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Document 02003R2003-20210620

Consolidated text: Regulation (EC) No 2003/2003 of the European Parliament and of the Council of 13 October 2003 relating to fertilisers (Text with EEA relevance)Text with EEA relevance

ELI: http://data.europa.eu/eli/reg/2003/2003/2021-06-20

02003R2003 — EN — 20.06.2021 — 019.001


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REGULATION (EC) No 2003/2003 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL

of 13 October 2003

relating to fertilisers

(Text with EEA relevance)

(OJ L 304 21.11.2003, p. 1)

Amended by:

 

 

Official Journal

  No

page

date

►M1

COUNCIL REGULATION (EC) No 885/2004 of 26 April 2004

  L 168

1

1.5.2004

►M2

COMMISSION REGULATION (EC) No 2076/2004 of 3 December 2004

  L 359

25

4.12.2004

►M3

COUNCIL REGULATION (EC) No 1791/2006 of 20 November 2006

  L 363

1

20.12.2006

►M4

COMMISSION REGULATION (EC) No 162/2007 of 19 February 2007

  L 51

7

20.2.2007

►M5

COMMISSION REGULATION (EC) No 1107/2008 of 7 November 2008

  L 299

13

8.11.2008

►M6

REGULATION (EC) No 219/2009 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 11 March 2009

  L 87

109

31.3.2009

►M7

COMMISSION REGULATION (EC) No 1020/2009 of 28 October 2009

  L 282

7

29.10.2009

►M8

COMMISSION REGULATION (EU) No 137/2011 of 16 February 2011

  L 43

1

17.2.2011

►M9

COMMISSION REGULATION (EU) No 223/2012 of 14 March 2012

  L 75

12

15.3.2012

►M10

COMMISSION REGULATION (EU) No 463/2013 of 17 May 2013

  L 134

1

18.5.2013

►M11

COMMISSION REGULATION (EU) No 1257/2014 of 24 November 2014

  L 337

53

25.11.2014

►M12

COMMISSION REGULATION (EU) 2016/1618 of 8 September 2016

  L 242

24

9.9.2016

►M13

COMMISSION REGULATION (EU) 2019/1102 of 27 June 2019

  L 175

25

28.6.2019

►M14

COMMISSION REGULATION (EU) 2020/1666 of 10 November 2020

  L 377

3

11.11.2020

►M15

COMMISSION REGULATION (EU) 2021/862 of 28 May 2021

  L 190

74

31.5.2021




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REGULATION (EC) No 2003/2003 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL

of 13 October 2003

relating to fertilisers

(Text with EEA relevance)



TITLE I

GENERAL PROVISIONS



CHAPTER I

Scope and definitions

Article 1

Scope

This Regulation shall apply to products which are placed on the market as fertilisers designated ‘EC fertiliser’.

Article 2

Definitions

For the purposes of this Regulation the following definitions shall apply:

(a) 

‘Fertiliser’ means material, the main function of which is to provide nutrients for plants.

(b) 

‘Primary nutrient’ means the elements nitrogen, phosphorus and potassium only.

(c) 

‘Secondary nutrient’ means the elements calcium, magnesium, sodium and sulphur.

(d) 

‘Micro-nutrients’ means the elements boron, cobalt, copper, iron, manganese, molybdenum and zinc, essential for plant growth in quantities that are small compared with those of primary and secondary nutrients.

(e) 

‘Inorganic fertiliser’ means a fertiliser in which the declared nutrients are in the form of minerals obtained by extraction or by physical and/or chemical industrial processes. Calcium cyanamide, urea and its condensation and association products, and fertilisers containing chelated or complexed micro-nutrients may, by convention, be classed as inorganic fertilisers.

(f) 

‘Chelated micro-nutrient’ means a micro-nutrient that is held by one of the organic molecules listed in section E.3.1 of Annex I.

(g) 

‘Complexed micro-nutrient’ means a micro-nutrient that is held by one of the molecules listed in section E.3.2 of Annex I.

(h) 

‘Type of fertilisers’ means fertilisers with a common type designation as indicated in Annex I.

(i) 

‘Straight fertiliser’ means a nitrogenous, phosphatic or potassic fertiliser having a declarable content of only one of the primary nutrients.

(j) 

‘Compound fertiliser’ means a fertiliser having a declarable content of at least two of the primary nutrients and obtained chemically or by blending or by a combination of both.

(k) 

‘Complex fertiliser’ means a compound fertiliser, obtained by chemical reaction, by solution, or in its solid state by granulation, having a declarable content of at least two of the primary nutrients. In its solid state each granule contains all the nutrients in their declared composition.

(l) 

‘Blended fertiliser’ means a fertiliser obtained by dry mixing of several fertilisers, with no chemical reaction.

(m) 

‘Foliar fertiliser’ means a fertiliser suitable for application to and nutrient uptake by the foliage of a crop.

(n) 

‘Fluid fertiliser’ means a fertiliser in suspension or solution.

(o) 

‘Solution fertiliser’ means a fluid fertiliser that is free of solid particles.

(p) 

‘Suspension fertiliser’ means a two-phase fertiliser in which solid particles are maintained in suspension in the liquid phase.

(q) 

‘Declaration’ means a statement of the amount of nutrients, including their forms and solubility, guaranteed within specified tolerances.

(r) 

‘Declared content’ means the content of an element, or its oxide, which, in accordance with Community legislation, is given on a label of an EC fertiliser or on the relevant accompanying document.

(s) 

‘Tolerance’ means the permitted deviation of the measured value of a nutrient content from its declared value.

(t) 

‘European Standard’ means CEN (European Committee for Standardisation) standards, which have been officially recognised by the Community and whose reference has been published in the Official Journal of the European Communities.

(u) 

‘Package’ means a sealable receptacle used to hold, protect, handle, and distribute fertilisers and holding not more than 1 000  kg.

(v) 

‘Bulk’ means a fertiliser not packaged as prescribed by this Regulation.

(w) 

‘Placing on the market’ means the supply of fertiliser, whether in return for payment or free of charge, or storage for the purpose of supply. Importation of a fertiliser into the customs territory of the European Community shall be deemed to constitute placing on the market.

(x) 

‘Manufacturer’ means the natural or legal person responsible for placing a fertiliser on the market; in particular a producer, an importer, a packager working for its own account, or any person changing the characteristics of a fertiliser, shall be deemed to be a manufacturer. However, a distributor who does not change the characteristics of the fertiliser shall not be deemed to be a manufacturer.



CHAPTER II

Placing on the market

Article 3

EC Fertiliser

A fertiliser belonging to a type of fertilisers listed in Annex I and complying with the conditions laid down in this Regulation, may be designated ‘EC fertiliser’.

The designation ‘EC fertiliser’ shall not be used for a fertiliser which does not comply with this Regulation.

Article 4

Establishment within the Community

The manufacturer shall be established within the Community and shall be responsible for the conformity of the ‘EC fertiliser’ with the provisions of this Regulation.

Article 5

Free circulation

1.  
Without prejudice to Article 15 and other Community legislation, Member States shall not, on grounds of composition, identification, labelling or packaging, and other provisions contained in this Regulation, prohibit, restrict or hinder the placing on the market of fertilisers marked ‘EC fertiliser’ which comply with the provisions of this Regulation.
2.  
Fertilisers that are marked ‘EC fertiliser’ in accordance with this Regulation shall circulate freely within the Community.

Article 6

Compulsory statements

1.  

In order to satisfy the requirements of Article 9, Member States may prescribe that the indication of the nitrogen, phosphorus and potassium contents of fertilisers placed on their market is to be expressed in the following way:

(a) 

nitrogen solely in the elemental form (N); and either

(b) 

phosphorus and potassium solely in the elemental form (P, K); or

(c) 

phosphorus and potassium solely in the oxide form (P2O5, K2O); or

(d) 

phosphorus and potassium in both elemental and oxide forms simultaneously.

Where the option is chosen to prescribe that the phosphorus and potassium contents be expressed in the form of elements, all references in the Annexes to the oxide form shall be read as being in elemental form and the numerical values shall be converted using the following factors:

(a) 

phosphorus (P) = phosphorus pentoxide (P2O5) × 0,436;

(b) 

potassium (K) = potassium oxide (K2O) × 0,830.

2.  

Member States may prescribe that the calcium, magnesium, sodium and sulphur contents of secondary nutrient fertilisers and, where the conditions of Article 17 are fulfilled, of primary nutrient fertilisers placed on their markets are to be expressed:

(a) 

in the oxide form (CaO, MgO, Na2O, SO3); or

(b) 

in the elemental form (Ca, Mg, Na, S); or

(c) 

in both of these forms.

To convert the calcium oxide, magnesium oxide, sodium oxide and sulphur trioxide contents into calcium, magnesium, sodium and sulphur contents, the following factors shall be used:

(a) 

calcium (Ca) = calcium oxide (CaO) × 0,715;

(b) 

magnesium (Mg) = magnesium oxide (MgO) × 0,603;

(c) 

sodium (Na) = sodium oxide (Na2O) × 0,742;

(d) 

sulphur (S) = sulphur trioxide (SO3) × 0,400.

For the calculated oxide or elemental content, the figure declared shall be rounded to the nearest decimal place.

3.  
Member States shall not prevent the placing on the market of an ‘EC fertiliser’ labelled in both of the forms mentioned in paragraphs 1 and 2.
4.  

The content of one or more of the micro-nutrients boron, cobalt, copper, iron, manganese, molybdenum, or zinc in the EC fertilisers belonging to the types of fertilisers listed in sections A, B, C and D of Annex I shall be declared where the following conditions are fulfilled:

(a) 

the micro-nutrients are added at least in the minimum quantities specified in section E.2.2 and E.2.3 of Annex I;

(b) 

the EC fertiliser continues to satisfy the requirements of sections A, B, C and D of Annex I.

5.  
Where the micro-nutrients are the normal ingredients of the raw materials intended to supply primary (N, P, K) and secondary (Ca, Mg, Na, S) nutrients, they may be declared, provided that these micro-nutrients are present at least in the minimum quantities specified in sections E.2.2 and E.2.3 of Annex I.
6.  

The micro-nutrient content shall be declared in the following manner:

(a) 

for fertilisers belonging to the types of fertilisers listed in section E.1 of Annex I, in accordance with the requirements set out in column 6 of that section;

(b) 

for mixtures of fertilisers referred to in (a) containing at least two different micro-nutrients and meeting the requirements of section E.2.1 of Annex I and for fertilisers belonging to the types of fertilisers listed in sections A, B, C and D of Annex I, by indicating:

(i) 

the total content, expressed as a percentage of the fertiliser by mass,

(ii) 

the water-soluble content, expressed as a percentage of the fertiliser by mass, where the soluble content is at least half of the total content.

Where a micro-nutrient is totally water-soluble, only the water-soluble content shall be declared.

Where a micro-nutrient is chemically linked with an organic molecule, the content of the micro-nutrient present in the fertiliser shall be declared immediately following the water-soluble content as a percentage by mass of the product, followed by one of the terms ‘chelated by’, or ‘complexed by’, with the name of the organic molecule as set out in section E.3 of Annex I. The name of the organic molecule may be replaced by its initials.

Article 7

Identification

1.  
The manufacturer shall provide EC fertilisers with the identification markings listed in Article 9.
2.  
If the fertilisers are packed, these identification markings shall appear on the packages or labels attached. If the fertilisers are in bulk, these markings shall appear on the accompanying documents.

Article 8

Traceability

Without prejudice to Article 26(3), the manufacturer shall, to ensure traceability of EC fertilisers, maintain records of the origin of the fertilisers. These records shall be available for inspection by Member States for as long as the fertiliser is being supplied to the market, and for a further period of 2 years after the manufacturer stopped supplying it.

Article 9

Markings

1.  

Without prejudice to other Community rules, the packages, labels and accompanying documents, referred to in Article 7 shall bear the following markings:

(a) 

Compulsory identification

— 
The words ‘EC FERTILISER’ in capital letters;
— 
Where it exists, the designation of the type of fertiliser as set out in Annex 1;
— 
For blended fertilisers, the marking ‘blend’ after the designation of the type;
— 
The additional markings specified in Article 19, 21 or 23;
— 
Nutrients shall be indicated both in words and by the appropriate chemical symbols, e.g. nitrogen (N), phosphorus (P), phosphorus pentoxide (P2O5), potassium (K), potassium oxide (K2O), calcium (Ca), calcium oxide (CaO), magnesium (Mg), magnesium oxide (MgO), sodium (Na), sodium oxide (Na2O), sulphur (S), sulphur trioxide (SO3), boron (B), copper (Cu), cobalt (Co), iron (Fe), manganese (Mn), molybdenum (Mo), zinc (Zn);
— 
If the fertiliser contains micro-nutrients of which all or part are chemically linked with an organic molecule, the name of the micro-nutrient shall be followed by one of the following qualifiers:
(i) 

‘chelated by …’ (name of chelating agent or its abbreviation as set out in section E.3.1 of Annex I);

(ii) 

‘complexed by …’ (name of complexing agent as set out in section E.3.2 of Annex I);

— 
Micro-nutrients contained in the fertiliser, listed in the alphabetical order of their chemical symbols: B, Co, Cu, Fe, Mn, Mo, Zn;
— 
For products listed in sections E.1 and E.2 of Annex I, the specific directions for use;
— 
Quantities of fluid fertilisers, expressed by mass. The expression of quantities of fluid fertilisers by volume or in terms of mass versus volume (kilograms per hectolitre or grams per litre) shall be optional;
— 
Net or gross mass and, optionally, volume for fluid fertilisers. If the gross mass is given, the tare mass must be indicated beside it;
— 
The name or trade name and the address of the manufacturer.
(b) 

Optional identification

— 
As listed in Annex I;
— 
The directions for the storage and handling, and for fertilisers not listed in Annex I, sections E.1 and E.2, the specific directions for the use of the fertiliser;
— 
Indications of the dose rates and conditions of use suitable for the soil and crop conditions under which the fertiliser is used;
— 
The mark of the manufacturer and the trade description of the product.

The indications referred to in (b) must not conflict with those referred to in (a) and must be clearly separated from them.

2.  
All the markings referred to in paragraph 1 must be clearly separated from any other information on the packages, labels and accompanying documents.
3.  
Fluid fertilisers may be placed on the market only if the manufacturer provides suitable additional instructions covering, in particular, storage temperature and prevention of accidents during storage.
4.  
Detailed rules for the application of this Article shall be adopted under the procedure referred to in Article 32(2).

Article 10

Labelling

1.  
The labels or markings printed on the package and giving the particulars mentioned under Article 9 must be placed in a conspicuous position. Labels must be attached to the package or to whatever system is used for closing it. If this system consists of a seal, that seal must bear the name or mark of the packager.
2.  
The markings referred to in paragraph 1 must be and must remain indelible and clearly legible.
3.  
In the cases of fertilisers in bulk referred to in the second sentence of Article 7(2) a copy of the documents containing the identification markings must accompany the goods and be accessible for inspection purposes.

Article 11

Languages

The label, the markings on the package and the accompanying documents must appear in at least the national language or languages of the Member State in which the EC fertiliser is marketed.

Article 12

Packaging

In the case of packaged EC fertilisers, the package must be closed in such a way or by such a device that, when it is opened, the fastening, fastening seal or the package itself is irreparably damaged. Valve sacks may be used.

Article 13

Tolerances

1.  
The nutrient content of EC fertilisers shall comply with the tolerances established in Annex II, which are intended to allow for deviations in manufacture, sampling and analysis.
2.  
The manufacturer shall not take systematic advantage of the tolerances given in Annex II.
3.  
No tolerances are allowed in respect of the minimum and maximum contents specified in Annex I.

Article 14

Fertiliser requirements

A type of fertiliser may only be included in Annex I if:

(a) 

it provides nutrients in an effective manner;

(b) 

relevant sampling, analysis, and if required, test methods are being provided;

(c) 

under normal conditions of use it does not adversely affect human, animal, or plant health, or the environment.

Article 15

Safeguard clause

1.  
Where a Member State has justifiable grounds for believing that a specific EC fertiliser, although satisfying the requirements of this Regulation, constitutes a risk to safety or health of humans, animals or plants or a risk to the environment, it may temporarily prohibit the placing on the market of that fertiliser in its territory or make it subject to special conditions. It shall immediately inform the other Member States and the Commission thereof, giving the reasons for its decision.
2.  
The Commission shall adopt a decision on the matter within 90 days from the receipt of the information in accordance with the procedure referred to in Article 32(2).
3.  
The provisions of this Regulation shall not preclude the taking of measures by the Commission or by a Member State which are justified on grounds of public security to prohibit, restrict or hinder the placing on the market of EC fertilisers.



TITLE II

PROVISIONS FOR SPECIFIC TYPES OF FERTILISERS



CHAPTER I

Inorganic primary nutrient fertilisers

Article 16

Scope

This chapter shall apply to inorganic primary nutrient fertilisers, solid or fluid, straight or compound, including those containing secondary nutrients and/or micro-nutrients, with the minimum nutrient content established in sections A, B, C, E.2.2 or E.2.3 of Annex I.

