Permissible tolerances for the declared parameter |
---|---|
Neutralising value | ± 3 |
Granulometry | ± 10 % relative deviation of the declared percentage of material passing a specific sieve. |
Total calcium oxide (CaO) | ± 3,0 percentage points in absolute terms |
Total magnesium oxide (MgO) | |
Concentration below 8 % | ± 1,0 percentage point in absolute terms |
Concentration between 8 to 16 % | ± 2,0 percentage points in absolute terms |
Concentration above or equal to 16 % | ± 3,0 percentage points in absolute terms |
Reactivities (hydrochloric acid test and incubation test) | ± 5,0 percentage points in absolute terms |
Quantity | ± 1 % relative deviation of the declared value |
Forms of the declared nutrient and other declared parameters | Permissible tolerances for the declared parameter |
---|---|
pH | ± 1,0 of the declared value |
Organic carbon (Corg) | ± 10 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Organic nitrogen (Norg) | ± 50 % relative deviation of the declared value up to a maximum of 1,0 percentage point in absolute terms |
Total nitrogen (N) | ± 20 % relative deviation up to a maximum of 1,0 percentage point in absolute terms |
Total phosphorus pentoxide (P2O5) | ± 20 % relative deviation up to a maximum of 1,0 percentage point in absolute terms |
Total potassium oxide (K2O) | ± 20 % relative deviation up to a maximum of 1,0 percentage point in absolute terms |
Dry matter content | ± 10 % relative deviation of the declared value |
Quantity | ± 5 % relative deviation of the declared value |
Electrical conductivity | ± 75 % relative deviation of the declared value |
Forms for the declared nutrient and other declared parameters | Permissible tolerances for the declared parameter |
---|---|
Electrical conductivity | ± 75 % relative deviation of the declared value |
pH | ± 1,0 of the declared value |
Quantity by volume (litres or m3) | ± 5 % relative deviation of the declared value |
Quantity (volume) determination of materials with particle size greater than 60 mm | ± 5 % relative deviation of the declared value |
Quantity (volume) determination of pre-shaped growing medium | ± 5 % relative deviation of the declared value |
Nitrogen (N) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’) | ± 75 % relative deviation of the declared value |
Phosphorus pentoxide (P2O5) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’) | ± 75 % relative deviation of the declared value |
Potassium oxide (K2O) extractable by CaCl2/DTPA (calcium chloride/ diethylenetriaminepentaacetic acid; ‘CAT-soluble’) | ± 75 % relative deviation of the declared value |
Inhibiting compound | Permissible tolerance for the declared content of inhibiting compound |
---|---|
Concentration below or equal to 2 % | ± 20 % of the declared value |
Concentration of more than 2 % | ± 0,3 percentage point in absolute terms |
Quantity: ± 5 % relative deviation of the declared value
The actual concentration(s) of micro-organisms may deviate by no more than 15 % from the declared value(s).
Where the fertilising product blend contains one or more plant biostimulants belonging to PFC 6, the following tolerances shall apply for the declared concentration of each plant biostimulant:
Declared concentration in g/kg or g/l at 20 °C | Permissible tolerance |
---|---|
Up to 25 | ± 15 % relative deviation |
More than 25 up to 100 | ± 10 % relative deviation |
More than 100 up to 250 | ± 6 % relative deviation |
More than 250 up to 500 | ± 5 % relative deviation |
More than 500 | ± 25 g/kg or ± 25 g/l |
This Part sets out the applicability of conformity assessment procedure modules, as specified in Part II of this Annex, to EU fertilising products depending on their CMCs as specified in Annex II, and their PFCs as specified in Annex I.
virgin material substances or mixtures as specified in CMC 1 in Part II of Annex II, except a nitrification inhibitor, a denitrification inhibitor or a urease inhibitor,
fresh crop digestates as specified in CMC 4 in Part II of Annex II,
food industry by-products as specified in CMC 6 in Part II of Annex II,
micro-organisms as specified in CMC 7 in Part II of Annex II,
nutrient polymers as specified in CMC 8 in Part II of Annex II,
by-products within the meaning of Directive 2008/98/EC as specified in CMC 11 in Part II of Annex II.
a straight or compound solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content, as specified in PFC 1(C)(I)(a)(i-ii)(A), or a fertilising product blend as specified in PFC 7 containing 28 % or more by mass of nitrogen (N) from an EU fertilising product belonging to PFC 1(C)(I)(a)(i-ii)(A),
an inhibitor as specified in PFC 5, or
a plant biostimulant as specified in PFC 6.
Module A1 shall be used for a straight or compound solid inorganic macronutrient ammonium nitrate fertiliser of high nitrogen content, as specified in PFC 1(C)(I)(a)(i-ii)(A), and for a fertilising product blend as specified in PFC 7 containing 28 % or more by mass of nitrogen (N) from an EU fertilising product belonging to PFC 1(C)(I)(a)(i-ii)(A).
nitrification inhibitor, denitrification inhibitor or urease inhibitor as specified in CMC 1 in Part II of Annex II,
plants, plant parts or plant extracts as specified in CMC 2 in Part II of Annex II,
polymers other than nutrient polymers as specified in CMC 9 in Part II of Annex II,
derived products within the meaning of Regulation (EC) No 1069/2009 as specified in CMC 10 in Part II of Annex II,
CMCs referred to in point 1.1 of this Part.
an inhibitor as specified in PFC 5,
a plant biostimulant as specified in PFC 6, and
a fertilising product blend as specified in PFC 7.