Article 17

Declaration of secondary nutrients in primary nutrient fertilisers

Calcium, magnesium, sodium and sulphur content may be declared as secondary nutrient content of EC fertilisers belonging to the types of fertiliser listed in sections A, B and C of Annex I, provided that these elements are present in at least the following minimum quantities:

(a) 

2 % calcium oxide (CaO), i.e. 1,4 % Ca;

(b) 

2 % of magnesium oxide (MgO), i.e. 1,2 % Mg;

(c) 

3 % of sodium oxide (Na2O), i.e. 2,2 % Na;

(d) 

5 % of sulphur trioxide (SO3), i.e. 2 % S.

In such a case, the additional marking specified in Article 19(2)(ii) shall be added to the type designation.

Article 18

Calcium, magnesium, sodium and sulphur

1.  

The declaration of the magnesium, sodium and sulphur content of the fertilisers listed in sections A, B, and C of Annex I shall be expressed in one of the following ways:

(a) 

the total content expressed as a percentage of the fertiliser by mass;

(b) 

the total content and the content soluble in water, expressed as a percentage of the fertiliser by mass where the soluble content is at least a quarter of the total content;

(c) 

where an element is totally soluble in water, only the content soluble in water shall be declared as a percentage of the mass.

2.  
Unless otherwise stated in Annex I, a declaration of the calcium content shall only be made if it is soluble in water and shall be expressed as a percentage of the fertiliser by mass.

Article 19

Identification

1.  
In addition to the compulsory identification markings referred to in Article 9(1)(a), the markings set out in paragraphs 2, 3, 4, 5 and 6 of this Article shall be stated.
2.  

The following shall be stated after the type designation of compound fertilisers:

(i) 

The chemical symbols of the declared secondary nutrients, between brackets and after the symbols of the primary nutrients.

(ii) 

Numbers indicating the primary nutrient content. The declared secondary nutrient content shall be indicated between brackets after the primary nutrient content.

3.  
The fertiliser type designation shall only be followed by figures indicating primary and secondary nutrient content.
4.  
Where micro-nutrients are declared, the words ‘with micro-nutrients’ or the word ‘with’ followed by the name or names and chemical symbols of the micro-nutrients present shall be given.
5.  
The declared content of primary nutrients and secondary nutrients shall be given as a percentage by mass, as whole numbers or, where necessary, where an appropriate method of analysis exists, to one decimal place.

In fertilisers containing more than one declared nutrient, the order shall be for primary nutrients: N, P2O5 and/or P, K2O and/or K, and for secondary nutrients: CaO and/or Ca, MgO and/or Mg, Na2O and/or Na, SO3 and/or S.

The declared content of micro-nutrients shall give the name and symbol of each micro-nutrient, indicating the percentage by mass as specified in sections E.2.2 and E.2.3 of Annex I and according to solubility.

6.  
The forms and solubility of the nutrients shall also be expressed as a percentage by mass of fertiliser, except where Annex I explicitly provides that this content shall be otherwise expressed.

The number of decimal places shall be one, except for micro-nutrients where it shall be as specified in sections E.2.2 and E.2.3 of Annex I.



CHAPTER II

Inorganic secondary nutrient fertilisers

Article 20

Scope

This chapter shall apply to inorganic secondary nutrient fertilisers, solid or fluid, including those containing micro-nutrients, with the minimum nutrient content established in sections D, E.2.2, and E.2.3 of Annex I.

Article 21

Identification

1.  
In addition to the compulsory identification markings referred to in Article 9(1)(a), the markings set out in paragraphs 2, 3, 4 and 5 of this Article shall be stated.
2.  
Where micro-nutrients are declared, the words ‘with micro-nutrients’ or the word ‘with’, followed by the name or names and chemical symbols of the micro-nutrients present, shall be given.
3.  
The declared content of secondary nutrients shall be given as a percentage by mass, as whole numbers or, where necessary, where an appropriate method of analysis exists, to one decimal place.

Where more than one secondary nutrient is present, the order shall be:

CaO and/or Ca, MgO and/or Mg, Na2O and/or Na, SO3 and/or S.

The declared content of micro-nutrients shall give the name and symbol of each micro-nutrient, indicating the percentage by mass as specified in sections E.2.2 and E.2.3 of Annex I and according to solubility.

4.  
The forms and solubility of the nutrients shall also be expressed as a percentage by mass of fertiliser, except where Annex I explicitly provides that this content shall be otherwise expressed.

The number of decimal places shall be one, except for micro-nutrients where it shall be as specified in sections E.2.2 and E.2.3 of Annex I.

5.  
Unless otherwise stated in Annex I, a declaration of the calcium content shall only be made if it is soluble in water and shall be expressed as a percentage of the fertiliser by mass.



CHAPTER III

Inorganic micro-nutrient fertilisers

Article 22

Scope

This chapter shall apply to inorganic micro-nutrient fertilisers, solid or fluid, with the minimum nutrient content established in sections E.1 and E.2.1 of Annex I.

Article 23

Identification

1.  
In addition to the compulsory identification markings referred to in Article 9(1)(a) the markings set out in paragraphs 2, 3, 4 and 5 of this Article shall be stated.
2.  
Where the fertiliser contains more than one micro-nutrient, the type designation ‘mixture of micro-nutrients’ followed by the names of the micro-nutrients present and their chemical symbols, shall be given.
3.  
For fertilisers containing only one micro-nutrient (section E.1 of Annex I), the declared micro-nutrient content shall be given as a percentage by mass, in whole numbers or, where necessary, to one decimal place.
4.  
The forms and solubility of micro-nutrients shall be expressed as a percentage by mass of fertiliser, except where Annex I explicitly provides that this content shall be otherwise expressed.

The number of decimal places for micro-nutrients shall be as specified in section E.2.1 of Annex I.

5.  

Below the compulsory or optional declarations the following shall be entered on the label and accompanying documents with regard to the products appearing in sections E.1 and E.2.1 of Annex I:

‘To be used only where there is a recognised need. Do not exceed the appropriate dose rates.’

Article 24

Packaging

EC fertilisers covered by the provisions of this chapter shall be packaged.



CHAPTER IV

Ammonium nitrate fertilisers of high nitrogen content

Article 25

Scope

For the purpose of this chapter, ammonium nitrate fertilisers of high nitrogen content, straight or compound, are ammonium nitrate based products manufactured for use as fertilisers and containing more than 28 % by mass of nitrogen in relation to ammonium nitrate.

This type of fertiliser may contain inorganic or inert substances.

The substances used in the manufacturing of this type of fertiliser must not increase its sensitivity to heat or its tendency to detonate.

Article 26

Safety measures and controls

1.  
The manufacturer shall ensure that straight ammonium nitrate fertilisers of high nitrogen content comply with the provisions of section 1 of Annex III.
2.  
The checking, analysis and testing for official controls of straight ammonium nitrate fertilisers of high nitrogen content provided for by this chapter shall be carried out in accordance with the methods described in section 3 of Annex III.
3.  
To ensure the traceability of ammonium nitrate EC fertilisers of high nitrogen content placed on the market, the manufacturer shall maintain records of the names and addresses of the sites, and of the operators of the sites, at which the fertiliser and its principal components were produced. These records shall be available for inspection by Member States for as long as the fertiliser is being supplied to the market, and for a further period of 2 years after the manufacturer stopped supplying it.

Article 27

Test of resistance to detonation

Without prejudice to the measures referred to in Article 26, the manufacturer shall ensure that each type of EC high nitrogen content ammonium nitrate fertiliser placed on the market has passed the test of resistance to detonation described in sections 2, 3 (method 1, point 3) and 4 of Annex III of this Regulation. This test shall be carried out by one of the approved laboratories referred to in Article 30(1) or 33(1). Manufacturers shall submit the results of the test to the competent authority of the Member State concerned at least 5 days before placing the fertiliser on the market, or at least 5 days before the arrival of the fertiliser at the borders of the European Community in the case of imports. Thereafter, the manufacturer shall continue to guarantee that all supplies of the fertiliser placed on the market are capable of passing the abovementioned test.

Article 28

Packaging

Ammonium nitrate fertilisers of high nitrogen content shall be made available to the final user only in packaged form.



TITLE III

CONFORMITY ASSESSMENT OF FERTILISERS

Article 29

Control measures

1.  
Member States may subject fertilisers marked ‘EC fertiliser’ to official control measures for the purpose of verifying that they comply with this Regulation.

Member States may charge fees not exceeding the cost of tests needed for such control measures, but this shall not oblige manufacturers to repeat tests or to pay for repeated tests where the first test was made by a laboratory which fulfilled the conditions of Article 30 and where the test showed compliance of the fertiliser in question.

2.  
Member States shall ensure that sampling and analysis for official controls of EC fertilisers belonging to types of fertilisers listed in Annex I are carried out in accordance with the methods described in Annex III and IV.
3.  
Compliance with this Regulation in respect of conformity to types of fertiliser and compliance with the declared nutrient content and/or the declared content expressed as forms and solubilities of such nutrients may be verified at official inspections only by means of sampling and analysis methods established in accordance with Annex III and IV and taking into account the tolerances specified in Annex II.

▼M6

4.  
The Commission shall adapt and modernise the measuring, sampling and analysis methods and shall, wherever possible, use European Standards. Those measures, designed to amend non-essential elements of this Regulation, shall be adopted in accordance with the regulatory procedure with scrutiny referred to in Article 32(3). The same procedure shall apply to the adoption of implementing rules needed to specify the control measures provided for in this Article and in Articles 8, 26 and 27. Such rules shall in particular address the question of the frequency with which tests need to be repeated, as well as measures that are designed to ensure that the fertiliser put on the market is identical with the fertiliser tested.

▼B

Article 30

Laboratories

1.  
Member States shall notify to the Commission the list of those approved laboratories on their territories that are competent to provide the necessary services for checking compliance of EC fertilisers with the requirements of this Regulation. Such laboratories must meet the standards mentioned in section B of Annex V. Such notification shall be made by 11 June 2004 and on the occasion of each subsequent modification.
2.  
The Commission shall publish the list of approved laboratories in the Official Journal of the European Union.
3.  
Where a Member State has justifiable grounds for believing that an approved laboratory does not meet the standards referred to in paragraph 1, it shall raise this matter in the committee referred to in Article 32. If the committee agrees that the laboratory does not meet the standards, the Commission shall remove the name from the list referred to in paragraph 2.
4.  
The Commission shall adopt a decision on the matter within 90 days from the receipt of the information in accordance with the procedure referred to in Article 32(2).
5.  
The Commission shall publish the amended list in the Official Journal of the European Union.



TITLE IV

FINAL PROVISIONS



CHAPTER I

Adaptation of the Annexes

Article 31

New EC fertilisers

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1.  
The Commission shall adapt Annex I to include new types of fertilisers.

▼B

2.  
A manufacturer or its representative which wishes to propose a new type of fertiliser for inclusion in Annex I and is required to compile a technical file for that purpose shall do so by taking into account the technical documents referred to in section A of Annex V.

▼M6

3.  
The Commission shall adapt the Annexes to take account of technical progress.

▼M6

4.  
The measures referred to in paragraphs 1 and 3, designed to amend non-essential elements of this Regulation, shall be adopted in accordance with the regulatory procedure with scrutiny referred to in Article 32(3).

▼M6

Article 32

Committee procedure

1.  
The Commission shall be assisted by a Committee.
2.  
Where reference is made to this paragraph, Articles 5 and 7 of Decision 1999/468/EC shall apply, having regard to the provisions of Article 8 thereof.

The period laid down in Article 5(6) of Decision 1999/468/EC shall be set at three months.

3.  
Where reference is made to this paragraph, Article 5a(1) to (4) and Article 7 of Decision 1999/468/EC shall apply, having regard to the provisions of Article 8 thereof.

▼B



CHAPTER II

Transitional provisions

Article 33

Competent laboratories

1.  
Without prejudice to the provisions of Article 30(1), Member States may for a transitional period until 11 December 2007 continue to apply their national provisions for authorising competent laboratories to provide the necessary services for checking compliance of EC fertilisers with the requirements of this Regulation.
2.  
Member States shall notify the list of these laboratories to the Commission, giving details of their authorisation scheme. Such notification shall be made by 11 June 2004 and on the occasion of each subsequent modification.

Article 34

Packaging and labelling

Notwithstanding Article 35(1), EC fertiliser markings, packagings, labels and accompanying documents provided for by earlier Directives may continue to be used until 11 June 2005.



CHAPTER III

Final provisions

Article 35

Repealed Directives

1.  
Directives 76/116/EEC, 77/535/EEC, 80/876/EEC and 87/94/EEC are hereby repealed.
2.  
References to the Directives repealed shall be construed as references to this Regulation. In particular, derogations from Article 7 of Directive 76/116/EEC that were granted by the Commission under Article 95(6) of the Treaty shall be construed as derogations from Article 5 of the present Regulation and shall continue to produce their effects notwithstanding the entry into force of this Regulation. Pending the adoption of penalties under Article 36, Member States may continue to apply penalties for infringements of national rules implementing the Directives mentioned in paragraph 1.

Article 36

Penalties

The Member States shall lay down the rules on penalties applicable to infringements of the provisions of this Regulation and shall take all measures necessary to ensure that they are implemented. The penalties provided for must be effective, proportionate and dissuasive.

Article 37

National provisions

The Member States shall notify the Commission by 11 June 2005 of any national provisions adopted pursuant to Articles 6(1), 6(2), 29(1) and 36 of this Regulation, and shall notify it without delay of any subsequent amendment affecting them.

Article 38

Entry into force

This Regulation shall enter into force on the twentieth day after its publication in the Official Journal of the European Union with the exception of Articles 8 and 26(3), which shall enter into force 11 June 2005.

This Regulation shall be binding in its entirety and directly applicable in all Member States.




TABLE OF CONTENTS

ANNEX I — List of types of EC fertilisers

A.

Inorganic straight primary nutrient fertilisers

A.1.

Nitrogenous fertilisers

A.2.

Phosphatic fertilisers

A.3.

Potassic fertilisers

B.

Inorganic compound primary nutrient fertilisers

B.1.

NPK fertilisers

B.2.

NP fertilisers

B.3.

NK fertilisers

B.4.

PK fertilisers

C.

Inorganic fluid fertilisers

C.1.

Straight fluid fertilisers

C.2.

Compound fluid fertilisers

D.

Inorganic secondary nutrient fertilisers

E.

Inorganic micro-nutrient fertilisers

E.1.

Fertilisers containing only one micro-nutrient

E.1.1.

Boron

E.1.2.

Cobalt

E.1.3.

Copper

E.1.4

Iron

E.1.5.

Manganese

E.1.6.

Molybdenum

E.1.7.

Zinc

E.2.

Minimum micro-nutrient content, percentage weight of fertiliser

E.3.

List of authorised organic chelating and complexing agents for micro-nutrients

F.

Nitrification and urease inhibitors

G.

Liming materials

ANNEX II — Tolerances

1.

Inorganic straight primary nutrient fertilisers — absolute value in percentage by mass expressed as N, P2O5, K2O, MgO, CL

2.

Inorganic compound primary nutrient fertilisers

3.

Secondary nutrients in fertilisers

4.

Micro-nutrients in fertilisers

5.

Liming materials

ANNEX III — Technical provisions for Ammonium Nitrate Fertilisers of High Nitrogen Content

1.

Characteristics of and limits for straight ammonium nitrate fertilisers of high nitrogen content

2.

Description of the test of resistance to detonation concerning ammonium nitrate fertilisers of high nitrogen content

3.

Methods of checking compliance with the limits specified in annexes III-1 and III-2

4.

Determination of resistance to detonation

ANNEX IV — Methods of Sampling and Analysis

A.

Method of sampling for the control of fertilisers

1.

Purpose and scope

2.

Sampling officers

3.

Definitions

4.

Apparatus

5.

Quantitative requirements

6.

Instructions for taking, preparing and Packaging the samples

7.

Packaging of final samples

8.

Sampling record

9.

Destination of samples

B.