Internal production control is the conformity assessment procedure whereby the manufacturer fulfils the obligations laid down under points 2, 3 and 4, and ensures and declares on his or her sole responsibility that the EU fertilising products concerned satisfy the requirements of this Regulation that apply to them.
a general description of the EU fertilising product, the PFC corresponding to the claimed function of the EU fertilising product and description of the intended use,
a list of component materials used, the CMCs as referred to in Annex II to which they belong and information about their origin or manufacturing process,
the EU declarations of conformity for the component EU fertilising products of the fertilising product blend,
drawings, schemes, descriptions and explanations necessary for the understanding of the manufacturing process of the EU fertilising product,
a specimen of the label or the leaflet, or both, referred to in Article 6(7)containing the information required in accordance with Annex III,
a list of the harmonised standards referred to in Article 13, common specifications referred to in Article 14 and/or other relevant technical specifications applied. In the event of partly applied harmonised standards or common specifications, the technical documentation shall specify the parts which have been applied,
results of calculations made, including the calculations to demonstrate conformity with point 5 of Part II of Annex I, examinations carried out, etc.,
test reports,
where the EU fertilising product contains or consists of by-products within the meaning of Directive 2008/98/EC, technical and administrative evidence that the by-products comply with the criteria established by delegated act referred to in Article 42(7) of this Regulation, and with the national measures transposing Article 5(1) of Directive 2008/98/EC and, where applicable, implementing acts referred to in Article 5(2) or national measures adopted under Article 5(3) of that Directive,
where the EU fertilising product contains total chromium (Cr) above 200 mg/kg, information about the maximum quantity and exact source of total chromium (Cr).
The manufacturer shall take all measures necessary so that the manufacturing process and its monitoring ensure compliance of the manufactured EU fertilising products with the technical documentation referred to under point 2 and with the requirements of this Regulation that apply to them.
The manufacturer’s obligations set out under point 4 may be fulfilled by his or her authorised representative, on his or her behalf and under his or her responsibility, provided that they are specified in the mandate.
Internal production control plus supervised product testing is the conformity assessment procedure whereby the manufacturer fulfils the obligations laid down under points 2, 3, 4, and 5, and ensures and declares on his or her sole responsibility that the EU fertilising products concerned satisfy the requirements of this Regulation that apply to them.
a general description of the EU fertilising product, the PFC corresponding to the claimed function of the EU fertilising product and description of the intended use,
a list of component materials used, the CMCs as referred to in Annex II to which they belong and information about their origin or manufacturing process,
the EU declarations of conformity for the component EU fertilising products of the fertilising product blend,
drawings, schemes, descriptions and explanations necessary for the understanding of the manufacturing process of the EU fertilising product,
a specimen of the label or the leaflet, or both, referred to in Article 6(7) containing the information required in accordance with Annex III,
the names and addresses of the sites, and of the operators of the sites, at which the product and its principal components were manufactured,
a list of the harmonised standards referred to in Article 13, common specifications referred to in Article 14 and/or other relevant technical specifications applied. In the event of partly applied harmonised standards or common specifications, the technical documentation shall specify the parts which have been applied,
results of calculations made, including the calculations to demonstrate conformity with point 5 of Part II of Annex I, examinations carried out, etc.,
test reports, including the reports from product checks for oil retention and detonation resistance, referred to in point 4 and
where the EU fertilising product contains or consists of by-products within the meaning of Directive 2008/98/EC, technical and administrative evidence that the by-products comply with the criteria established by delegated acts referred to in Article 42(7) of this Regulation, and with the national measures transposing Article 5(1) of Directive 2008/98/EC and, where applicable, implementing acts referred to in Article 5(2) or national measures adopted under Article 5(3) of that Directive.
The manufacturer shall take all measures necessary so that the manufacturing process and its monitoring ensure compliance of the manufactured EU fertilising products with the technical documentation referred to in point 2 and with the requirements of this Regulation that apply to them.
The thermal cycles and tests referred to in points 4.1 to 4.4 shall be carried out on a representative sample of the EU fertilising product every 3 months on behalf of the manufacturer, in order to verify conformity with:
the oil retention requirement referred to in point 4 under PFC 1(C)(I)(a)(i-ii)(A) in Annex I, and
the detonation resistance requirement referred to in point 5 under PFC 1(C)(I)(a)(i-ii)(A) in Annex I.
The thermal cycles and tests shall be carried out under the responsibility of a notified body chosen by the manufacturer.