Methods for the analysis of fertilisers

General observations

General provisions relating to method of analysing fertilisers

Methods 1

— Sample preparation and sampling

Method 1.1

— Sampling for analysis

Method 1.2

— Preparation of sample for analysis

Method 1.3

— Sampling of static heaps for analysis

Methods 2

— Nitrogen

Method 2.1

— Determination of ammoniacal nitrogen

Methods 2.2

— Determination of nitric and ammoniacal nitrogen

Method 2.2.1

— Determination of nitric and ammoniacal nitrogen according to Ulsch

Method 2.2.2

— Determination of nitric and ammoniacal nitrogen according to Arnd

Method 2.2.3

— Determination of nitric and ammoniacal nitrogen according to Devarda

Method 2.3

— Determination of total nitrogen

Method 2.3.1

— Determination of the total nitrogen in calcium cyanamide nitrate free

Method 2.3.2

— Determination of total nitrogen in calcium cyanamide containing nitrates

Method 2.3.3

— Determination of total nitrogen in urea

Method 2.4

— Determination of cyanamide nitrogen

Method 2.5

— Spectrophotometric determination of biuret in urea

Methods 2.6

— Determination of different forms of nitrogen in the same sample

Method 2.6.1

— Determination of different forms of nitrogen in the same sample in fertilisers containing nitrogen as nitric, ammoniacal, urea and cyanamide nitrogen

Method 2.6.2

— Determination of total nitrogen in fertilisers containing nitrogen only as nitric, ammoniacal and urea nitrogen by two different methods

Method 2.6.3

— Determination of urea condensates using HPLC — Isobutylenediurea and crotonylidenediurea (method A) and methylen-urea oligomers (method B)

Methods 3

— Phosphorus

Methods 3.1

— Extractions

Method 3.1.1

— Extraction of phosphorus soluble in mineral acids

Method 3.1.2

— Extraction of phosphorus soluble in 2 % formic acid

Method 3.1.3

— Extraction of phosphorus soluble in 2 % citric acid

Method 3.1.4

— Extraction of phosphorus which is soluble in neutral ammonium citrate

Method 3.1.5

— Extraction by alkaline ammonium citrate

Method 3.1.5.1

— Extraction of soluble phosphorus according to Petermann at 65 °C

Method 3.1.5.2

— Extraction of the soluble phosphorus according to Petermann at ambient temperature

Method 3.1.5.3

— Extraction of phosphorus soluble in Joulie’s alkaline ammonium citrate

Method 3.1.6

— Extraction of water soluble phosphorus

Method 3.2

— Determination of extracted phosphorus

Method 4

— Potassium

Method 4.1

— Determination of the water-soluble potassium content

Method 5

— Carbon dioxide

Method 5.1

— Determination of carbon dioxide — Part I: method for solid fertilisers

Method 6

— Chlorine 116

Method 6.1

— Determination of chlorides in the absence of organic material

Methods 7

— Fineness of grinding

Method 7.1

— Determination of fineness of grinding (dry procedure)

Method 7.2

— Determination of the fineness of grinding of soft natural phosphates

Method 8

— Secondary nutrients

Method 8.1

— Extraction of total calcium, total magnesium, total sodium and total sulphur in the forms of sulphates

Method 8.2

— Extraction of total sulphur present in various forms

Method 8.3

— Extraction of water soluble calcium, magnesium, sodium and sulphur (in the form of sulphates)

Method 8.4

— Extraction of water soluble sulphur where the sulphur is in various forms

Method 8.5

— Extraction and determination of elemental sulphur

Method 8.6

—Manganimetric determination of extracted calcium following precipitation in the form of oxalate

Method 8.7

— Determination of magnesium by atomic absorption spectrometry

Method 8.8

— Determination of magnesium by complexometry

Method 8.9

— Determination of the sulfates content using three different methods

Method 8.10

— Determination of the sodium extracted

Method 8.11

— Determination of calcium and formate in calcium formate

Methods 9

— Micro-nutrients at a concentration of less than or equal to 10 %

Method 9.1

— Extraction of total micro-nutrients in fertilisers using aqua regia

Method 9.2

— Extraction of water soluble micro-nutrients in fertilisers and removal of organic compounds from fertilizer extracts

Method 9.3

— Determination of cobalt, copper, iron, manganese and zinc using flame atomic absorption spectrometry (FAAS)

Method 9.4

— Determination of boron, cobalt, copper, iron, manganese, molybdenum and zinc using ICP-AES

Method 9.5

— Determination of boron using spectrometry with azomethine-H

Method 9.6

— Determination of molybdenum using spectrometry of a complex with ammonium thiocyanate

Methods 10

— Micro-nutrients at a concentration greater than 10 %

Method 10.1

— Extraction of total micro-nutrients in fertilisers using aqua regia

Method 10.2

— Extraction of water soluble micro-nutrients in fertilisers and removal of organic compounds from fertilizer extracts

Method 10.3

— Determination of cobalt, copper, iron, manganese and zinc using flame atomic absorption spectrometry (FAAS)

Method 10.4

— Determination of boron, cobalt, copper, iron, manganese, molybdenum and zinc using ICP-AES

Method 10.5

— Determination of boron using acidimetric titration

Method 10.6

— Determination of molybdenum using gravimetric method with 8-hydroxyquinoline

Method 11

— Chelating agents

Method 11.1

— Determination of the chelated micro-nutrient content and of the chelated fraction of micro-nutrients

Method 11.2

— Determination of EDTA, HEDTA and DTPA

Method 11.3

— Determination of iron chelated by o,o-EDDHA, o,o-EDDHMA and HBED

Method 11.4

— Determination of iron chelated by EDDHSA

Method 11.5

— Determination of iron chelated by o,p EDDHA

Method 11.6

— Determination of IDHA

Method 11.7

— Determination of lignosulfonates

Method 11.8

— Determination of the complexed micro-nutrient content and of the complexed fraction of micro-nutrients

Method 11.9

— Determination of [S,S]-EDDS

Method 11.10

— Determination of HGA

Methods 12

— Nitrification and urease inhibitors

Method 12.1

— Determination of dicyandiamide

Method 12.2

— Determination of NBPT

Method 12.3

— Determination of 3-methylpyrazole

Method 12.4

— Determination of TZ

Method 12.5

— Determination of 2-NPT

Method 12.6

— Determination of DMPP

Method 12.7

— Determination of NBPT/NPPT

Method 12.8

— Determination of DMPSA

Methods 13

— Heavy metals

Method 13.1

— Determination of cadmium content

Methods 14

— Liming materials

Method 14.1

— Determination of size distribution of liming materials by dry and wet sieving

Method 14.2

— Determination of the reactivity of carbonate and silicate liming materials with hydrochloric acid

Method 14.3

— Determination of the reactivity by automatic titration method with citric acid

Method 14.4

— Determination of the neutralising value of liming materials

Method 14.5

— Determination of calcium in liming materials by the oxalate method

Method 14.6

— Determination of calcium and magnesium in liming materials by complexometry

Method 14.7

— Determination of magnesium in liming materials by atomic absorption spectrometric method

Method 14.8

— Determination of moisture content

Method 14.9

— Determination of the breakdown of granules

Method 14.10

— Determination of product effect by soil incubation

ANNEX V

A.

List of documents to be consulted by manufacturers or their representatives in order to compile a technical file for a new type of fertilisers to be added to annex I of this regulation

B.

Requirements to authorise laboratories that are competent to provide the necessary service for checking compliance of ec fertilisers with the requirements of this regulation and its annexes




ANNEX I

LIST OF TYPES OF EC FERTILISERS

A.   Inorganic straight primary nutrient fertilisers

A.1.   Nitrogenous fertilisers



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

1(a)

Calcium nitrate (nitrate of lime)

Chemically obtained product containing calcium nitrate as its essential ingredient and possibly ammonium nitrate

15 % N

Nitrogen expressed as total nitrogen or as nitric and ammoniacal nitrogen. Maximum content of ammoniacal nitrogen: 1,5 % N

 

Total nitrogen

Additional optional particulars:

Nitric nitrogen

Ammoniacal nitrogen

1(b)

Calcium magnesium nitrate (nitrate of lime and magnesium)

Chemically obtained product containing calcium nitrate and magnesium nitrate as essential ingredients

13 % N

Nitrogen expressed as nitric nitrogen. Minimum content of magnesium in the form of water-soluble salts expressed as magnesium oxide: 5 % MgO

 

Nitric nitrogen

Water-soluble magnesium oxide

1(c)

Magnesium nitrate

Chemically obtained product containing as its essential ingredient hexahydrated magnesium nitrate

10 % N

Nitrogen expressed as nitric nitrogen

When marketed in the form of crystals as note ‘in crystallised form’ may be added

Nitric nitrogen

Water-soluble magnesium oxide

14 % MgO

Magnesium expressed as water-soluble magnesium oxide

2(a)

Sodium nitrate (nitrate of soda)

Chemically obtained product containing sodium nitrate as its essential ingredient

15 % N

Nitrogen expressed as nitric nitrogen

 

Nitric nitrogen

2(b)

Chile nitrate

Product prepared from caliche, containing sodium nitrate as its essential ingredient

15 % N

Nitrogen expressed as nitric nitrogen

 

Nitric nitrogen

3(a)

Calcium cyanamide

Chemically obtained product containing calcium cyanamide as its essential ingredient, calcium oxide and possibly small quantities of ammonium salts and urea

18 % N

Nitrogen expressed as total nitrogen, at least 75 % of the nitrogen declared being bound in the form of cyanamide

 

Total nitrogen

3(b)

Nitrogenous calcium cyanamide

Chemically obtained product containing calcium cyanamide as its essential ingredient, and calcium oxide and possibly small quantities of ammonium salts and urea, plus added nitrate

18 % N

Nitrogen expressed as total nitrogen, at least 75 % of the non-nitric nitrogen declared being bound in the form of cyanamide. Nitric nitrogen content:

— minimum: 1 % N

— maximum: 3 % N

 

Total nitrogen

Nitric nitrogen

▼M5

4

Sulphate of ammonia

Chemically obtained product containing ammonium sulphate as its essential ingredient, possibly with up to 15 % calcium nitrate (nitrate of lime).

19,7 % N

Nitrogen expressed as total nitrogen.

Maximum content of nitric nitrogen 2,2 % N if calcium nitrate (nitrate of lime) is added.

When marketed in the form of a combination of ammonium sulphate and calcium nitrate (nitrate of lime), the designation must include ‘with up to 15 % calcium nitrate (nitrate of lime)’.

Ammoniacal nitrogen.

Total nitrogen if calcium nitrate (nitrate of lime) is added

▼B

5

Ammonium nitrate or calcium ammonium nitrate

Chemically obtained product containing ammonium nitrate as its essential ingredient, which may contain fillers such as ground limestone, calcium sulphate, ground dolomite, magnesium sulphate, kieserite

20 % N

Nitrogen expressed as nitric nitrogen and ammoniacal nitrogen, each of these two forms of nitrogen accounting for about half the nitrogen present.

See Annexes III.1 and III.2 of this regulation, if required.

The designation ‘calcium ammonium nitrate’ is exclusively reserved for a fertiliser containing only calcium carbonate (for instance limestone) and/or magnesium carbonate and calcium carbonate (for instance dolomite) in addition to ammonium nitrate. The minimum content of these carbonates must be 20 % and their purity level at least 90 %

Total nitrogen

Nitric nitrogen

Ammoniacal nitrogen

6

Ammonium sulphate-nitrate

Chemically obtained product containing as essential ingredients ammonium nitrate and ammonium sulphate

25 % N

Nitrogen expressed as ammoniacal and nitric nitrogen. Minimum nitric nitrogen content: 5 %

 

Total nitrogen

Ammoniacal nitrogen

Nitric nitrogen

7

Magnesium sulphonitrate

Chemically obtained product containing ammonium nitrate, ammonium sulphate and magnesium sulphate as essential ingredients

19 % N

Nitrogen expressed as ammoniacal and nitric nitrogen. Minimum nitric nitrogen content: 6 % N

 

Total nitrogen

Ammoniacal nitrogen

5 % MgO

Magnesium in the form of water-soluble salts expressed as magnesium oxide

 

Nitric nitrogen

Water-soluble magnesium oxide

8

Magnesium ammonium nitrate

Chemically obtained product containing ammonium nitrates and magnesium compound salts (dolomite magnesium carbonate and/or magnesium sulphate) as essential ingredients

19 % N

Nitrogen expressed as ammoniacal nitrogen and nitric nitrogen. Minimum nitric nitrogen content 6 % N

 

Total nitrogen

Ammoniacal nitrogen

Nitric nitrogen

5 % MgO

Magnesium expressed as total magnesium oxide

 

Total magnesium oxide and possibly, water-soluble magnesium oxide

9

Urea

Chemically obtained product containing carbonyl diamide (carbamide) as its essential ingredient

44 % N

Total ureic nitrogen (including biuret). Maximum biuret content: 1,2 %

 

Total nitrogen, expressed as ureic nitrogen

10

Crotonylidene diurea

Product obtained by reaction of urea with crotonaldehyde

Monomeric compound

28 % N

Nitrogen expressed as total nitrogen

At least 25 % N from the crotonylidene diurea

Maximum ureic nitrogen content: 3 %

 

Total nitrogen

Ureic nitrogen where this is at least 1 % by weight

Nitrogen from crotonylidene diurea

11

Isobutylidene diurea

Product obtained by reaction of urea with isobutyraldehyde Monomeric compound

Monomeric compound

28 % N

Nitrogen expressed as total nitrogen

At least 25 % N from isobutylidene diurea

Maximum ureic nitrogen content: 3 %

 

Total nitrogen

Ureic nitrogen where this is at least 1 % by weight

Nitrogen from isobutylidene diurea

12

Urea formaldehyde

Product obtained by reaction of urea with formaldehyde and containing as its essential ingredients molecules of urea formaldehyde

Polymeric compound

36 % N total nitrogen

Nitrogen expressed as total nitrogen

At least 3/5 of the declared total nitrogen content must be soluble in hot water

At least 31 % N from urea formaldehyde

Maximum ureic nitrogen content: 5 %

 

Total nitrogen

Ureic nitrogen where this is at least 1 % by weight

Nitrogen from formaldehyde urea that is soluble in cold water

Nitrogen from formaldehyde urea that is only soluble in hot water

13

Nitrogenous fertiliser containing crotonylidene diurea

Product obtained chemically containing crotonylidene diurea and a straight nitrogen fertiliser [List A-1, excluding products 3(a), 3(b) and 5]

18 % N expressed as total nitrogen

At least 3 % nitrogen in ammoniacal and/or nitric and/or ureic form

At least 1/3 of the declared total nitrogen content must be derived from crotonylidene diurea

Maximum biuret content:

(ureic N + crotonylidene diurea N) × 0,026

 

Total nitrogen

For each form amounting to at least 1 %:

— nitric nitrogen

— ammoniacal nitrogen

— ureic nitrogen

Nitrogen from crotonylidene diurea

14

Nitrogenous fertiliser containing isobutylidene diurea

Product obtained chemically containing isobutylidene diurea and a straight nitrogenous fertiliser [List A-1, excluding products 3(a), 3(b) and 5]

18 % N expressed as total nitrogen

At least 3 % nitrogen in ammoniacal and/or nitric and/or ureic form

A least 1/3 of the declared total nitrogen content must derive from isobutylidene diurea

Maximum biuret content:

(Ureic N + isobutylidene diurea N) × 0,026

 

Total nitrogen

For each form amounting to at least 1 %:

— nitric nitrogen

— ammoniacal nitrogen

— ureic nitrogen

Nitrogen from isobutylidene diurea

15

Nitrogenous fertiliser containing urea formaldehyde

Product obtained chemically containing urea formaldehyde and a straight nitrogenous fertiliser [List A-1, excluding products 3(a), 3(b) and 5]

18 % N expressed as total nitrogen

At least 3 % nitrogen in ammoniacal and/or nitric and/or ureic form

At least 1/3 of the declared total nitrogen content must derive from urea formaldehyde

The nitrogen from the urea formaldehyde must contain at least 3/5 nitrogen that is soluble in hot water

Maximum biuret content:

(Ureic N + urea formaldehyde) × 0,026

 

Total nitrogen

For each form amounting to at least 1 %:

— nitric nitrogen

— ammoniacal nitrogen

— ureic nitrogen

Nitrogen from urea formaldehyde

Nitrogen from urea formaldehyde that is soluble in cold water

Nitrogen from urea formaldehyde that is only soluble in hot water

▼M5 —————

▼B

►M5  16 ◄

Urea-ammonium sulphate

Product obtained chemically from urea and ammonium sulphate

30 % N

Nitrogen expressed as ammoniacal and ureic nitrogen

Minimum ammoniacal nitrogen content: 4 %

Minimum sulphur content expressed as sulphur trioxide: 12 %

Maximum biuret content: 0,9 %

 

Total nitrogen

Ammoniacal nitrogen

Ureic nitrogen

Water-soluble sulphur trioxide

A.2.   Phosphatic fertilisers

Where a particle size criterion is prescribed for the basic constituent materials of fertilisers sold in granular form (fertilisers 1, 3, 4, 5, 6 and 7), it will be established by an appropriate analytical method.