In a closed suitable laboratory flask, heat the sample from ambient temperature to 50 °C and maintain at this temperature for a period of two hours (phase at 50 °C). Thereupon cool the sample until a temperature of 25 °C is achieved and maintain at that temperature for two hours (phase at 25 °C). The combination of the successive phases at 50 °C and 25 °C forms one thermal cycle. After being subjected to two thermal cycles, the test sample is held at a temperature of 20 (± 3) °C for the determination of the oil retention value.
Normal laboratory apparatus, in particular:
water baths or ovens thermostated at 25 ± 1 °C and 50 ± 1 °C respectively,
suitable laboratory flasks with an individual capacity of 150 ml.
The oil retention of an EU fertilising product shall be the quantity of oil retained by the EU fertilising product determined under the operating conditions specified and expressed as a % by mass.
The test shall be carried out on a representative sample of the EU fertilising product. Before being tested, the whole mass of the sample shall be thermally cycled two times in accordance with point 4.1.
The method is applicable to both prilled and granular fertilisers which do not contain oil soluble materials.
Total immersion of the test sample in gas oil for a specified period, followed by the draining away of surplus oil under specified conditions. Measurement of the increase in mass of the test portion.
Gas oil with the following characteristics:
viscosity max.: 5 mPas at 40 °C;
density: 0,8 g/ml to 0,85 g/ml at 20 °C;
sulphur content: ≤ 1,0 % (m/m);
ash: ≤ 0,1 % (m/m).
Ordinary laboratory apparatus, and:
balance, capable of weighing to the nearest 0,01 g;
beakers, of capacity 500 ml;
funnel, of plastic materials, preferably with a cylindrical wall at the upper end, diameter approximately 200 mm;
test sieve, aperture 0,5 mm, fitting into the funnel;
Note: The size of the funnel and sieve is such as to ensure that only a few granules lie one above another and the oil is able to drain easily.
filter paper, rapid filtering grade, creped, soft, mass 150 g/m2;
absorbent tissue (laboratory grade).
If the quantity of gas oil retained in the portion is found to be greater than 2,00 g, place the portion on a fresh set of filter papers and repeat the rolling procedure, lifting the corners in accordance with point 4.2.5.4 (two times eight circular movements, lifting once). Then reweigh the portion.
The oil retention, from each determination (point 4.2.5.1) expressed as a % by mass of the sieved test portion, is given by the equation:
where:
m1 is the mass, in grams, of the sieved test portion (point 4.2.5.2),
m2 is the mass, in grams, of the test portion according to points 4.2.5.4 and 4.2.5.5 respectively as the result of the last weighing.
In a tight box heat the sample from ambient temperature to 50 °C and maintain at this temperature for a period of one hour (phase at 50 °C). Thereupon cool the sample until a temperature of 25 °C is achieved and maintain at that temperature for one hour (phase at 25 °C). The combination of the successive phases at 50 °C and 25 °C forms one thermal cycle. After being subjected to the required number of thermal cycles, the test sample is held at a temperature of 20 ± 3 °C pending the execution of the detonation resistance test.
A water bath, thermostated in a temperature range of 20 to 51 °C with a minimum heating and cooling rate of 10 °C/h, or two water baths, one thermostated at a temperature of 20 °C, the other at 51 °C. The water in the bath(s) is continuously stirred; the volume of the bath shall be large enough to guarantee ample circulation of the water.
A stainless steel box, watertight all around and provided with a temperature recording device in the centre. The outside width of the box is 45 ± 2 mm and the wall thickness is 1,5 mm (see Figure 1 as an example). The height and length of the box can be chosen to suit the dimensions of the water bath, e.g. length 600 mm, height 400 mm.
Suitable oven, thermostated in a temperature range of 20 °C to 51 °C with a minimum heating and cooling rate of 10 °C/h.
Suitable airtight plastics boxes or bags provided with a suitable temperature recording device in the centre of the sample or a stainless steel box as described in point (b) of method 1 of point 4.3.2. Once filled, the outside thickness of the box or bag shall be maximum 45 mm.
Place a quantity of fertilisers sufficient for the detonation resistance test into the boxes or bags and close them. Place the stainless steel boxes in the water bath (method 1) or the boxes or bags in the oven (method 2). Heat the water or oven to 51 °C and measure the temperature in the centre of the fertiliser. One hour after the temperature at the centre has reached 50 °C start cooling. One hour after the temperature at the centre has reached 25 °C start heating for the second cycle. In the case of two water baths or ovens, transfer the boxes or bags to the other bath or oven after each heating/cooling period.
:
O-ring
:
Cover
:
Bolt
:
Box
seamless steel tube:
Tube length: 1 000 mm at least,
Nominal external diameter: 114 mm at least,
Nominal wall thickness: 5 mm at least,
booster: the type and mass of the booster chosen shall be such as to maximise the detonation pressure applied to the sample in order to determine its susceptibility to the transmission of detonation,
temperature of the sample: 15 °C to 25 °C,
witness lead cylinders for detecting detonation: 50 mm diameter and 100 mm height,
placed at 150 mm intervals and supporting the tube horizontally.