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

1

Basic slag:

— Thomas phosphates

— Thomas slag

Product obtained in iron-smelting by treatment of the phosphorus melts and containing calcium silicophosphates as its essential ingredients

12 % P2O5

Phosphorus expressed as phosphorus pentoxide soluble in mineral acids, at least 75 % of the declared content of phosphorus pentoxide being soluble in 2 % citric acid

or P2O5

Phosphorus expressed as phosphorus pentoxide soluble in 2 % citric acid

Particle size:

— at least 75 % able to pass through a sieve with a mesh of 0,160 mm

— at least 96 % able to pass through a sieve with a mesh of 0,630 mm

 

Total phosphorus pentoxide (soluble in mineral acids) 75 % of which (to be indicated as % by weight) is soluble in 2 % citric acid (for marketing in France, Italy, Spain, Portugal, Greece ►M1  , Czech Republic, Estonia, Cyprus, Latvia, Lithuania, Hungary, Malta, Poland, Slovenia, Slovakia, ◄ ►M3  Bulgaria and Romania ◄ )

Total phosphorus pentoxide (soluble in mineral acids) and phosphorus pentoxide soluble in 2 % citric acid (for marketing in the United Kingdom)

Phosphorus pentoxide soluble in 2 % citric acid (for marketing in Germany, Belgium, Denmark, Ireland, Luxembourg, the Netherlands and Austria)

2(a)

Single superphosphate

Product obtained by reaction of ground mineral phosphate with sulphuric acid and containing monocalcium phosphate as an essential ingredient as well as calcium sulphate

16 % P2O5

Phosphorus expressed as P2O5 soluble in neutral ammonium citrate, at least 93 % of the declared content of P2O5 being water-soluble

Test sample: 1 g

 

Phosphorus pentoxide soluble in neutral ammonium citrate

Water-soluble phosphorus pentoxide

2(b)

Concentrated superphosphate

Product obtained by reaction of ground mineral phosphate with sulphuric acid and phosphoric acid and containing monocalcium phosphate as an essential ingredient as well as calcium sulphate

25 % P2O5

Phosphorus expressed as P2O5 soluble in neutral ammonium citrate, at least 93 % of the declared content of P2O5 being water-soluble

Test sample: 1 g

 

Phosphorus pentoxide soluble in neutral ammonium citrate

Water-soluble phosphorus pentoxide

▼M2

2(c)

Triple superphosphate

Product obtained by reaction of ground mineral phosphate with phosphoric acid and containing monocalcium phosphate as its essential ingredient

38 % P2O5

Phosphorus expressed as P2O5 soluble in neutral ammonium citrate, at least 85 % of the declared content of P2O5 being water-soluble

Test sample: 3 g

 

Phosphorus pentoxide soluble in neutral ammonium citrate

Water-soluble phosphorus pentoxide

▼B

3

Partially solubilised rock phosphate

Product obtained by partial solubilisation of ground rock phosphate with sulphuric acid or phosphoric acid and containing as essential ingredients monocalcium phosphate, tricalcium phosphate and calcium sulphate

20 % P2O5

Phosphorus expressed as P2O5 soluble in mineral acids, at least 40 % of the declared content of P2O5 being water-soluble

Particle size:

— at least 90 % able to pass through a sieve with a mesh of 0,160 mm

— at least 98 % able to pass through a sieve with a mesh of 0,630 mm

 

Total phosphorus pentoxide (soluble in mineral acids)

Phosphorus pentoxide soluble in water

▼M7

3(a)

Partially solubilised rock phosphate with magnesium

Product obtained by partial solubilisation of ground rock phosphate with sulphuric acid or phosphoric acid with the addition of magnesium sulphate or magnesium oxide, and containing as essential ingredients monocalcium phosphate, tricalcium phosphate, calcium sulphate and magnesium sulphate

16 % P2O5

6 % MgO

Phosphorus expressed as P2O5 soluble in mineral acids, at least 40 % of the declared content of P2O5 being water-soluble

Particle size:

— at least 90 % able to pass through a sieve with a mesh of 0,160 mm

— at least 98 % able to pass through a sieve with a mesh of 0,630 mm

 

Total phosphorus pentoxide (soluble in mineral acids)

Phosphorus pentoxide soluble in water

Total magnesium oxide

Water-soluble magnesium oxide

▼B

4

Dicalcium phosphate

Product obtained by precipitation of solubilised phosphoric acid from mineral phosphates or bones, and containing dicalcium phosphate dihydrate as its essential ingredient

38 % P2O5

Phosphorus expressed as P2O5 soluble in alkaline ammonium citrate (Petermann)

Particle size:

— at least 90 % able to pass through a sieve with a mesh of 0,160 mm

— at least 98 % able to pass through a sieve with a mesh of 0,630 mm

 

Phosphorus pentoxide soluble in alkaline ammonium citrate

5

Calcined phosphate

Product obtained by heat treatment of ground rock phosphate with alkaline compounds and silicic acid, and containing alkaline calcium phosphate and calcium silicate as essential ingredients

25 % P2O5

Phosphorus expressed as P2O5 soluble in alkaline ammonium citrate (Petermann)

Particle size:

— at least 75 % able to pass through a sieve with a mesh of 0,160 mm

— at least 96 % able to pass through a sieve with a mesh of 0,630 mm

 

Phosphorus pentoxide soluble in alkaline ammonium citrate

6

Aluminium-calcium phosphate

Product obtained in amorphous form by heat treatment and grinding, containing aluminium and calcium phosphates as essential ingredients

30 % P2O5

Phosphorus expressed as P2O5 soluble in mineral acids, at least 75 % of the declared content of P2O5 being soluble in alkaline ammonium citrate (Joulie)

Particle size:

— at least 90 % able to pass through a sieve with a mesh of 0,160 mm

— at least 98 % able to pass through a sieve with a mesh of 0,630 mm

 

Total phosphorus pentoxide (soluble in mineral acids)

Phosphorus pentoxide soluble in alkaline ammonium citrate

7

Soft ground rock phosphate

Product obtained by grinding soft mineral phosphates and containing tricalcium phosphate and calcium carbonate as essential ingredients

25 % P2O5

Phosphorus expressed as P2O5 soluble in mineral acids, at least 55 % of the declared content of P2O5 being soluble in 2 % formic acid

Particle size:

— at least 90 % able to pass through a sieve with a mesh of 0,063 mm

— at least 99 % able to pass through a sieve with a mesh of 0,125 mm

 

Total phosphorus pentoxide (soluble in mineral acids)

Phosphorus pentoxide soluble in 2 % formic acid

Percentage by weight of material able to pass through a sieve with a mesh of 0,063 mm

A.3.   Potassic fertilisers



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

▼M11

1

Crude potassium salt

Product obtained from crude potassium salts

9 % K2O

Potassium expressed as water-soluble K2O

2 % MgO

Magnesium in the form of water-soluble salts, expressed as magnesium oxide

Usual trade names may be added

Water-soluble potassium oxide

Water-soluble magnesium oxide

Total sodium oxide

Chloride content must be declared

▼M10

2

Enriched crude potassium salt

Product obtained from crude potassium salts enriched by blending with potassium chloride

18 % K2O

Potassium expressed as water-soluble K2O

Usual trade names may be added

Water-soluble potassium oxide

Optional mention of the water-soluble magnesium oxide content where higher than 5 % MgO

▼B

3

Muriate of potash

Product obtained from crude potassium salts and containing potassium chloride as its essential ingredient

37 % K2O

Potassium expressed as water-soluble K2O

Usual trade names may be added

Water-soluble potassium oxide

4

Potassium chloride containing magnesium salts

Product obtained from crude potassium salts with added magnesium salts and containing potassium chloride and magnesium salts as essential ingredients

37 % K2O

Potassium expressed as water-soluble K2O

 

Water-soluble potassium oxide

Water-soluble magnesium oxide

5 % MgO

Magnesium in the form of water-soluble salts, expressed as magnesium oxide

 

5

Sulphate of potash

Product obtained chemically from potassium salts and containing potassium sulphate as its essential ingredient

47 % K2O

Potassium expressed as water-soluble K2O

Maximum chloride content: 3 % Cl

 

Water-soluble potassium oxide

Optional mention of the chloride content

6

Sulphate of potash containing magnesium salt

Product obtained chemically from potassium salts, possibly with addition of magnesium salts, and containing potassium sulphate and magnesium sulphate as essential ingredients

22 % K2O

Potassium expressed as water-soluble K2O

Usual trade names may be added

Water-soluble potassium oxide

Water-soluble magnesium oxide

Optional mention of the chloride content

8 % MgO

Magnesium in the form of water-soluble salts, expressed as magnesium oxide

Maximum chloride content: 3 % Cl

7

Kieserite with potassium sulphate

Product obtained from Kieserite with potassium sulphate added

8 % MgO

Magnesium expressed as water-soluble MgO

Usual trade names may be added

Water-soluble magnesium oxide

Water-soluble potassium oxide

Optional mention of the chloride content

6 % K2O

Potassium expressed as water-soluble K2O

Total MgO + K2O: 20 %

Maximum chloride content: 3 % Cl

B.   Inorganic compound primary nutrient fertilisers

B.1.   NPK fertilisers



B.1.1.

Type designation:

NPK fertilisers.

Data on method of production:

Product obtained chemically or by blending, without addition of organic nutrients of animal or vegetable origin.

Minimum content of nutrients (percentage by weight):

— Total: 20 % (N + P2O5 + K2O);

— For each of the nutrients: 3 % N, 5 % P2O5, 5 % K2O.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Cyanamide nitrogen

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

(4)  P2O5 soluble in mineral acids only

(5)  P2O5 soluble in alkaline ammonium citrate (Petermann)

(6a)  P2O5 soluble in mineral acids, of which at least 75 % of the declared P2O5 content is soluble in 2 % citric acid

(6b)  P2O5 soluble in 2 % citric acid

(7)  P2O5 soluble in mineral acids, of which at least 75 % of the declared P2O5 content is soluble in alkaline ammonium citrate (Joulie)

(8)  P2O5 soluble in mineral acids, of which at least 55 % of the declared P2O5 content is soluble in 2 % formic acid

Water soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (5) amounts to at least 1 % by weight, it must be declared

(3)  If above 28 %, see Annex III.2

1.  An NPK fertiliser free from Thomas slag, calcined phosphate, aluminium-calcium phosphate, partially solubilised rock phosphate and soft ground rock phosphate must be declared in accordance with solubilities (1), (2) or (3):

— when the water-soluble P2O5 does not amount to 2 %, solubility (2) only shall be declared;

— when the water-soluble P2O5 is at least 2 %, solubility (3) shall be declared, and the water-soluble P2O5 content must be indicated [solubility (1)].

The P2O5 content soluble in mineral acids only must not exceed 2 %.

For this type 1, the test sample for determining solubilities (2) and (3) shall be 1 g.

2 (a)  An NPK fertiliser containing soft ground rock phosphate or partially solubilised rock phosphate must be free from Thomas slag, calcined phosphate and aluminium-calcium phosphate. It shall be declared in accordance with solubilities (1), (3) and (4)

This type of fertiliser must contain:

— at least 2 % P2O5 soluble in mineral acids only [solubility (4)];

— at least 5 % P2O5 soluble in water and neutral ammonium citrate [solubility (3)];

— at least 2,5 % water-soluble P2O5 [solubility (1)].

This type of fertiliser must be marketed under the designation ‘NPK fertiliser containing soft ground rock phosphate’ or ‘NPK fertiliser containing partially solubilised rock phosphate’. For this type 2(a), the test sample for determining solubility (3) shall be 3 g.

(1)  Water-soluble potassium oxide

(2)  The indication ‘low in chloride’ is linked to a maximum content of 2 % Cl

(3)  Chloride content may be declared

Particle size of the basic phosphatic ingredients

Thomas slag: at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Aluminium-calcium phosphate: at least 90 % able to pass through a sieve with a mesh of 0,160 mm

Calcined phosphate: at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Soft ground rock phosphate: at least 90 % able to pass through a sieve with a mesh of 0,063 mm

Partially solubilised rock phosphate: at least 90 % able to pass through a sieve with a mesh of 0,160 mm

 

2 (b)  An NPK fertiliser containing aluminium-calcium phosphate must be free from Thomas slag, calcined phosphate, soft ground rock phosphate and partially solubilised rock phosphate.

It shall be declared in accordance with solubilities (1) and (7), the latter applying after deduction of the solubility in water.

This type of fertiliser must contain:

— at least 2 % of water-soluble P2O5 [solubility (1)];

— at least 5 % of P2O5 according to solubility (7).

This type of fertiliser must be marketed under the designation ‘NPK fertiliser containing aluminium-calcium phosphate’.

3.  In the case of NPK fertilisers containing only one of the following types of phosphatic fertiliser: Thomas slag, calcined phosphate, aluminium-calcium phosphate, soft ground rock phosphate, the type designation must be followed by an indication of the phosphate ingredient.

The declaration of the solubility of the P2O5 must be given in accordance with the following solubilities:

— for fertilisers based on Thomas slag: solubility (6a) (France, Italy, Spain, Portugal, Greece ►M1  , Czech Republic, Estonia, Cyprus, Latvia, Lithuania, Hungary, Malta, Poland, Slovenia, Slovakia, ◄ ►M3  Bulgaria, Romania ◄ ), (6b) (Germany, Belgium, Denmark, Ireland, Luxembourg, Netherlands, United Kingdom and Austria);

— for fertilisers based on calcined phosphate: solubility (5);

— for fertilisers based on aluminium-calcium phosphate: solubility (7);

— for fertilisers based on soft ground rock phosphate: solubility (8).

 



B.1.2.

Type designation:

NPK fertiliser containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde (as appropriate).

Data on method of production:

Product obtained chemically without addition of organic nutrients of animal or vegetable origin and containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde.

Minimum content of nutrients (percentage by weight):

— Total: 20 % (N + P2O5 + K2O);

— For each of the nutrients:

— 

— 5 % N. At least ¼ of the declared content of total nitrogen must derive from nitrogen form (5) or (6) or (7). At least 3/5 of the declared nitrogen content (7) must be soluble in hot water,

— 5 % P2O5,

— 5 % K2O.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from crotonylidene diurea

(6)  Nitrogen from isobutylidene diurea

(7)  Nitrogen from urea formaldehyde

(8)  Nitrogen from urea formaldehyde that is only soluble in hot water

(9)  Nitrogen from urea formaldehyde that is soluble in cold water

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (4) amounts to at least 1 % by weight, it must be declared

(3)  One of the forms of nitrogen (5) to (7) (as appropriate). Nitrogen form (7) must be declared in the form of nitrogen (8) and (9)

An NPK fertiliser free from Thomas slag, calcined phosphate, aluminium-calcium phosphate, partially solubilised rock phosphate and rock phosphate must be declared in accordance with solubilities (1), (2) or (3):

— when the water-soluble P2O5 does not amount to 2 %, solubility (2) only shall be declared,

— when the water-soluble P2O5 is at least 2 %, solubility (3) shall be declared, and the water-soluble P2O5 content must be indicated [solubility (1)].

The P2O5 content soluble in mineral acids only must not exceed 2 %.

The test sample for determining solubilities (2) and (3) shall be 1 g.

(1)  Water-soluble potassium oxide

(2)  The indication ‘low in chloride’ is linked to a maximum content of 2 % Cl

(3)  Chloride content may be declared

B.2.   NP fertilisers



B.2.1.

Type designation:

NP fertilisers.

Data on method of production:

Product obtained chemically or by blending without addition of organic nutrients of animal or vegetable origin.

Minimum content of nutrients (percentage by weight):

— Total: 18 % (N + P2O5);

— For each of the nutrients: 3 % N, 5 % P2O5.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Cyanamide nitrogen

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

(4)  P2O5 soluble in mineral acids only

(5)  P2O5 soluble in alkaline ammonium citrate (Petermann)

(6a)  P2O5 soluble in mineral acids, of which at least 75 % of the declared P2O5 content is soluble in 2 % citric acid

(6b)  P2O5 soluble in 2 % citric acid

(7)  P2O5 soluble in mineral acids of which at least 75 % of the declared P2O5 content is soluble in alkaline ammonium citrate (Joulie)

(8)  P2O5 soluble in mineral acids of which at least 55 % of the declared P2O5 content is soluble in 2 % formic acid

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (5) amounts to at least 1 % by weight, it must be declared

1.  An NP fertiliser free from Thomas slag, calcined phosphate, aluminium-calcium phosphate, partially solubilised rock phosphate and soft ground rock phosphate must be declared in accordance with solubilities (1), (2) or (3):

— when the water-soluble P2O5 does not amount to 2 %, solubility (2) only shall be declared;

— when the water-soluble P2O5 is at least 2 %, solubility (3) shall be declared, and the water-soluble P2O5 content must be indicated [solubility (1)].

The P2O5 content soluble in mineral acids only must not exceed 2 %.

For this type 1, the test sample for determining solubilities (2) and (3) shall be 1 g.

2 (a)  A NP fertiliser containing soft ground rock phosphate or partially solubilised rock phosphate must be free from Thomas slag, calcined phosphate and aluminium-calcium phosphate.

It shall be declared in accordance with solubilities (1), (3) and (4).

This type of fertiliser must contain:

— at least 2 % P2O5 soluble in mineral acids only [solubility (4)];

— at least 5 % P2O5 soluble in water and neutral ammonium citrate [solubility (3];

— at least 2,5 % water soluble P2O5 [solubility (1)].

This type of fertiliser must be marketed under the designation ‘NP fertiliser containing soft ground rock phosphate’ or ‘NP fertiliser containing partially solubilised rock phosphate’.

For this type 2(a), the test sample for determining solubility (3) shall be 3 g.