NOTE: The test is to be carried out twice. The test is deemed conclusive if in both tests one or more of the supporting lead cylinders is crushed by less than 5 %.U.K.
The test sample is confined in a steel tube and subjected to detonation shock from an explosive booster charge. Propagation of the detonation is determined from the degree of crushing of lead cylinders on which the tube rests horizontally during the test.
Plastic explosive containing 83 % to 86 % penthrite
density: 1 500 kg/m3 to 1 600 kg/m3
detonation velocity: 7 300 m/s to 7 700 m/s
mass: (500 ± 1) g;
or any other plastic explosive with similar detonation characteristics.
Seven lengths of flexible detonating cord with non-metallic sleeve
filling mass: 11 g/m to 13 g/m
length of each cord: (400 ± 2) mm.
Compressed pellet of secondary explosive, recessed to receive detonator
explosive: hexogen/wax 95/5 or similar secondary explosive, with or without added graphite
density: 1 500 kg/m3 to 1 600 kg/m3
diameter: 19 mm to 21 mm
height: 19 mm to 23 mm
mass of the compressed pellet: maximum 10 g
central recess to receive detonator: maximal diameter 7,0 to 7,3 mm, depth about 12 mm. In case of detonators with large diameters, the diameter of the recess shall be slightly larger (e.g. 0,5 mm) than the diameter of the detonator.
Seamless steel tube as specified in ISO 65 – 1981 – Heavy Series, with nominal dimensions DN 100 (4'')
outside diameter: 113,1 mm to 115,0 mm
wall thickness: 5,0 mm to 6,5 mm
length: 1 005 ± 2 mm.
Bottom plate
material: steel of good weldable quality
dimensions: 160 mm × 160 mm
thickness: 5 mm to 6 mm.
Six lead cylinders
diameter: 50 ± 1 mm
height: 100 mm to 101 mm
materials: soft lead, at least 99,5 % purity.
Steel block
length: at least 1 000 mm
width: at least 150 mm
height: at least 150 mm (alternatively a stack of several beams can be used to achieve this height)
Mass: at least 300 kg if there is no firm base for the steel block.
Plastic or cardboard cylinder for booster charge
wall thickness: 1,5 mm to 2,5 mm
diameter: 92 mm to 96 mm
height: 64 mm to 67 mm.
Detonator (electric or non-electric) with initiation force 8 to 10
Wooden or plastic disc
diameter: 92 mm to 96 mm. Diameter to be matched to the internal diameter of the plastic or cardboard cylinder (point (h))
thickness: 20 mm.
Wooden or plastic rod of same dimensions as detonator (point (i))
Small split pins (maximum length 20 mm)
Split pins (length about 20 mm)
Depending on the availability of equipment, the explosive can be initiated in the booster charge either
by seven-point simultaneous initiation as referred to in point 4.4.4.1.1, or
by central initiation by a compressed pellet as referred to in point 4.4.4.1.2.
The booster charge prepared for use is shown in Figure 2.
The booster charge prepared for use is shown in Figure 3.
Taking the necessary safety precautions, place maximum 10 g of a secondary explosive (point (c) under point 4.4.3) in a mould with an inside diameter of 19 mm to 21 mm and compress to the correct shape and density (the ratio of diameter: height should be roughly 1:1). In the centre of the bottom of the mould there is a peg, 12 mm in height and 7,0 mm to 7,3 mm in diameter (depending on the diameter of the detonator used), which forms a cylindrical recess in the compressed cartridge for subsequent insertion of the detonator.
Place the explosive (point (a) under point 4.4.3) into the cylinder (point (h) under point 4.4.3) standing upright on a level surface, then press it down with a wooden or plastic die to give the explosive a cylindrical shape with a central recess. Insert the compressed pellet into this recess. Cover the cylindrically shaped explosive containing the compressed pellet with a wooden or plastic disc (point (j) under point 4.4.3) having a central hole 7,0 mm to 7,3 mm in diameter for insertion of a detonator. Fix the wooden or plastic disc and the cylinder together with a cross of adhesive tape. Ensure that the hole drilled in the disc and the recess in the compressed pellet are coaxial by inserting the wooden or plastic rod (point (k) under point 4.4.3).
At one end of the steel tube (point (d) under point 4.4.3), drill two diametrically opposed holes 4 mm in diameter perpendicularly through the side wall at a distance of 4 mm from the edge. Butt weld the bottom plate (point (e) under point 4.4.3) to the opposite end of the tube, completely filling the right angle between the bottom plate and the wall of the tube with weld metal around the entire circumference of the tube.
See Figures 2 and 3.
Note: Make sure that the tube is in contact with all six lead cylinders; a slight curvature of the tube surface can be compensated for by rotating the tube about its longitudinal axis; if any of the lead cylinders is too tall, tap the cylinder in question carefully with a hammer until it is the required height.U.K.
Note: Detonation can cause steel fragments to be projected with high kinetic energy, therefore, firing shall be carried out at a suitable distance from dwellings or thoroughfares.
Values for the following parameters are to be given in the test report for each of the detonation resistance tests:
the values actually measured for the outside diameter of the steel tube and for the wall thickness,
the Brinell hardness of the steel tube,
the temperature of the tube and the sample shortly before firing,
the packing density (kg/m3) of the sample in the steel tube,
the height of each lead cylinder after firing, specifying the corresponding cylinder number,
method of initiation employed for the booster charge.
If, in each firing, the crushing of at least one lead cylinder is less than 5 %, the test shall be considered conclusive and it shall be considered that the sample presented is resistant to detonation.
Booster charge with seven-point initiation
:
Steel tube
:
Wooden or plastic disc with seven holes
:
Plastic or cardboard cylinder
:
Detonating cords
:
Plastic explosive
:
Test sample
:
4 mm hole drilled to receive split pin
:
Split pin
:
Wooden or plastic rod surrounded by 4
:
Adhesive tape for securing 4 around 9
:
Steel tube
:
Wooden of plastic disc
:
Plastic or cardboard cylinder
:
Wooden of plastic rod
:
Plastic explosive
:
Compressed pellet
:
Test sample
:
4 mm hole drilled to receive split pin
:
Split pin
:
Wooden or plastic die for 5
Numbers in circles:
:
Steel tube
:
Lead cylinders
:
Steel block or stack of beams
:
Bottom plate
:
Booster charge
Numbers in squares:
Lead cylinders 1 to 6
any case where the manufacturer has not complied with the 3-month period for performing the tests required under point 4;
any test results which demonstrate non-conformity with the detonation resistance requirement referred to in point 5 under PFC 1(C)(I)(a)(i-ii)(A) in Annex I.
The manufacturer’s obligations set out in points 4.4.7 and 5 may be fulfilled by his or her authorised representative, on his or her behalf and under his or her responsibility, provided that they are specified in the mandate.
a general description of the EU fertilising product, the PFC corresponding to the claimed function of the EU fertilising product and description of the intended use,
a list of component materials used, the CMCs as referred to in Annex II to which they belong and information about their origin or manufacturing process,
the EU declarations of conformity for the component EU fertilising products of the fertilising product blend,
drawings, schemes, descriptions and explanations necessary for the understanding of the manufacturing process of the EU fertilising product,
a specimen of the label or the leaflet, or both, referred to in Article 6(7) containing the information required in accordance with Annex III,
a list of the harmonised standards referred to in Article 13, common specifications referred to in Article 14 and/or other relevant technical specifications applied. In the event of partly applied harmonised standards or common specifications, the technical documentation shall specify the parts which have been applied,
results of calculations made, including the calculations to demonstrate conformity with point 5 of Part II of Annex I, examinations carried out, etc.,
test reports,
where the EU fertilising product contains or consists of derived products within the meaning of Regulation (EC) No 1069/2009, the commercial documents or health certificates required pursuant to that Regulation, and evidence that the derived products have reached the end point in the manufacturing chain within the meaning of that Regulation,
where the EU fertilising product contains or consists of by-products within the meaning of Directive 2008/98/EC, technical and administrative evidence that the by-products comply with the criteria established by delegated act referred to in Article 42(7) of this Regulation, and with the national measures transposing Article 5(1) of Directive 2008/98/EC and, where applicable, implementing acts referred to in Article 5(2) or national measures adopted under Article 5(3) of that Directive, and
where the EU fertilising product contains total chromium (Cr) above 200 mg/kg, information about the maximum quantity and exact source of total chromium (Cr).
the name and address of the manufacturer and, if the application is lodged by the authorised representative, his or her name and address as well,
a written declaration that the same application has not been lodged with any other notified body,
the technical documentation referred to in point 2,
the samples representative of the production envisaged. The notified body may request further samples if needed for carrying out the test programme,
the supporting evidence for the adequacy of the technical design solution. This supporting evidence shall mention any documents that have been used, in particular where the relevant harmonised standards or common specifications have not been applied in full. The supporting evidence shall include, where necessary, the results of tests carried out in accordance with other relevant technical specifications by the appropriate laboratory of the manufacturer, or by another testing laboratory on his or her behalf and under his or her responsibility.
The notified body shall:
examine the technical documentation and supporting evidence to assess the adequacy of the technical design of the EU fertilising product;
verify that the sample(s) have been manufactured in conformity with the technical documentation, and identify the elements which have been designed in accordance with the applicable provisions of the relevant harmonised standards or common specifications, as well as the elements which have been designed in accordance with other relevant technical specifications;
carry out appropriate examinations and tests on the sample(s), or have them carried out, to check whether, where the manufacturer has chosen to apply the solutions in the relevant harmonised standards or common specifications, these have been applied correctly;
carry out appropriate examinations and tests on the sample(s), or have them carried out, to check whether, where the solutions in the relevant harmonised standards or common specifications have not been applied, or where relevant harmonised standards or common specifications do not exist, the solutions adopted by the manufacturer meet the corresponding requirements of this Regulation;
agree with the manufacturer on a location where the examinations and tests will be carried out.