 

Particle size of the basic phosphatic ingredients:

Thomas slag at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Aluminium-calcium phosphate at least 90 % able to pass through a sieve with a mesh of 0,160 mm

Calcined phosphate at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Soft ground rock phosphate at least 90 % able to pass through a sieve with a mesh of 0,063 mm

Partially solubilised rock phosphate at least 90 % able to pass through a sieve with a mesh of 0,160 mm

 

2 (b)  A NP fertiliser containing aluminium-calcium phosphate, must be free from Thomas slag, calcined phosphate, soft ground rock phosphate and partially solubilised rock phosphate.

It shall be declared in accordance with solubilities (1) and (7), the latter applying after deduction of the solubility in water.

This type of fertiliser must contain:

— at least 2 % water-soluble P2O5 [solubility (1)];

— at least 5 % P2O5 according to solubility (7).

This type of fertiliser must be marketed under the designation ‘NP fertiliser containing aluminium-calcium phosphate’.

3.  In the case of NP fertilisers containing only one of the following types of phosphatic fertiliser: Thomas slag, calcined phosphate, aluminium-calcium phosphate, soft ground rock phosphate, the type designation must be followed by an indication of the phosphate ingredient.

The declaration of the solubility of the P2O5 must be given in accordance with the following solubilities:

— for fertilisers based on Thomas slag: solubility (6a) (France, Italy, Spain, Portugal, Greece ►M1  , Czech Republic, Estonia, Cyprus, Latvia, Lithuania, Hungary, Malta, Poland, Slovenia, Slovakia, ◄ ►M3  Bulgaria, Romania ◄ ), (6b) (Germany, Belgium, Denmark, Ireland, Luxembourg, Netherlands, United Kingdom and Austria);

— for fertilisers based on calcined phosphate: solubility (5);

— for fertilisers based on aluminium-calcium phosphate: solubility (7);

— for fertilisers based on soft ground rock phosphate: solubility (8).

 



B.2.2.

Type designation:

NP fertiliser containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde (as appropriate)

Data on method of production:

Product obtained chemically without addition of organic nutrients of animal or vegetable origin and containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde

Minimum content of nutrients (percentage by weight):

— Total: 18 % (N + P2O5);

— For each of the nutrients:

— 

— 5 % N.

— At least ¼ of the declared content of total nitrogen must derive from nitrogen form (5) or (6) or (7).

— At least 3/5 of the declared nitrogen content (7) must be soluble in hot water,

— 5 % P2O5.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from crotonylidene diurea

(6)  Nitrogen from isobutylidene diurea

(7)  Nitrogen from urea formaldehyde

(8)  Nitrogen from urea formaldehyde that is only soluble in hot water

(9)  Nitrogen from urea formaldehyde that is soluble in cold water

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (4) amounts to at least 1 % by weight, it must be declared

(3)  One of the forms of nitrogen (5) to (7) (as appropriate). Nitrogen form (7) must be declared in the form of nitrogen (8) and (9)

An NP fertiliser free of Thomas slag, calcined phosphate, aluminium-calcium phosphate, partially solubilised rock phosphate and rock phosphate must be declared in accordance with solubilities (1), (2) or (3):

— when the water-soluble P2O5 does not amount to 2 %, solubility (2) only shall be declared;

— when the water-soluble P2O5 is at least 2 %, solubility (3) shall be declared, and the water-soluble P2O5 content must be indicated [solubility (1)].

The P2O5 content soluble in mineral acids only must not exceed 2 %.

The test sample for determining solubilities (2) and (3) shall be 1 g.

 

B.3.   NK fertilisers



B.3.1.

Type designation:

NK fertilisers.

Data on method of production:

Product obtained chemically or by blending, without addition of organic nutrients of animal or vegetable origin.

Minimum content of nutrients (percentage by weight):

— Total: 18 % (N + K2O);

— For each of the nutrients: 3 % N, 5 % K2O.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Cyanamide nitrogen

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (5) amounts to at least 1 % by weight, it must be declared

 

(1)  Water-soluble potassium oxide

(2)  The indication ‘low in chloride’ is linked to a maximum content of 2 % Cl

(3)  Chloride content may be declared



B.3.2.

Type designation:

NK fertiliser containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde (as appropriate).

Data on method of production:

Product obtained chemically without addition of organic nutrients of animal or vegetable origin and containing crotonylidene diurea or isobutylidene diurea or urea formaldehyde.

Minimum content of nutrients (percentage by weight):

— Total: 18 % (N + K2O);

— For each of the nutrients:

— 

— 5 % N

— At least ¼ of the declared content of total nitrogen must derive from nitrogen form (5) or (6) or (7).

— At least 3/5 of the declared nitrogen content (7) must be soluble in hot water,

— 5 % K2O.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from crotonylidene diurea

(6)  Nitrogen from isobutylidene diurea

(7)  Nitrogen from urea formaldehyde

(8)  Nitrogen from urea formaldehyde that is only soluble in hot water

(9)  Nitrogen from urea formaldehyde that is soluble in cold water

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (4) amounts to at least 1 % by weight, it must be declared

(3)  One of the forms of nitrogen (5) to (7) (as appropriate). Nitrogen form (7) must be declared in the form of nitrogen (8) and (9)

 

(1)  Water-soluble potassium oxide

(2)  The indication ‘low in chloride’ is linked to a maximum content of 2 % Cl

(3)  Chloride content may be declared

B.4.   PK fertilisers



Type designation:

PK fertilisers.

Data on method of production:

Product obtained chemically or by blending, without addition of organic nutrients of animal or vegetable origin.

Minimum content of nutrients (percentage by weight):

— Total: 18 % (P2O5 + K2O);

— For each of the nutrients: 5 % P2O5, 5 % K2O.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

 

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

(4)  P2O5 soluble in mineral acids only

(5)  P2O5 soluble in alkaline ammonium citrate (Petermann)

(6a)  P2O5 soluble in mineral acids, of which at least 75 % of the declared P2O5 content is soluble in 2 % citric acid

(6b)  P2O5 soluble in 2 % citric acid

(7)  P2O5 soluble in mineral acids of which at least 75 % of the declared P2O5 content is soluble in alkaline ammonium citrate (Joulie)

(8)  P2O5 soluble in mineral acids, of which at least 55 % of the declared P2O5 content is soluble in 2 % formic acid

Water soluble K2O

 

1.  A PK fertiliser free from Thomas slag, calcined phosphate, aluminium-calcium phosphate, partially solubilised rock phosphate and soft ground rock phosphate must be declared in accordance with solubilities (1), (2) or (3):

— when the water-soluble P2O5 does not amount to 2 % solubility (2) only shall be declared;

— when the water-soluble P2O5 is at least 2 % solubility (3) shall be declared and the water-soluble P2O5 content must be indicated [solubility (1)].

The P2O5 content soluble in mineral acids only must not exceed 2 %.

For this type 1, the test sample for determining solubilities (2) and (3) shall be 1 g.

2 (a)  A PK fertiliser containing soft ground rock phosphate or partially solubilised rock phosphate must be free from Thomas slag, calcined phosphate and aluminium-calcium phosphate.

It shall be declared in accordance with solubilities (1), (3) and (4)

This type of fertiliser must contain:

— at least 2 % P2O5 soluble in mineral acids only [solubility (4)];

— at least 5 % P2O5 soluble in water and neutral ammonium citrate [solubility (3)];

— at least 2,5 % water-soluble P2O5 [solubility (1)].

This type of fertiliser must be marketed under the designation ‘PK fertiliser containing soft ground rock phosphate’ or ‘PK fertiliser containing partially solubilised rock phosphate’.

For this type 2(a), the test sample for determining solubility (3) shall be 3 g

(1)  Water-soluble potassium oxide

(2)  The indication ‘low in chloride’ is linked to a maximum content of 2 % Cl

(3)  Chloride content may be declared

Particle size of the basic phosphatic ingredients:

Thomas slag at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Aluminium-calcium phosphate at least 90 % able to pass through a sieve with a mesh of 0,160 mm

Calcined phosphate at least 75 % able to pass through a sieve with a mesh of 0,160 mm

Soft ground rock phosphate at least 90 % able to pass through a sieve with a mesh of 0,063 mm

Partially solubilised rock phosphate at least 90 % able to pass through a sieve with a mesh of 0,160 mm

 

2 (b)  A PK fertiliser containing aluminium-calcium phosphate must be free from Thomas slag, calcined phosphate and partially solubilised rock phosphate.

It shall be declared in accordance with solubilities (1) and (7), the latter applying after deduction of the solubility in water.

This type of fertiliser must contain:

— at least 2 % water-soluble P2O5 [solubility (1)];

— at least 5 % P2O5 according to solubility (7).

This type of fertiliser must be marketed under the designation ‘PK fertiliser containing aluminium-calcium phosphate’.

3.  In the case of PK fertilisers containing only one of the following types of phosphatic fertiliser: Thomas slag, calcined phosphate, aluminium-calcium phosphate, soft ground rock phosphate, the type designation must be followed by an indication of the phosphate ingredient.

The declaration of the solubility of the P2O5 must be given in accordance with the following solubilities:

— for fertilisers based on Thomas slag: solubility (6a) (France, Italy, Spain, Portugal, Greece ►M1  , Czech Republic, Estonia, Cyprus, Latvia, Lithuania, Hungary, Malta, Poland, Slovenia, Slovakia, ◄ ►M3  Bulgaria, Romania ◄ ), (6b) (Germany, Belgium, Denmark, Ireland, Luxembourg, Netherlands, United Kingdom and Austria)

— for fertilisers based on calcined phosphate: solubility (5);

— for fertilisers based on aluminium-calcium phosphate: solubility (7);

— for fertilisers based on soft ground rock phosphate: solubility (8).

 

C.   Inorganic fluid fertilisers

C.1.   Straight fluid fertilisers



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data or type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

1

Nitrogen fertiliser solution

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin

15 % N

Nitrogen expressed as total nitrogen or, if there is only one form, nitric nitrogen or ammoniacal nitrogen or ureic nitrogen

Maximum biuret content:

ureic N × 0,026

 

Total nitrogen and, for any form that amounts to not less than 1 %, nitric nitrogen, ammoniacal nitrogen and/or ureic nitrogen

If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

2

Urea Ammonium nitrate fertiliser solution

Product obtained chemically and by dissolution in water, containing ammonium nitrate and urea

26 % N

Nitrogen expressed as total nitrogen, where the ureic nitrogen accounts for about half of the nitrogen present

Maximum biuret content: 0,5 %

 

Total nitrogen

Nitric nitrogen, ammoniacal nitrogen and ureic nitrogen

If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

3

Calcium nitrate solution

Product obtained by dissolving calcium nitrate in water

8 % N

Nitrogen expressed as nitrogen in nitric form with a maximum 1 % nitrogen as ammonia

Calcium expressed as water soluble CaO

The type designation may be followed, as appropriate, by one of the following indications:

— for foliar application;

— for making nutrient solutions;

— for ferti-irrigation.

Total nitrogen

Water soluble calcium oxide for the uses stipulated in column 5

Optionally:

— nitrogen in nitric form;

— nitrogen as ammonia.

4

Magnesium nitrate solution

Product obtained chemically and by dissolving magnesium nitrate in water

6 % N

Nitrogen expressed as nitric nitrogen

 

Nitric nitrogen

Water-soluble magnesium oxide

9 % MgO

Magnesium expressed as water-soluble magnesium oxide

Minimum pH: 4

 

5

Calcium nitrate suspension

Product obtained by suspension of calcium nitrate in water

8 % N

Nitrogen expressed as total nitrogen or nitric and ammoniacal nitrogen maximum content of ammoniacal nitrogen: 1,0 %

The type designation may be followed by one of the following indications:

— for foliar application;

— for making nutrient solutions and suspensions;

— for fertigation.

Total nitrogen

Nitric nitrogen

Water soluble calcium oxide for the uses stipulated in column 5

14 % CaO Calcium expressed as water soluble CaO

6

Nitrogen fertiliser solution with urea formaldehyde

Product obtained chemically or by dissolution in water of urea formaldehyde and a nitrogenous fertiliser from list A-1 in this regulation, excluding products 3(a), 3(b), and 5

18 % N expressed as total nitrogen

At least one third of the declared total nitrogen content must derive from urea formaldehyde

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

 

Total nitrogen

For each form amounting to at least 1 %:

— Nitric nitrogen;

— Ammoniacal nitrogen;

— Ureic nitrogen.

Nitrogen from urea formaldehyde

7

Nitrogen fertiliser suspension with urea formaldehyde

Product obtained chemically or by suspension in water of urea formaldehyde and a nitrogenous fertiliser from list A-1 in this regulation, excluding products 3(a), 3(b), and 5

18 % N expressed as total nitrogen

At least one third of the declared total nitrogen content must derive from urea formaldehyde of which at least three fifths has to be soluble in hot water

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

 

Total nitrogen

For each form amounting to at least 1 %

— Nitric nitrogen;

— Ammoniacal nitrogen;

— Ureic nitrogen.

Nitrogen from urea formaldehyde

Nitrogen from urea formaldehyde that is soluble in cold water

Nitrogen from urea formaldehyde that is only soluble in hot water

▼M15

8

Potassium formate water solution

Product obtained by reacting potassium hydroxide, formaldehyde, butyraldehyde, and formic acid followed by separation and evaporation

50 % potassium formate

28 % K2O

Potassium expressed as water soluble K2O

27 % formate

 

Water soluble potassium oxide

▼B

C.2.   Compound fluid fertilisers



C.2.1.

Type designation:

NPK-fertiliser solution.

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin.

Minimum content of nutrients (percentage by weight) and other requirements:

— Total: 15 %, (N + P2O5 + K2O);

— For each of the nutrients: 2 % N, 3 % P2O5, 3 % K2O;

— Maximum biuret content: ureic N × 0,026.



Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6

Particle size

Data for identification of the fertilisers

Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

Water-soluble P2O5

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2) to (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

Water-soluble P2O5

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared

▼M11



C.2.2

Type designation:

NPK-fertiliser solution containing urea formaldehyde

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 15 % (N +P2O5 +K2O)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— 3 % P2O5

— 3 % K2O

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

Water-soluble P2O5

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

Water-soluble P2O5

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.3

Type designation:

NPK-fertiliser suspension

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in suspension in the water and in solution without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 20 %, (N + P2O5 + K2O)

—  For each of the nutrients: 3 % N, 4 % P2O5, 4 % K2O

—  Maximum biuret content: ureic N × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and water

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

The fertilisers must not contain Thomas slag, aluminium calcium phosphate, calcined phosphates, partially solubilised phosphates or rock phosphates

(1)  If the water-soluble P2O5 is less than 2 %, only solubility 2 shall be declared

(2)  If the water-soluble P2O5 is at least 2 %, solubility 3 and the water-soluble P2O5 content shall be declared

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.4

Type designation:

NPK-fertiliser suspension containing urea formaldehyde

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in water, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 20 % (N +P2O5 +K2O)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— At least 3/5 of the declared nitrogen content (5) must be soluble in hot water

— 4 % P2O5

— 4 % K2O

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

The fertilisers must not contain Thomas slag, aluminium calcium phosphate, calcined phosphates, partially solubilised phosphates or rock phosphates

(1)  If the water-soluble P2O5 is less than 2 %, only solubility (2) shall be declared

(2)  If the water-soluble P2O5 is at least 2 %, solubility (3) and the water-soluble P2O5 content shall be declared

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.5

Type designation:

NP-fertiliser solution

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 18 %, (N + P2O5)

—  For each of the nutrients: 3 % N, 5 % P2O5

—  Maximum biuret content: ureic N × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

Water-soluble P2O5

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

Water-soluble P2O5

 



C.2.6

Type designation:

NP-fertiliser solution containing urea formaldehyde

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 18 % (N +P2O5)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— 5 % P2O5

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

Water-soluble P2O5

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

Water-soluble P2O5

 



C.2.7

Type designation:

NP-fertiliser suspension

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in the water, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 18 %, (N + P2O5)

—  For each of the nutrients: 3 % N, 5 % P2O5

—  Maximum biuret content: ureic N × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers. Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and water

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

The fertilisers may not contain Thomas slag, aluminium calcium phosphate, calcined phosphates, partially solubilised phosphate or rock phosphates

(1)  If the water-soluble P2O5 is less than 2 % only solubility 2 shall be declared

(2)  If the water-soluble P2O5 is at least 2 %, solubility 3 will be declared and the water-soluble P2O5 content must be stated

 



C.2.8

Type designation:

NP-fertiliser suspension containing urea formaldehyde

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in water, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 18 % (N +P2O5)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— At least 3/5 of the declared nitrogen content (5) must be soluble in hot water

— 5 % P2O5

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and in water

 

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

The fertilisers must not contain Thomas slag, aluminium calcium phosphate, calcined phosphates, partially solubilised phosphates or rock phosphates

(1)  If the water-soluble P2O5 is less than 2 %, only solubility (2) shall be declared

(2)  If the water-soluble P2O5 is at least 2 %, solubility (3) and the water-soluble P2O5 content shall be declared

 

▼M11



C.2.9

Type designation:

NK-fertiliser solution

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 15 % (N + K2O)

—  For each of the nutrients: 3 % N, 5 % K2O

—  Maximum biuret content: ureic N × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

 

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.10

Type designation:

NK-fertiliser solution containing urea formaldehyde

Data on method of production:

Product obtained chemically and by dissolution in water, in a form stable at atmospheric pressure, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 15 % (N + K2O)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— 5 % K2O

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

 

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.11

Type designation:

NK-fertiliser suspension

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in the water, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 18 % (N + K2O)

—  For each of the nutrients: 3 % N, 5 % K2O

—  Maximum biuret content: ureic N × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

 

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.12

Type designation:

NK-fertiliser suspension containing urea formaldehyde

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in water, without addition of organic nutrients of animal or vegetable origin and containing urea formaldehyde

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total 18 %(N +K2O)

—  For each of the nutrients:

— 5 % N, at least 25 % of the declared content of total nitrogen must derive from nitrogen form (5)

— At least 3/5 of the declared nitrogen content (5) must be soluble in hot water

— 5 % K2O

Maximum biuret content: (ureic N + urea formaldehyde N) × 0,026

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

(1)  Total nitrogen

(2)  Nitric nitrogen

(3)  Ammoniacal nitrogen

(4)  Ureic nitrogen

(5)  Nitrogen from urea formaldehyde

 

Water-soluble K2O

(1)  Total nitrogen

(2)  If any of the forms of nitrogen (2), (3) and (4) amounts to not less than 1 % by weight, it must be declared

(3)  Nitrogen from urea formaldehyde

(4)  If the biuret content is less than 0,2 %, the words ‘low in biuret’ may be added

 

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.13

Type designation:

PK-fertiliser solution

Data on method of production:

Product obtained chemically and by dissolution in water, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 18 % (P2O5 + K2O)

—  For each of the nutrients: 5 % P2O5, 5 % K2O

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

 

Water-soluble P2O5

Water-soluble K2O

 

Water-soluble P2O5

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared



C.2.14

Type designation:

PK-fertiliser suspension

Data on method of production:

Product in liquid form, in which the nutrients are derived from substances both in solution and in suspension in water, without addition of organic nutrients of animal or vegetable origin

Minimum content of nutrients (percentage by weight) and other requirements:

—  Total: 18 % (P2O5 + K2O)

—  For each of the nutrients: 5 % P2O5, 5 % K2O

Forms, solubilities and nutrient content to be declared as specified in columns 4, 5 and 6 — Particle size

Data for identification of the fertilisers — Other requirements

N

P2O5

K2O

N

P2O5

K2O

1

2

3

4

5

6

 

(1)  Water-soluble P2O5

(2)  P2O5 soluble in neutral ammonium citrate

(3)  P2O5 soluble in neutral ammonium citrate and water

Water-soluble K2O

 

The fertilisers must not contain Thomas slag, aluminium calcium phosphate, calcined phosphates, partially solubilised phosphates or rock phosphates

(1)  If the water-soluble P2O5 is less than 2 % only solubility 2 will be declared

(2)  If the water-soluble P2O5 is at least 2 % solubility 3 and the water-soluble P2O5 content shall be declared

(1)  Water-soluble potassium oxide

(2)  The words ‘low in chloride’ may be used only where the Cl content does not exceed 2 %

(3)  The chloride content may be declared

▼B

D.   Inorganic secondary nutrient fertilisers



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data or type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

1

Calcium sulphate

Product of natural or industrial origin containing calcium sulphate at various degrees of hydration

25 % CaO

35 % SO3

Calcium and sulphur expressed as total CaO + SO3

Fineness of grind:

— at least 80 % to pass through a sieve with a 2 mm mesh width,

— at least 99 % to pass through a sieve with a 10 mm mesh width

Usual trade names may be added

Total sulphur trioxide

Optional: total CaO

2

Calcium chloride solution

Calcium chloride solution of industrial origin

12 % CaO

Calcium expressed as water-soluble CaO

 

Calcium oxide

Optional: for plant spraying

▼M8

2.1

Calcium formate

Chemically obtained product containing calcium formate as essential ingredient

33,6 % CaO

Calcium expressed as water-soluble CaO

56 % formate

 

Calcium oxide

Formate

2.2

Calcium formate fluid

Product obtained by dissolution in water of calcium formate

21 % CaO

Calcium expressed as water-soluble CaO

35 % formate

 

Calcium oxide

Formate

▼M14

2.3

Calcium chelate of iminodisuccinic acid

Chemically obtained product containing calcium chelate of iminodisuccinic acid as essential ingredient, without addition of organic nutrients of animal or vegetable origin

9 % CaO

Calcium expressed as CaO, chelated by iminodisuccinic acid (IDHA) water-soluble.

 

Calcium expressed as CaO, chelated by iminodisuccinic acid (IDHA) water-soluble

▼B

3

Elemental sulphur

Comparatively refined natural or industrial product

98 % S (245 %: SO3)

Sulphur expressed as total SO3

 

Total sulphur trioxide

4

Kieserite

Product of mineral origin containing monohydrated magnesium sulphate as main component

24 % MgO

45 % SO3

Magnesium and sulphur expressed as water-soluble magnesium oxide and sulphur trioxide

Usual trade names may be added

Water-soluble magnesium oxide

Optional: water-soluble sulphur trioxide

▼M7

5

Magnesium sulphate

Product containing heptahydrated magnesium sulphate as main ingredient

15 % MgO

28 % SO3

Where micro-nutrients are added, and declared in accordance with Article 6(4) and 6(6):

10 % MgO

17 % SO3

Magnesium and sulphur expressed as water-soluble magnesium oxide and sulphur trioxide

The usual trade names may be added

Water-soluble magnesium oxide

Water-soluble sulphur trioxide

▼B

5.1

Magnesium sulphate solution

Product obtained by dissolution in water of magnesium sulphate of industrial origin

5 % MgO

10 % SO3

Magnesium and sulphur expressed as water-soluble magnesium oxide and water-soluble sulphuric anhydride

Usual trade names may be added

Water-soluble magnesium oxide

Optional: water-soluble sulphuric anhydride

5.2

Magnesium hydroxide

Product obtained chemically and having as its essential ingredient magnesium hydroxide

60 % MgO

Particle size: at least 99 % able to pass through a sieve with a mesh of 0,063 mm

 

Total magnesium oxide

5.3

Suspension of magnesium hydroxide

Product obtained by suspension of type 5.2

24 % MgO

 

Total magnesium oxide

6

Magnesium chloride solution

Product obtained by dissolving magnesium chloride of industrial origin

13 % MgO

Magnesium expressed as magnesium oxide

Maximum calcium content: 3 % CaO

 

Magnesium oxide

E.   Inorganic micro-nutrient fertilisers

Explanatory note: The following notes are applicable to the whole of Part E.

Note 1: A chelating agent may be designated by means of its initials as set out in E.3.

Note 2: If the product leaves no solid residue after being dissolved in water it may be described as ‘for dissolution’.

Note 3: Where a micro-nutrient is present in a chelated form, the pH range guaranteeing acceptable stability of the chelated fraction shall be stated.

E.1.   Fertilisers containing only one micro-nutrient

E.1.1.   Boron



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

1a

Boric acid

Product obtained by the action of an acid on a borate

14 % water-soluble B

The usual trade names may be added

Water-soluble boron (B)

1b

Sodium borate

Chemically obtained product containing as its essential component a sodium borate

10 % water-soluble B

The usual trade names may be added

Water-soluble boron (B)

1c

Calcium borate

Product obtained from colemanite or pandermite containing as its essential ingredient calcium borates

7 % total B

Particle size: at least 98 % passing through a 0,063 mm sieve

The usual trade names may be added

Total boron (B)

1d

Boron ethanol amine

Product obtained by reacting a boric acid with an ethanol amine

8 % water-soluble B

 

Water-soluble boron (B)

1e

Borated fertiliser in solution

Product obtained by dissolving types 1a and/or 1b and/or 1d

2 % water-soluble B

The designation must include the names of the constituents present

Water-soluble boron (B)

▼M9

1f

Borated fertiliser in suspension

Product obtained by suspending types 1a and/or 1b and/or 1c and/or 1d in water

2 % total B

The designation must include the names of the constituents present

Total boron (B)

Water-soluble boron (B) if present

▼B

E.1.2.   Cobalt



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

2a

Cobalt salt

Chemically obtained product containing a mineral salt of cobalt as its essential ingredient

19 % water-soluble Co

The designation must include the name of the mineral anion

Water-soluble cobalt (Co)

▼M8

2b

Cobalt chelate

Water-soluble product containing cobalt chemically combined with authorised chelating agent(s)

5 % of water-soluble cobalt and at least 80 % of the water-soluble cobalt is chelated by authorised chelating agent(s)

Name of each authorised chelating agent that chelates at least 1 % water-soluble cobalt and that can be identified and quantified by a European standard

Water-soluble cobalt (Co)

Optional: Total cobalt (Co) chelated by authorised chelating agents

Cobalt (Co) chelated by each authorised chelating agent that chelates at least 1 % water-soluble cobalt and that can be identified and quantified by a European standard

▼M9

2c

Cobalt fertiliser solution

Aqueous solution of types 2a and/or 2b or 2d

2 % water-soluble Co

When types 2a and 2d are mixed, the complexed fraction must be at least 40 % of the water-soluble Co

The designation must include:

(1)  the name(s) of the mineral anion(s), if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble cobalt if present and that can be identified and quantified by a European standard

or

the name of the authorised complexing agent that can be identified by a European standard, if present

Water-soluble cobalt (Co)

Cobalt (Co) chelated by each authorised chelating agent that chelates at least 1 % water-soluble cobalt and that can be identified and quantified by a European standard

Cobalt (Co) complexed by the authorised complexing agent that can be identified by a European Standard

Optional: total cobalt (Co) chelated by authorised chelating agent(s)

▼M9

2d

Cobalt complex

Water-soluble product containing cobalt chemically combined with one authorised complexing agent

5 % of water-soluble Co and the complexed fraction must be at least 80 % of the water-soluble cobalt

The designation must include the name of the authorised complexing agent that can be identified by a European Standard

Water-soluble cobalt (Co)

Total cobalt (Co) complexed

▼B

E.1.3.   Copper



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

3a

Copper salt

Chemically obtained product containing a mineral salt of copper as its essential ingredient

20 % water-soluble Cu

The designation must include the name of the mineral anion

Water-soluble copper (Cu)

3b

Copper oxide

Chemically obtained product containing copper oxide as its essential ingredient

70 % total Cu

Particle size: at least 98 % passing through a 0,063 mm sieve

 

Total copper (Cu)

3c

Copper hydroxide

Chemically obtained product containing copper hydroxide as its essential ingredient

45 % total Cu

Particle size: at least 98 % passing through a 0,063 mm sieve

 

Total copper (Cu)

▼M8

3d

Copper chelate

Water-soluble product containing copper chemically combined with authorised chelating agent(s)

5 % of water-soluble copper and at least 80 % of the water-soluble copper is chelated by authorised chelating agent(s)

Name of each authorised chelating agent that chelates at least 1 % water-soluble copper and that can be identified and quantified by a European standard

Water-soluble copper (Cu)

Optional: Total copper (Cu) chelated by authorised chelating agents

Copper (Cu) chelated by each authorised chelating agent that chelates at least 1 % water-soluble copper and that can be identified and quantified by a European standard

▼B

3e

Copper-based fertiliser

Product obtained by mixing types 3a and/or 3b and/or 3c and/or a single one of type 3d and, if required, filler that is neither nutrient nor toxic

5 % total Cu

The designation must include:

(1)  the name(s) of the copper components;

(2)  the name of any chelating agent if present

Total copper (Cu)

Water-soluble copper (Cu) if this accounts for at least 1/4 of the total copper

Chelated copper (Cu) if present

▼M9

3f

Copper fertiliser solution

Aqueous solution of types 3a and/or 3d or 3i

2 % water-soluble Cu

When types 3a and 3i are mixed, the complexed fraction must be at least 40 % of the water-soluble Cu

The designation must include:

(1)  the name(s) of the mineral anion(s), if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble copper if present and that can be identified and quantified by a European standard

or

the name of the authorised complexing agent that can be identified by a European standard

Water-soluble copper (Cu)

Copper (Cu) chelated by each authorised chelating agent that chelates at least 1 % water-soluble copper and that can be identified and quantified by a European standard

Copper (Cu) complexed by the authorised complexing agent that can be identified by a European Standard

Optional: Total copper (Cu) chelated by authorised chelating agent(s)

▼B

3g

Copper oxychloride

Chemically obtained product containing copper oxychloride [Cu2Cl(OH)3] as an essential ingredient

50 % total Cu

Particle size: at least 98 % passing through a 0,063 mm sieve

 

Total copper (Cu)

▼M9

3h

Copper fertiliser in suspension

Product obtained by suspending types 3a and/or 3b and/or 3c and/or 3d and/or 3g in water

17 % total Cu

The designation must include:

(1)  the name(s) of the anions, if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble copper if present and that can be identified and quantified by a European standard

Total copper (Cu)

Water-soluble copper (Cu) if present

Copper (Cu) chelated by each authorised chelating agent that chelates at least 1 % water-soluble copper and that can be identified and quantified by a European standard

▼M9

3i

Copper complex

Water-soluble product containing copper chemically combined with one authorised complexing agent

5 % of water-soluble Cu and the complexed fraction must be at least 80 % of the water-soluble copper

The designation must include the name of the authorised complexing agent that can be identified by a European Standard

Water-soluble copper (Cu)

Total copper (Cu) complexed

▼M4

E.1.4.   Iron



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients

(percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

4a

Iron salt

Chemically obtained product containing a mineral iron salt as its essential ingredient

12 % water-soluble Fe

The designation must include the name of the mineral anion

Water-soluble iron (Fe)

▼M8

4b

Iron chelate

Water-soluble product containing iron chemically combined with authorised chelating agent(s)

5 % of water-soluble iron, of which the chelated fraction is at least 80 % and at least 50 % of the water-soluble iron is chelated by authorised chelating agent(s)

Name of each authorised chelating agent that chelates at least 1 % water-soluble iron and that can be identified and quantified by a European standard

Water-soluble iron (Fe)

Optional: Total iron (Fe) chelated by authorised chelating agents

Iron (Fe) chelated by each authorised chelating agent that chelates at least 1 % water-soluble iron and that can be identified and quantified by a European standard

▼M9

4c

Iron fertiliser solution

Aqueous solution of types 4a and/or 4b or 4d

2 % water-soluble Fe

When types 4a and 4d are mixed, the complexed fraction must be at least 40 % of the water-soluble Fe

The designation must include:

(1)  the name(s) of the mineral anion(s), if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble iron if present and that can be identified and quantified by a European standard

or

the name of the authorised complexing agent that can be identified by a European standard

Water-soluble iron (Fe)

Iron (Fe) chelated by each authorised chelating agent that chelates at least 1 % water-soluble iron and that can be identified and quantified by a European standard

Iron (Fe) complexed by the authorised complexing agent that can be identified by a European Standard

Optional: total iron (Fe) chelated by authorised chelating agent(s)

▼M9

4d

Iron complex

Water-soluble product containing iron chemically combined with one authorised complexing agent

5 % of water-soluble Fe and the complexed fraction must be at least 80 % of the water-soluble iron

The designation must include the name of the authorised complexing agent that can be identified by a European Standard

Water-soluble iron (Fe)

Total iron (Fe) complexed

▼B

E.1.5.   Manganese



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

5a

Manganese salt

Chemically obtained product containing a mineral manganese salt (Mn II) as its essential ingredient

17 % water-soluble Mn

The designation must include the name of the combined anion

Water-soluble manganese (Mn)

▼M8

5b

Manganese chelate

Water-soluble product containing manganese chemically combined with authorised chelating agent(s)

5 % of water-soluble manganese and at least 80 % of the water-soluble manganese is chelated by authorised chelating agent(s)

Name of each authorised chelating agent that chelates at least 1 % water-soluble manganese and that can be identified and quantified by a European standard

Water-soluble manganese (Mn)

Optional: Total manganese (Mn) chelated by authorised chelating agents

Manganese (Mn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble manganese and that can be identified and quantified by a European standard

▼B

5c

Manganese oxide

Chemically obtained product containing manganese oxides as essential ingredients

40 % total Mn

Particle size: at least 80 % passing through a 0,063 mm sieve

 

Total manganese (Mn)

5d

Manganese-based fertiliser

Product obtained by mixing types 5a and 5c

17 % total Mn

The designation must include the name of the manganese components

Total manganese (Mn)

Water-soluble manganese (Mn) if this accounts for at least 1/4 of the total manganese

▼M9

5e

Manganese fertiliser solution

Aqueous solution of types 5a and/or 5b or 5g

2 % water-soluble Mn

When types 5a and 5g are mixed, the complexed fraction must be at least 40 % of the water-soluble Mn

The designation must include:

(1)  the name(s) of the mineral anion(s), if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble manganese if present and that can be identified and quantified by a European standard

or

the name of the authorised complexing agent that can be identified by a European standard

Water-soluble manganese (Mn)

Manganese (Mn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble manganese and that can be identified and quantified by a European standard