The notified body shall draw up an evaluation report that records the activities undertaken in accordance with point 4 and their outcomes. Without prejudice to its obligations vis-à-vis the notifying authority, the notified body shall release the content of that report, in full or in part, only with the agreement of the manufacturer.
The manufacturer’s authorised representative may lodge the application referred to in point 3 and fulfil the obligations set out in points 7 and 9.2, provided that they are specified in the mandate.
Conformity to type based on internal production control is the part of a conformity assessment procedure whereby the manufacturer fulfils the obligations laid down in points 2 and 3, and ensures and declares on his or her sole responsibility that the EU fertilising products concerned are in conformity with the type described in the EU-type examination certificate and satisfy the requirements of this Regulation that apply to them.
The manufacturer shall take all measures necessary so that the manufacturing process and its monitoring ensure conformity of the manufactured EU fertilising products with the approved type described in the EU-type examination certificate and with the requirements of this Regulation that apply to them.
The manufacturer’s obligations set out in point 3 may be fulfilled by his or her authorised representative, on his or her behalf and under his or her responsibility, provided that they are specified in the mandate.
Quality assurance of the production process is the conformity assessment procedure whereby the manufacturer fulfils the obligations laid down in points 2, 4, and 7, and ensures and declares on his or her sole responsibility that the EU fertilising products concerned satisfy the requirements of this Regulation that apply to them.
a general description of the EU fertilising product, the PFC corresponding to the claimed function of the EU fertilising product and description of the intended use,
a list of component materials used, the CMCs as referred to in Annex II, to which they belong and information about their origin or manufacturing process,
the EU declarations of conformity for the component EU fertilising products of the fertilising product blend,
drawings, schemes, descriptions and explanations necessary for the understanding of the manufacturing process of the EU fertilising product, and, in relation to compost belonging to CMC 3 or digestate belonging to CMC 5, as defined in Annex II, a written description and a diagram of the production process, where each treatment, storage vessel and area is clearly identified,
a specimen of the label or the leaflet, or both, referred to in Article 6(7) containing the information required in accordance with Annex III,
a list of the harmonised standards referred to in Article 13, common specifications referred to in Article 14 and/or other relevant technical specifications applied. In the event of partly applied harmonised standards or common specifications, the technical documentation shall specify the parts which have been applied,
results of calculations made, including the calculations to demonstrate conformity with point 5 of Part II of Annex I, examinations carried out, etc.,
test reports,
where the EU fertilising product contains or consists of derived products within the meaning of Regulation (EC) No 1069/2009, the commercial documents or health certificates required pursuant to that Regulation, and evidence that the derived products have reached the end point in the manufacturing chain within the meaning of that Regulation,
where the EU fertilising product contains or consists of by-products within the meaning of Directive 2008/98/EC, technical and administrative evidence that the by-products comply with the criteria established by delegated act referred to in Article 42(7) of this Regulation, and with the national measures transposing Article 5(1) of Directive 2008/98/EC and, where applicable, implementing acts referred to in Article 5(2) or national measures adopted under Article 5(3) of that Directive, and
where the EU fertilising product contains total chromium (Cr) above 200 mg/kg, information about the maximum quantity and exact source of total chromium (Cr).
The manufacturer shall keep the technical documentation at the disposal of the relevant national authorities for 5 years after the EU fertilising product has been placed on the market.
The manufacturer shall operate an approved quality system for production, final product inspection and testing of the EU fertilising products concerned as specified in point 5, and shall be subject to surveillance as specified in point 6.
ensure that sufficient resources (people, infrastructure, equipment) are available to create and implement the quality system;
appoint a member of the organisation’s management who shall be responsible for:
ensuring that quality management processes are established, approved, implemented and maintained;
reporting to senior management of the manufacturer on the performance of the quality management and any need for improvement;
ensuring the promotion of awareness of customer needs and legal requirements throughout the manufacturer’s organisation, and for making the personnel aware of the relevance and importance of the quality management requirements to meet the legal requirements of this Regulation;
ensuring that each person whose duties affect the product quality is sufficiently trained and instructed; and
ensuring the classification of the quality management documents mentioned under point 5.1.4;
conduct an internal audit every year, or sooner than scheduled if triggered by any significant change that may affect the quality of the EU fertilising product; and
ensure that appropriate communication processes are established within and outside the organisation and that communication take place regarding the effectiveness of the quality management.
The following information shall be recorded for each batch of input materials:
date of delivery;
amount by weight (or estimation based on the volume and density);
identity of the input material supplier;
input material type;
identification of each batch and delivery location on site. A unique identification code shall be assigned throughout the production process for quality management purposes; and
in case of refusal, the reasons for the rejection of the batch and where it was sent.
Qualified staff shall carry out a visual inspection of each consignment of input materials and verify compatibility with the specifications of input materials laid down in CMC 3 and CMC 5 in Annex II.
The manufacturer shall refuse any consignment of any given input material where visual inspection raises any suspicion of:
the presence of hazardous or damageable substances for the composting or digestion process or for the quality of the final EU fertilising product, or
incompatibility with the specifications laid down in CMC 3 and CMC 5 in Annex II, in particular by presence of plastics leading to exceedence of the limit value for macroscopic impurities.
The staff shall be trained on:
potential hazardous properties that may be associated with input materials, and
features that allow hazardous properties and the presence of plastics to be recognised.
Samples shall be taken on output materials, to verify that they comply with the component material specifications for compost and digestate laid down in CMC 3 and CMC 5 in Annex II, and that the properties of the output material do not jeopardise the EU fertilising product’s compliance with the relevant requirements in Annex I.
The output material samples shall be taken on a regular basis with at least the following frequency:
Annual input(tonnes) | Samples / year |
---|---|
≤ 3 000 | 1 |
3 001 – 10 000 | 2 |
10 001 – 20 000 | 3 |
20 001 – 40 000 | 4 |
40 001 – 60 000 | 5 |
60 001 – 80 000 | 6 |
80 001 – 100 000 | 7 |
100 001 – 120 000 | 8 |
120 001 – 140 000 | 9 |
140 001 – 160 000 | 10 |
160 001 – 180 000 | 11 |
> 180 000 | 12 |
If any tested output material sample fails one or more of the applicable limits specified in the relevant sections of Annexes I and II, the person responsible for quality management referred to in point 5.1.1.1(b) shall:
clearly identify the non-conforming output materials and their storage place,
analyse the reasons of the non-conformity and take any necessary action to avoid its repetition,
record in the quality records referred to in point 5.1.4 if reprocessing takes place, or if the output material is eliminated.
a title,
a version number,
a date of issue,
the name of the person who issued it,
records about the effective control of input materials,
records about the effective control of the production process,
records about the effective control of the output materials,
records of non-conformities,
reports on all accidents and incidents that occur to the site, their known or suspected causes and actions taken,
records of the complaints expressed by third parties and how they have been addressed,
a record of the date, type and topic of training followed by the persons responsible for the quality of the product,
results of internal audit and actions taken, and
results of external audit review and actions taken.
a procedure that defines the responsibilities and requirements for planning and conducting internal audits, establishing records and reporting results shall be established and documented. A report identifying the non-conformities to the quality scheme shall be prepared and all corrective actions shall be reported. The records of the internal audit shall be annexed to the quality management documentation;
priority shall be given to non-conformities identified by external audits;
each auditor shall not audit his or her own work;
the management responsible for the area audited shall ensure that the necessary corrective actions are taken without undue delay;
internal audit realised in the frame of another quality management system can be taken into account provided that it is completed by an audit of the requirements to this quality system.
the name and address of the manufacturer and, if the application is lodged by the authorised representative, his or her name and address as well,
a written declaration that the same application has not been lodged with any other notified body,
all relevant information for the EU fertilising product category envisaged,
the documentation concerning the quality system containing all the elements set out in point 5.1,
the technical documentation referred to in point 2.
the quality system documentation,
the technical documentation referred to in point 2,
the quality records, such as inspection reports and test data, calibration data, qualification reports on the personnel concerned.
during the notified body’s first year of surveillance of the plant in question: the same frequency as the sampling frequency indicated in the table included in point 5.1.3.1(f); and
during the following years of surveillance: half the sampling frequency indicated in the table included in point 5.1.3.1(f).
The manufacturer shall, for 5 years after the EU fertilising product has been placed on the market, keep at the disposal of the national authorities:
the documentation referred to in point 5.1.6,
the information on the changes referred to in points 5.5.1 and 5.5.2, as approved,
the decisions and reports of the notified body referred to in points 5.5.3, 6.3.1 and 6.4.
The manufacturer’s obligations set out in points 3, 5.2, 5.5.1, 7 and 8 may be fulfilled by his or her authorised representative, on his or her behalf and under his or her responsibility, provided that they are specified in the mandate.
Regulation (EU) 2019/1009(21),
other Union harmonisation legislation where applicable:
Signed for and on behalf of:
(place and date of issue):
(name, function) (signature):
Council Regulation (EEC) No 315/93 of 8 February 1993 laying down Community procedures for contaminants in food (OJ L 37, 13.2.1993, p. 1).
Regulation (EC) No 396/2005 of the European Parliament and of the Council of 23 February 2005 on maximum residue levels of pesticides in or on food and feed of plant and animal origin and amending Council Directive 91/414/EEC (OJ L 70, 16.3.2005, p. 1).
Regulation (EC) No 470/2009 of the European Parliament and of the Council of 6 May 2009 laying down Community procedures for the establishment of residue limits of pharmacologically active substances in foodstuffs of animal origin, repealing Council Regulation (EEC) No 2377/90 and amending Directive 2001/82/EC of the European Parliament and of the Council and Regulation (EC) No 726/2004 of the European Parliament and of the Council (OJ L 152, 16.6.2009, p. 11).
Directive 2002/32/EC of the European Parliament and of the Council of 7 May 2002 on undesirable substances in animal feed (OJ L 140, 30.5.2002, p. 10).