Manganese (Mn) complexed by the authorised complexing agent that can be identified by a European Standard

Optional: total manganese (Mn) chelated by authorised chelating agent(s)

▼M9

5f

Manganese fertiliser in suspension

Product obtained by suspending types 5a and/or 5b and/or 5c in water

17 % total Mn

The designation must include:

(1)  the name(s) of the anions, if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble manganese if present and that can be identified and quantified by a European standard

Total manganese (Mn)

Water-soluble manganese (Mn) if present

Manganese (Mn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble manganese and that can be identified and quantified by a European standard

5g

Manganese complex

Water-soluble product containing manganese chemically combined with one authorised complexing agent

5 % of water-soluble Mn and the complexed fraction must be at least at least 80 % of the water-soluble manganese

The designation must include the name of the authorised complexing agent that can be identified by a European Standard

Water-soluble manganese (Mn)

Total manganese (Mn) complexed

▼B

E.1.6.   Molybdenum



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

6a

Sodium molybdate

Chemically obtained product containing sodium molybdate as its essential ingredient

35 % water-soluble Mo

 

Water-soluble molybdenum (Mo)

6b

Ammonium molybdate

Chemically obtained product containing ammonium molybdate as its essential ingredient

50 % water-soluble Mo

 

Water-soluble molybdenum (Mo)

6c

Molybdenum-based fertiliser

Product obtained by mixing types 6a and 6b

35 % water-soluble Mo

The designation must include the names of the molybdenum components

Water-soluble molybdenum (Mo)

6d

Molybdenum-based fertiliser solution

Product obtained by dissolving types 6a and/or one of the type 6b in water

3 % water-soluble Mo

The designation must include the name(s) of the molybdenum component(s)

Water-soluble molybdenum (Mo)

E.1.7.   Zinc



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type of designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria

1

2

3

4

5

6

7a

Zinc salt

Chemically obtained product and having as its essential ingredient a mineral salt of zinc

15 % water-soluble Zn

The designation must include the name of the mineral anion

Water-soluble zinc (Zn)

▼M8

7b

Zinc chelate

Water-soluble product containing zinc chemically combined with authorised chelating agent(s)

5 % of water-soluble zinc and at least 80 % of the water-soluble zinc is chelated by authorised chelating agent(s)

Name of each authorised chelating agent that chelates at least 1 % water-soluble zinc and that can be identified and quantified by a European standard

Water-soluble zinc (Zn)

Optional: Total zinc (Zn) chelated by authorised chelating agents

Zinc (Zn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble zinc and that can be identified and quantified by a European standard

▼B

7c

Zinc oxide

Chemically obtained product and having as its essential ingredient zinc oxide

70 % total Zn

Particle size: at least 80 % passing through a 0,063 mm sieve

 

Total zinc (Zn)

7d

Zinc-based fertiliser

Product obtained by mixing types 7a and 7c

30 % total Zn

The designation must include the name of the zinc components present

Total zinc (Zn)

Water-soluble zinc (Zn) if this accounts for at least 1/4 of the total zinc (Zn)

▼M9

7e

Zinc fertiliser solution

Aqueous solution of types 7a and/or 7b or 7g

2 % water-soluble Zn

When types 7a and 7g are mixed, the complexed fraction must be at least 40 % of the water-soluble Zn

The designation must include:

(1)  the name(s) of the mineral anion(s), if present

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble zinc if present and that can be identified and quantified by a European standard

or

the name of the authorised complexing agent that can be identified by a European standard

Water-soluble zinc (Zn)

Zinc (Zn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble zinc and that can be identified and quantified by a European standard

Zinc (Zn) complexed by the authorised complexing agent that can be identified by a European Standard

Optional: total zinc (Zn) chelated by authorised chelating agent(s)

▼M8

7f

Zinc fertiliser suspension

Product obtained by suspending type 7(a) and/or 7(c) and/or types 7(b) in water

20 % total zinc

The designation must include:

(1)  the name(s) of the anions

(2)  the name of any authorised chelating agent that chelates at least 1 % water-soluble zinc if present and that can be identified and quantified by a European standard

Total zinc (Zn)

Water-soluble zinc (Zn) if present

Zinc (Zn) chelated by each authorised chelating agent that chelates at least 1 % water-soluble zinc and that can be identified and quantified by a European standard

▼M9

7g

Zinc complex

Water-soluble product containing zinc chemically combined with one authorised complexing agent

5 % of water-soluble zinc and the complexed fraction must be at least 80 % of the water-soluble zinc

The designation must include the name of the authorised complexing agent that can be identified by a European Standard

Water-soluble zinc (Zn)

Total zinc (Zn) complexed

▼M8

E.2.    Minimum micro-nutrient content, percentage weight of fertiliser; mixed micro-nutrient fertiliser types

E.2.1.    Minimum micro-nutrient content in solid or fluid mixtures of micro-nutrient fertilisers, percentage weight of fertiliser

▼B



 

Where the micro-nutrient is present in a form that is

exclusively mineral

chelated or complexed

For a micro-nutrient:

Boron (B)

0,2

0,2

Cobalt (Co)

0,02

0,02

Copper (Cu)

0,5

0,1

Iron (Fe)

2,0

0,3

Manganese (Mn)

0,5

0,1

Molybdenum (Mo)

0,02

Zinc (Zn)

0,5

0,1

▼M8

E.2.2.    Minimum micro-nutrient content in EC fertilisers containing primary and/or secondary nutrient(s) with micro-nutrient(s) applied to the soil, percentage weight of fertiliser

▼B



 

For crops or grassland

For horticultural use

Boron (B)

0,01

0,01

Cobalt (Co)

0,002

Copper (Cu)

0,01

0,002

Iron (Fe)

0,5

0,02

Manganese (Mn)

0,1

0,01

Molybdenum (Mo)

0,001

0,001

Zinc (Zn)

0,01

0,002

▼M8

E.2.3.    Minimum micro-nutrient content in EC fertilisers containing primary and/or secondary nutrient(s) with micro-nutrient(s) for leaf sprays, percentage weight of fertiliser

▼B



Boron (B)

0,010

Cobalt (Co)

0,002

Copper (Cu)

0,002

Iron (Fe)

0,020

Manganese (Mn)

0,010

Molybdenum (Mo)

0,001

Zinc (Zn)

0,002

▼M8

E.2.4.    Solid or fluid mixtures of micro-nutrient fertilisers

▼M9



No

Type designation

Data on method of production and essential requirements

Minimum content of nutrients (percentage by weight)

Data on expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the micro-nutrients

Other criteria

1

2

3

4

5

6

1

Mixture of micro-nutrients

Product obtained by mixing two or more E.1 types of fertiliser or obtained by dissolving and/or suspending two or more E.1 types of fertiliser in water

(1)  5 % total content for a solid mixture

or

(2)  2 % total content for a fluid mixture

Individual micro-nutrients according to Section E.2.1

Name of each micronutrient and its chemical symbol present listed in alphabetical order of their chemical symbols followed by the name(s) of its counter-ion(s) immediately after the type designation.

Total content of each micro-nutrient expressed as percentage of the fertiliser by mass, except where a micro-nutrient is totally water-soluble.

Water-soluble content of each micro-nutrient expressed as percentage of the fertiliser by mass where the soluble content is at least half of the total content. Where a micro-nutrient is totally water-soluble, only the water-soluble content shall be declared.

Where a micro-nutrient is chemically linked with an organic molecule, the micro-nutrient shall be declared immediately following the water-soluble content as a percentage of the fertiliser by mass, followed by one of the terms ‘chelated by’ or ‘complexed by’ with the name of each authorised chelating or complexing agent(s) as set out in Section E.3. The name of the organic molecule may be replaced by its initials.

The following statement below the compulsory and optional declarations: ‘To be used only where there is a recognised need. Do not exceed the appropriate dose rate’.

▼M4

E.3.   List of authorised organic chelating and complexing agents for micro-nutrients

The following substances are authorised provided that their corresponding nutrient chelate has complied with the requirements of Council Directive 67/548/EEC ( 1 ).

▼M9

E.3.1.   Chelating agents ( 2 )

Acids, or sodium, potassium or ammonium salts of:



No

Designation

Alternative designation

Chemical formula

CAS number of the acid (1)

1

Ethylenediaminetetraacetic acid

EDTA

C10H16O8N2

60-00-4

2

2-hydroxyethylethylenediaminetriacetic acid

HEEDTA

C10H18O7N2

150-39-0

3

diethylenetriaminepentaacetic acid

DTPA

C14H23O10N3

67-43-6

4

ethylenediamine- N,N’-di[(ortho-hydroxyphenyl)acetic acid]

[o,o] EDDHA

C18H20O6N2

1170-02-1

5

ethylenediamine- N-[(ortho-hydroxyphenyl)acetic acid]- N’-[(para-hydroxyphenyl)acetic acid]

[o,p] EDDHA

C18H20O6N2

475475-49-1

6

ethylenediamine- N,N’-di[(ortho-hydroxy-methylphenyl)acetic acid]

[o,o] EDDHMA

C20H24O6N2

641632-90-8

7

ethylenediamine- N-[(ortho-hydroxy-methylphenyl)acetic acid]- N’-[(para-hydroxy-methylphenyl)acetic acid]

[o,p] EDDHMA

C20H24O6N2

641633-41-2

8

ethylenediamine- N,N’-di[(5-carboxy-2-hydroxyphenyl)acetic acid]

EDDCHA

C20H20O10N2

85120-53-2

9

ethylenediamine- N,N’-di[(2-hydroxy-5-sulfophenyl)acetic acid] and its condensation products

EDDHSA

C18H20O12N2S2 + n*(C12H14O8N2S)

57368-07-7 and 642045-40-7

10

Iminodisuccinic acid

IDHA

C8H11O8N

131669-35-7

11

N,N’-di(2-hydroxybenzyl)ethylenediamine-N,N’-diacetic acid

HBED

C20H24N2O6

35998-29-9

▼M12

12

[S,S]-Ethylenediaminedisuccinic acid

[S,S]-EDDS

C10H16O8N2

20846-91-7

(1)   

For information only.

▼M9

E.3.2.   Complexing agents ( 3 )

The following complexing agents are only permitted in products for fertigation and/or foliar application, except for Zn lignosulfonate, Fe lignosulfonate, Cu lignosulfonate and Mn lignosulfonate that can be applied directly to the soil.

Acids, or sodium, potassium or ammonium salts of:

▼M10



No

Designation

Alternative designation

Chemical formula

CAS number of the acid (1)

1

Lignosulfonic acid

LS

No chemical formula available

8062-15-5 (2)

▼M12

2

Heptagluconic acid

HGA

C7H14O8

23351-51-1

(1)   

For information only.

(2)   

For quality reasons, the relative phenolic hydroxyl content and the relative organic sulphur content as measured by EN 16109 must exceed 1,5 % and 4,5 % respectively.

▼M5

F.   Nitrification and urease inhibitors

The urease and nitrification inhibitors listed in the Tables F.1. and F.2. below may be added to the nitrogenous fertilisers types listed in Sections A.1., B.1., B.2., B.3., C.1. and C.2. of Annex I subject to the following provisions:

(1) 

at least 50 % of the total nitrogen content of the fertiliser consists of the nitrogen forms specified in column 3;

(2) 

they do not belong to the fertiliser types mentioned in column 4.

Fertilisers to which a nitrification inhibitor listed in Table F.1. has been added shall have the words ‘with nitrification inhibitor ([type designation of nitrification inhibitor])’ added to their type designation.

Fertilisers to which a urease inhibitor listed in Table F.2. has been added shall have the words ‘with urease inhibitor ([type designation of urease inhibitor])’ added to their type designation.

Technical information, as complete as possible, must be provided with each package or bulk consignment by the person responsible for marketing. This information must enable the user in particular to determine the rates and timing of application in relation to the crop being grown.

New nitrification inhibitors or urease inhibitors may be included in the Tables F1 or F2 respectively after evaluation of the technical files submitted in accordance with guidelines to be elaborated for these compounds.



F.1.  Nitrification inhibitors

No

Type designation and composition of the nitrification inhibitor

Minimum and maximum inhibitor content as a percentage by mass of the total nitrogen present as ammonium nitrogen and urea nitrogen.

EC fertiliser types for which the inhibitor may not be used

Description of nitrification inhibitors with which mixtures are allowed

Data on permitted ratio

1

2

3

4

5

1

Dicyandiamide

ELINCS No 207-312-8

Minimum 2,25

Maximum 4,5

 

 

▼M9

2

Product containing dicyandiamide (DCD) and 1,2,4-triazole (TZ)

EC# EINECS No 207-312-8

EC# EINECS No 206-022-9

Minimum 2,0

Maximum 4,0

 

Mixture ratio 10:1

(DCD:TZ)

3

Product containing 1,2,4-triazole (TZ) and 3-methylpyrazole (MP)

EC# EINECS No 206-022-9

EC# EINECS No 215-925-7

Minimum 0,2

Maximum 1,0

 

Mixture ratio 2:1

(TZ:MP)

▼M11

4

3,4-dimethyl-1H-pyrazole phosphate (DMPP)

EC No 424-640-9

Minimum: 0,8

Maximum: 1,6

 

 

▼M13

5

Isomeric mixture of 2-(3,4-dimethylpyrazole-1-yl)-succinic acid and 2-(4,5-dimethylpyrazole-1-yl)-succinic acid (DMPSA)

EC No 940-877-5

Minimum: 0,8

Maximum: 1,6

 

 

▼M5



F.2.  Urease inhibitors

No

Type designation and composition of the urease inhibitor

Minimum and maximum inhibitor content as a percentage by mass of the total nitrogen present as urea nitrogen

EC fertiliser types for which the inhibitor may not be used

Description of urease inhibitors with which mixtures are allowed

Data on permitted ratio

1

2

3

4

5

1

N-(n-butyl) thiophosphoric triamide (NBPT)

ELINCS No 435-740-7

Minimum 0,09

Maximum 0,20

 

 

▼M9

2

N-(2-nitrophenyl)phosphoric triamide (2-NPT)

EC# EINECS No 477-690-9

Minimum 0,04

Maximum 0,15

 

 

▼M12

3

Mixture of N-butylphosphorothioic triamide (NBPT) and N-propylphosphorothioic triamide (NPPT) (ratio 3:1 (1))

Reaction mixture:

EC No 700-457-2

Mixture of NBPT/NPPT:

NBPT: ELINCS No 435-740-7

NPPT: CAS No 916809-14-8

Minimum: 0,02

Maximum: 0,3

 

 

▼M12

(1)   

Tolerance on the portion of NPPT: 20 %.

▼M10

G.   Liming materials

The words ‘LIMING MATERIAL’ shall be added after the term ‘EC FERTILISER’.

All the properties mentioned in the tables of Sections G.1 to G.5 refer to the product as supplied unless otherwise specified.

Granulated liming materials which are produced by aggregating smaller primary particles must break down when stirred in water into particles with fineness distributions as specified in the type descriptions, and as measured using Method 14.9 ‘Determination of the breakdown of granules’.

G.1.    Natural Limes



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria to be declared

1

2

3

4

5

6

1(a)

Limestone — standard quality

Product containing as its essential ingredient calcium carbonate, obtained by grinding of natural deposits of limestone.

Minimum neutralising value: 42

Fineness determined by wet sieving:

— at least 97 % to pass through a 3,15 mm sieve;

— at least 80 % to pass through a 1 mm sieve; and

— at least 50 % to pass through a 0,5 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Reactivity and method of determination (optional)

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

1(b)

Limestone — fine quality

Minimum neutralising value: 50

Fineness determined by wet sieving:

— at least 97 % to pass through a 2 mm sieve;

— at least 80 % to pass through a 1 mm sieve;

— at least 50 % to pass through a 0,315 mm sieve; and

— at least 30 % to pass through a 0,1 mm sieve.

Usual trade names or alternative names may be added.

2(a)

Magnesian limestone — standard quality

Product containing as its essential ingredients calcium carbonate and magnesium carbonate, obtained by grinding of natural deposits of magnesian limestone.

Minimum neutralising value: 45

Total magnesium: 3 % MgO

Fineness determined by wet sieving:

— at least 97 % to pass through a 3,15 mm sieve;

— at least 80 % to pass through a 1 mm sieve; and

— at least 50 % to pass through a 0,5 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Reactivity and method of determination (optional)

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

2(b)

Magnesian limestone — fine quality

Minimum neutralising value: 52

Total magnesium: 3 % MgO

Fineness determined by wet sieving:

— at least 97 % to pass through a 2 mm sieve;

— at least 80 % to pass through a 1 mm sieve;

— at least 50 % to pass through a 0,315 mm sieve; and

— at least 30 % to pass through a 0,1 mm sieve.

Usual trade names or alternative names may be added.

3(a)

Dolomitic limestone — standard quality

Product containing as its essential ingredients calcium carbonate and magnesium carbonate, obtained by grinding of natural deposits of dolomite.