The exclusion of a material from CMC 1 does not prevent it from being an eligible component material by virtue of another CMC stipulating different requirements. See, for instance, CMC 3 on compost, CMCs 4 and 5 on digestate, CMCs 8 and 9 on polymers, CMC 10 on derived products within the meaning of Regulation (EC) No 1069/2009 or CMC 11 on by-products within the meaning of Directive 2008/98/EC.
In the case of a substance recovered in the European Union, this condition is fulfilled if the substance is the same, within the meaning of point (d)(i) of Article 2(7) of Regulation (EC) No 1907/2006, as a substance registered with a dossier containing the information here indicated, and if information is available to the fertilising product manufacturer within the meaning of point (d)(ii) of Article 2(7) of Regulation (EC) No 1907/2006.
In the case of an additive recovered in the European Union, this condition is fulfilled if the additive is the same, within the meaning of point (d)(i) of Article 2(7) of Regulation (EC) No 1907/2006, as a substance registered with a dossier containing the information here indicated, and if information is available to the fertilising product manufacturer within the meaning of point (d)(ii) of Article 2(7) of Regulation (EC) No 1907/2006.
Sum of naphthalene, acenaphthylene, acenaphthene, fluorene, phenanthrene, anthracene, fluoranthene, pyrene, benzo[a]anthracene, chrysene, benzo[b]fluoranthene, benzo[k]fluoranthene, benzo[a]pyrene, indeno[1,2,3-cd]pyrene, dibenzo[a,h]anthracene and benzo[ghi]perylene.
Sum of naphthalene, acenaphthylene, acenaphthene, fluorene, phenanthrene, anthracene, fluoranthene, pyrene, benzo[a]anthracene, chrysene, benzo[b]fluoranthene, benzo[k]fluoranthene, benzo[a]pyrene, indeno[1,2,3-cd]pyrene, dibenzo[a,h]anthracene and benzo[ghi]perylene.
In the case of an additive recovered in the European Union, this condition is fulfilled if the additive is the same, within the meaning of point (d)(i) of Article 2(7) of Regulation (EC) No 1907/2006, as a substance registered with a dossier containing the information here indicated, and if information is available to the fertilising product manufacturer within the meaning of point (d)(ii) of Article 2(7) of Regulation (EC) No 1907/2006.
Commission Regulation (EU) No 142/2011 of 25 February 2011 implementing Regulation (EC) No 1069/2009 of the European Parliament and of the Council laying down health rules as regards animal by-products and derived products not intended for human consumption and implementing Council Directive 97/78/EC as regards certain samples and items exempt from veterinary checks at the border under that Directive (OJ L 54, 26.2.2011, p. 1).
In the case of an additive recovered in the European Union, this condition is fulfilled if the additive is the same, within the meaning of point (d)(i) of Article 2(7) of Regulation (EC) No 1907/2006, as a substance registered with a dossier containing the information here indicated, and if information is available to the fertilising product manufacturer within the meaning of point (d)(ii) of Article 2(7) of Regulation (EC) No 1907/2006.
Sum of naphthalene, acenaphthylene, acenaphthene, fluorene, phenanthrene, anthracene, fluoranthene, pyrene, benzo[a]anthracene, chrysene, benzo[b]fluoranthene, benzo[k]fluoranthene, benzo[a]pyrene, indeno[1,2,3-cd]pyrene, dibenzo[a,h]anthracene and benzo[ghi]perylene.
Sum of naphthalene, acenaphthylene, acenaphthene, fluorene, phenanthrene, anthracene, fluoranthene, pyrene, benzo[a]anthracene, chrysene, benzo[b]fluoranthene, benzo[k]fluoranthene, benzo[a]pyrene, indeno[1,2,3-cd]pyrene, dibenzo[a,h]anthracene and benzo[ghi]perylene
In the case of a substance recovered in the European Union, this condition is fulfilled if the substance is the same, within the meaning of point (d)(i) of Article 2(7) of Regulation (EC) No 1907/2006, as a substance registered with a dossier containing the information here indicated, and if information is available to the fertilising product manufacturer within the meaning of point (d)(ii) of Article 2(7) of Regulation (EC) No 1907/2006.
The table will be established by delegated acts referred to in Article 42(5).
The exclusion of a material from CMC 11 does not prevent it from being an eligible component material by virtue of another CMC stipulating different requirements. See, for instance, CMC 3 on compost, CMCs 4 and 5 on digestate, CMCs 8 and 9 on polymers or CMC 10 on derived products within the meaning of Regulation (EC) No 1069/2009.
The diameter of the disc must always correspond to the inside diameter of the cylinder.
NB: When the six peripheral lengths of cord are taut after assembly, the central cord must remain slightly slack.
It is optional for the manufacturer to assign a number to the EU declaration of conformity.
Regulation (EU) 2019/1009 of the European parliament and the Council of 5 June 2019 laying down rules on the making available on the market of EU fertilising products and amending Regulations (EC) No 1069/2009 and (EC) No 1107/2009 and repealing Regulation (EC) No 2003/2003 (OJ L 170, 25.6.2019, p. 1).
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