Minimum neutralising value: 48

Total magnesium: 12 % MgO

Fineness determined by wet sieving:

— at least 97 % to pass through a 3,15 mm sieve;

— at least 80 % to pass through a 1 mm sieve; and

— at least 50 % to pass through a 0,5 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Reactivity and method of determination (optional)

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

3(b)

Dolomitic limestone — fine quality

Minimum neutralising value: 54

Total magnesium: 12 % MgO

Fineness determined by wet sieving:

— at least 97 % to pass through a 2 mm sieve;

— at least 80 % to pass through a 1 mm sieve;

— at least 50 % to pass through a 0,315 mm sieve; and

— at least 30 % to pass through a 0,1 mm sieve.

Usual trade names or alternative names may be added.

4(a)

Marine limestone — standard quality

Product containing as its essential ingredient calcium carbonate, obtained by grinding of natural deposits of limestone of marine origin.

Minimum neutralising value: 30

Fineness determined by wet sieving:

— at least 97 % to pass through a 3,15 mm sieve; and

— at least 80 % to pass through a 1 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Reactivity and method of determination (optional)

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

4(b)

Marine limestone — fine quality

Minimum neutralising value: 40

Fineness determined by wet sieving:

— at least 97 % to pass through a 2 mm sieve; and

— at least 80 % to pass through a 1 mm sieve.

Usual trade names or alternative names may be added.

5(a)

Chalk — standard quality

Product containing as its essential ingredient calcium carbonate, obtained by grinding of natural deposits of chalk.

Fineness determined by wet sieving after disintegration in water:

— at least 90 % to pass through a 3,15 mm sieve;

— at least 70 % to pass through a 2 mm sieve; and

— at least 40 % to pass through a 0,315 mm sieve.

Reactivity of fraction 1-2 mm (obtained by dry sieving) at least 40 % in citric acid

Minimum neutralising value: 42

Fineness determined by wet sieving:

— at least 97 % to pass through a 25 mm sieve; and

— at least 30 % to pass through a 2 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Reactivity and method of determination (optional)

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

5(b)

Chalk — fine quality

Fineness determined by wet sieving after disintegration in water:

— at least 97 % to pass through a 3,15 mm sieve;

— at least 70 % to pass through a 2 mm sieve; and

— at least 50 % to pass through a 0,315 mm sieve.

Reactivity of fraction 1-2 mm (obtained by dry sieving) at least 65 % in citric acid

Minimum neutralising value: 48

Fineness determined by wet sieving:

— at least 97 % to pass through a 25 mm sieve; and

— at least 30 % to pass through a 2 mm sieve.

Usual trade names or alternative names may be added.

6

Carbonate suspension

Product containing as its essential ingredients calcium carbonate and/or magnesium carbonate, obtained by grinding and suspending in water of natural deposits of limestone, magnesian limestone, dolomite or chalk.

Minimum neutralising value: 35

Fineness determined by wet sieving:

— at least 97 % to pass through a 2 mm sieve;

— at least 80 % to pass through a 1 mm sieve;

— at least 50 % to pass through a 0,315 mm sieve; and

— at least 30 % to pass through a 0,1 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium if MgO ≥ 3 %

Moisture (optional)

Reactivity and method of determination (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

G.2.    Oxide and Hydroxide limes of natural origin



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria to be declared

1

2

3

4

5

6

1(a)

Burnt lime — basic quality

Product containing as its essential ingredient calcium oxide obtained by burning of natural deposits of limestone.

Minimum neutralising value: 75

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

1(b)

Burnt lime — premium quality

Product containing as its essential ingredient calcium oxide obtained by burning of natural deposits of limestone.

Minimum neutralising value: 85

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

2(a)

Magnesian burnt lime — basic quality

Product containing as its essential ingredients calcium oxide and magnesium oxide, obtained by burning of natural deposits of magnesian limestone.

Minimum neutralising value: 80

Total Magnesium: 7 % MgO

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

2(b)

Magnesian burnt lime — premium quality

Product containing as its essential ingredients calcium oxide and magnesium oxide, obtained by burning of natural deposits of magnesian limestone.

Minimum neutralising value: 85

Total Magnesium: 7 % MgO

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

3(a)

Dolomitic burnt lime — basic quality

Product containing as its essential ingredients calcium oxide and magnesium oxide, obtained by burning of natural deposits of dolomite.

Minimum neutralising value: 85

Total Magnesium: 17 % MgO

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

3(b)

Dolomitic burnt lime — premium quality

Product containing as its essential ingredients calcium oxide and magnesium oxide, obtained by burning of natural deposits of dolomite.

Minimum neutralising value: 95

Total Magnesium: 17 % MgO

Fineness determined by dry sieving:

Fine:

— at least 97 % to pass through a 4 mm sieve.

Screened:

— at least 97 % to pass through a 8 mm sieve; and

— no more than 5 % to pass through a 0,4 mm sieve.

The type designation must include the fineness type ‘fine’ or ‘screened’.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by dry sieving (optional)

Soil incubation results (optional)

4

Hydrated burnt lime (slaked lime)

Product containing as its essential ingredients calcium hydroxide, obtained by burning and slaking of natural deposits of limestone.

Minimum neutralising value: 65

Fineness determined by wet sieving:

— at least 95 % to pass through a 0,16 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Fineness determined by wet sieving (optional)

Moisture (optional)

Soil incubation results (optional)

5

Hydrated magnesian burnt lime (slaked magnesian lime)

Product containing as its essential ingredients calcium hydroxide and magnesium hydroxide, obtained by burning and slaking of natural deposits of magnesian limestone.

Minimum neutralising value: 70

Total Magnesium: 5 % MgO

Fineness determined by wet sieving:

— at least 95 % to pass through a 0,16 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by wet sieving (optional)

Moisture (optional)

Soil incubation results (optional)

6

Hydrated dolomitic burnt lime

Product containing as its essential ingredients calcium hydroxide and magnesium hydroxide, obtained by burning and slaking, of natural deposits of dolomite.

Minimum neutralising value: 70

Total Magnesium: 12 % MgO

Fineness determined by wet sieving:

— at least 95 % to pass through a 0,16 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium

Fineness determined by wet sieving (optional)

Moisture (optional)

Soil incubation results (optional)

7

Hydrated lime suspension

Product containing as its essential ingredients calcium hydroxide and/or magnesium hydroxide, obtained by burning, slaking and suspending in water of natural deposits of limestone, magnesian limestone or dolomite.

Minimum neutralising value: 20

Fineness determined by wet sieving:

— at least 95 % to pass through a 0,16 mm sieve.

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium if MgO ≥ 3 %

Moisture (optional)

Fineness determined by wet sieving (optional)

Soil incubation results (optional)

G.3.    Limes from industrial processes



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria to be declared

1

2

3

4

5

6

1(a)

Sugar factory lime

Product from sugar production obtained by carbonation using exclusively burnt lime from natural sources and containing as essential ingredient finely divided calcium carbonate.

Minimum neutralising value: 20

Usual trade names or alternative names may be added.

Neutralising value

Total calcium

Total magnesium (optional)

Moisture (optional)

Reactivity and method of determination (optional)

Soil incubation results (optional)

1(b)

Sugar factory lime suspension

Minimum neutralising value: 15

G.4.    Mixed limes



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria to be declared

1

2

3

4

5

6

1

Mixed lime

Product obtained by mixing types listed in sections G1 and G2.

Minimum carbonate content: 15 %

Maximum carbonate content: 90 %

The word ‘magnesian’ shall be added to the type designation if MgO ≥ 5 %.

Usual trade names or alternative names may be added.

Types as specified in sections G.1 and G.2

Neutralising value

Total calcium

Total magnesium if MgO ≥ 3 %

Soil incubation results (optional)

Moisture (optional)

G.5.    Mixtures of liming materials with other EC fertiliser types



No

Type designation

Data on method of production and essential ingredients

Minimum content of nutrients (percentage by weight)

Data on the expression of nutrients

Other requirements

Other data on the type designation

Nutrient content to be declared

Forms and solubilities of the nutrients

Other criteria to be declared

1

2

3

4

5

6

1

Mixture of [type designation in section G.1 to G.4] with [type designation in section A, B, D].

Product obtained by mixing, compacting or granulating liming materials listed in sections G.1 to G.4 with fertiliser types listed in sections A, B or D.

The following mixtures are prohibited:

— ammonium sulphate (Type A.1.4) or urea (Type A.1.9) with oxide limes or hydroxide limes listed in Section G.2;

— mixing and then compacting or granulating super phosphates of the types A.2.2(a), (b) or (c) with any of the types described in Section G.1 to G.4.

Neutralising value: 15

3 % N for mixtures containing fertiliser types with a minimum N content

3 % P2O5 for mixtures containing fertiliser types with a minimum content P2O5

3 % K2O for mixtures containing fertiliser types with a minimum content K2O

Potassium expressed as water-soluble K2O

Other requirements mentioned in the individual entries.

Neutralising Value

Nutrients according to the nutrient declarations of the individual fertiliser types.

Total calcium

Total magnesium if MgO ≥ 3 %

If the chloride content does not exceed 2 % Cl, the words ‘low in chloride’ may be added

Moisture (optional)

Fineness (optional)

▼B




ANNEX II

TOLERANCES

The tolerances given in this Annex are negative values in percentage by mass.

The tolerance allowed in respect of the declared nutrient contents in the various types of EC fertiliser are as follows:

1.   Inorganic straight primary nutrient fertilisers absolute value in percentage by mass expressed as N, P2O5, K2O, MgO, Cl

1.1.   Nitrogenous fertilisers



calcium nitrate

0,4

calcium — magnesium nitrate

0,4

sodium nitrate

0,4

chile nitrate

0,4

calcium cyanamide

1,0

nitrogenous calcium cyanamide

1,0

ammonium sulphate

0,3

Ammonium nitrate or calcium ammonium nitrate:

—  up to and including 32 %

0,8

—  more than 32 %

0,6

ammonium sulphate-nitrate

0,8

magnesium sulphonitrate

0,8

magnesium ammonium nitrate

0,8

urea

0,4

calcium nitrate suspension

0,4

nitrogen fertiliser solution with urea formaldehyde

0,4

nitrogen fertiliser suspension with urea formaldehyde

0,4

urea-ammonium sulphate

0,5

nitrogen fertiliser solution

0,6

ammonium nitrate-urea solution

0,6

1.2.   Phosphatic fertilisers



Thomas slag:

—  declaration expressed as a range of 2 % by mass

0,0

—  declaration expressed as a single number

1,0

Other phosphatic fertilisers



P2O5 solubility in:

(number of fertiliser in Annex I)

 

—  mineral acid

(3, 6, 7)

0,8

—  formic acid

(7)

0,8

—  neutral ammonium citrate

(2a, 2b, 2c)

0,8

—  alkaline ammonium citrate

(4, 5, 6)

0,8

—  water

(2a, 2b, 3)

0,9

(2c)

1,3

1.3.   Potassic fertilisers



►M10  crude potassium salt ◄

1,5

►M10  enriched crude potassium salt ◄

1,0

muriate of potash:

—  up to and including 55 %

1,0

—  more than 55 %

0,5

potassium chloride containing magnesium salt

1,5

sulphate of potash

0,5

sulphate of potash containing magnesium salt

1,5

1.4.   Other components



chloride

0,2

2.   Inorganic compound primary nutrient fertilisers

2.1.   Nutrient elements



N

1,1

P2O5

1,1

K2O

1,1

2.2.   Total negative deviations from the declared value



binary fertilisers

1,5

ternary fertilisers

1,9

3.   Secondary nutrients in fertilisers

The tolerances allowed in respect of the declared calcium, magnesium, sodium and sulphur contents shall be a quarter of the declared contents of these nutrients up to a maximum of 0,9 % in absolute terms for CaO, MgO, Na2O, and SO3, i.e. 0,64 for Ca, 0,55 for Mg, 0,67 for Na and 0,36 for S.

4.   Micro-nutrients in fertilisers

The tolerance allowed in respect of the declared micro-nutrient content shall be:

— 
0,4 % in absolute terms for a content of more than 2 %,
— 
one fifth of the declared value for a content not exceeding 2 %.

The tolerance allowed in respect of the declared content for the various forms of nitrogen or the declared solubilities of phosphorus pentoxide is one-tenth of the overall content of the nutrient concerned with a maximum of 2 % by mass, provided that the overall content of that nutrient remains within the limits specified in Annex I and the tolerances specified above.

▼M10

5.   Liming materials

The tolerances allowed in respect of the declared calcium and magnesium shall be:



Magnesium oxide:

—  up to and including 8 % MgO

1

—  between 8 % and 16 % MgO

2

—  more than 16 % MgO

3

Calcium oxide

3

The tolerance allowed in respect of the declared neutralising value shall be:



Neutralising value

3

The tolerance applicable to the declared percentage of material passing a specific sieve shall be:



Fineness

10

▼B




ANNEX III

TECHNICAL PROVISIONS FOR AMMONIUM NITRATE FERTILISERS OF HIGH NITROGEN CONTENT

1.   Characteristics of and limits for straight ammonium nitrate fertilisers of high nitrogen content

1.1.   Porosity (oil retention)

The oil retention of the fertiliser, which must first have undergone two thermal cycles of a temperature ranging from 25 to 50 °C and conforming with the provisions of part 2 of section 3. of this Annex, must not exceed 4 % by mass.

1.2.   Combustible ingredients

The percentage by mass of combustible material measured as carbon must not exceed 0,2 % for fertilisers having a nitrogen content of at least 31,5 % by mass and must not exceed 0,4 % for fertilisers having a nitrogen content of at least 28 % but less than 31,5 % by mass.

1.3.   pH

A solution of 10 g of fertiliser in 100 ml of water must have a pH of at least 4.5.

1.4.   Particle size analysis

Not more than 5 % by mass of the fertiliser must pass through a 1 mm mesh sieve and not more than 3 % by mass must pass through a 0,5 mm mesh sieve.

1.5.   Chlorine

The maximum chlorine content is set at 0,02 % by mass.

1.6.   Heavy metals

Heavy metals should not be added deliberately, and any traces which are incidental to the production process should not exceed the limit fixed by the Committee.

The copper content shall not be higher than 10 mg/kg.

No limits are specified for other heavy metals.

2.   Description of the test of resistance to detonation concerning ammonium nitrate fertilisers of high nitrogen content

The test must be carried out on a representative sample of fertiliser. Before being tested for resistance to detonation, the whole mass of the sample is to be thermally cycled five times complying with the provisions of part 3 in section 3. of this Annex.

The fertiliser must be subjected to the test of resistance to detonation in a horizontal steel tube under the following conditions:

— 
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 should be such as to maximise the detonation pressure applied to the sample in order to determine its susceptibility to the transmission of detonation,
— 
Test temperature: 15-25 °C,
— 
Witness lead cylinders for detecting detonation: 50 mm diameter and 100 mm high
— 
placed at 150 mm intervals and supporting the tube horizontally. 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 %.

3.   Methods of checking compliance with the limits specified in Annexes III-1 and III-2

Method 1   Methods for the application of thermal cycles

1.   Scope and field of application

This document defines the procedures for the application of thermal cycles prior to the execution of the oil retention test for straight ammonium nitrate fertilisers of high nitrogen content and of the test on the resistance to detonation for both, straight and compound ammonium nitrate fertiliser of high nitrogen content.

The methods of the closed thermal cycles as described in this section are regarded as simulating sufficiently the conditions to be taken into account within the scope of application of title II, chapter IV, however, these methods may not necessarily simulate all conditions arising during transport and storage;

2.   Thermal cycles referred to in Annex III-1

2.1.   Field of application

This procedure is for thermal cycling prior to determining the oil retention of the fertiliser.

2.2.   Principle and definition

In an Erlenmeyer 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.

2.3.   Apparatus

Normal laboratory apparatus, in particular:

— 
water baths thermostated at 25 (± 1) and 50 (± 1) °C respectively,
— 
Erlenmeyer flasks with an individual capacity of 150 ml.

2.4.   Procedure

Put each test sample of 70 (± 5) grams into an Erlenmeyer flask which is then sealed with a stopper.

Move each flask every two hours from the 50 °C bath to the 25 °C bath and vice versa.

Maintain the water in each bath at constant temperature and keep in motion by rapid stirring to ensure the water level comes above the level of the sample. Protect the stopper from condensation by a foam rubber cap.

3.   Thermal cycles to be used for Annex III-2

3.1.   Field of application

This procedure is for thermal cycling prior to the execution of the detonability test.

3.2.   Principle and definition

In a watertight 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 detonability test.

3.3.   Apparatus

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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 should be large enough to guarantee ample circulation of the water.
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A stainless steel box, watertight all around and provided with a thermocouple in the centre. The outside width of the box is 45 (± 2) mm and the wall thickness is 1,5 mm (see Figure 1). 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.

3.4.   Procedure

Place a quantity of fertilisers sufficient for a single detonation into the box and close the cover. Place the box in the water bath. Heat the water 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 cool the water. One hour after the temperature at the centre has reached 25 °C heat the water to start the second cycle. In the case of two water baths, transfer the box to the other bath after each heating/cooling period.

Figure 1