kSIST-TS FprCEN/TS 17701-3:2021

SLOVENSKI STANDARD
kSIST-TS FprCEN/TS 17701-3:2021
01-november-2021
Rastlinski biostimulansi - Določevanje določenih elementov - 3. del: Določevanje
živega srebra

Plant biostimulants - Determination of specific elements - Part 3: Determination of

Biostimulanzien für die pflanzliche Anwendung - Bestimmung spezifischer Elemente -

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

Biostimulants des plantes - Détermination des Biostimulanzien für die pflanzliche Anwendung -

éléments spécifiques - Partie 3 : Détermination du Bestimmung spezifischer Elemente - Teil 3:

This draft Technical Specification is submitted to CEN members for Vote. It has been drawn up by the Technical Committee

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,

Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,

Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are

Warning : This document is not a Technical Specification. It is distributed for review and comments. It is subject to change

© 2021 CEN All rights of exploitation in any form and by any means reserved Ref. No. FprCEN/TS 17701-3:2021 E

European foreword ....................................................................................................................................................... 3

Introduction .................................................................................................................................................................... 4

1 Scope .................................................................................................................................................................... 5

2 Normative references .................................................................................................................................... 5

3 Terms and definitions ................................................................................................................................... 5

4 Principle ............................................................................................................................................................. 5

5 Interferences .................................................................................................................................................... 6

6 Reagents ............................................................................................................................................................. 6

7 Apparatus ........................................................................................................................................................... 7

8 Procedure........................................................................................................................................................... 8

9 Calculation and expression of the results .............................................................................................. 9

10 Test report ...................................................................................................................................................... 10

Annex A (informative) Methods for mercury determination .................................................................... 11

A.1 Cold vapour generation (hydride generation) .................................................................................. 11

A.2 Direct amalgamation technique ............................................................................................................. 12

A.3 Inductively coupled plasma mass spectrometry (ICP-MS)............................................................ 12

Bibliography ................................................................................................................................................................. 13

This document (FprCEN/TS 17701-3:2021) has been prepared by the Technical Committee CEN/TC 455

The CEN/TS 17701 series, Plant biostimulants - Determination of specific elements, consists of the

— CEN/TS 17701-1, Plant biostimulants - Determination of specific elements - Part 1: Digestion by aqua

— CEN/TS 17701-2, Plant biostimulants - Determination of specific elements - Part 2: Determination of

— CEN/TS 17701-3, Plant biostimulants - Determination of specific elements - Part 3: Determination of

This document was prepared by the experts of CEN/TC 455 ‘Plant Biostimulants’. The European

Committee for Standardization (CEN) was requested by the European Commission (EC) to draft

European standards or European standardization deliverables to support the implementation of

Regulation (EU) 2019/1009 of 5 June 2019 laying down rules on the making available on the market of

This request, presented as SR M/564, also contributes to the Communication on “Innovating for

Sustainable Growth: A Bio economy for Europe”. The Working Group 4 “Other safety parameters”, was

created to develop a work program as part of this Request. The technical committee CEN/TC 455 ‘Plant

Biostimulants’ was established to carry out the work program that will prepare a series of standards. The

interest in biostimulants has increased significantly in Europe as a valuable tool to use in agriculture.

Standardization was identified as having an important role in order to promote the use of biostimulants.

The work of CEN/TC 455 seeks to improve the reliability of the supply chain, thereby improving the

confidence of farmers, industry, and consumers in biostimulants, and will promote and support

The preparation of this document is based on a standardization request to CEN by the European

Commission and the European Free Trade Association (Mandate M/564) concerning the modernization

of methods of analysis of fertilizers in the framework of Regulation (EU) 2019/1009 of the European

This document concerns the analytical measurement step for the determination of mercury in plant

biostimulants after digestion by aqua regia according to CEN/TS 17701-1. The standard covers cold

vapour generation followed by mercury determination using atomic absorption spectrophotometry

(AAS). Different cold vapour generation techniques can be used (flow injection, segmented flow, batch).

The standard also includes a method based on a direct amalgamation technique which is widely used in

many analytical laboratories. It is also possible to use other suitable methods of mercury determination

described in Annex A if users prove that the methods give the same results as the methods described in

WARNING – Persons using this document should be familiar with usual laboratory practice. This

document does not purport to address all of the safety issues, if any, associated with its use. It is

the responsibility of the user to establish appropriate health and safety practices and to ensure

IMPORTANT – It is absolutely essential that tests conducted according to this document are

This document specifies a method for determination of the content of mercury (Hg) in plant biostimulants

using (cold) vapour generation apparatus coupled to an atomic absorption spectrophotometer and a

method using a direct amalgamation technique. It is applicable to aqua regia digests prepared according

NOTE It is also possible to use other suitable methods for the determination of mercury described in Annex A

if users prove that the method gives the same results as the methods described in this document.

This document is also applicable to the blends of fertilizing products where plant biostimulants are the

main part of the blend. Otherwise, the Technical Specification for the main part of the blend applies.

The following documents are referred to in the text in such a way that some or all of their content

constitutes requirements of this document. For dated references, only the edition cited applies. For

undated references, the latest edition of the referenced document (including any amendments) applies.

CEN/TS 17701-1, Plant biostimulants - Determination of specific elements - Part 1: Digestion by aqua regia

solution received after mineralization of the organic matter of a sample and dissolution of its mineral

Mono- and divalent mercury is reduced to the elemental form by tin(II) chloride or sodium borohydride

in an acid medium. Elemental mercury is stripped off from the solution and determined in the form of an

The sample is thermally decomposed in an oxygen rich environment. The decomposition products are

carried to an amalgamator that selectively traps mercury. After the system is flushed with oxygen to

remove any remaining gases or decomposition products, the amalgamator is rapidly heated, releasing

mercury vapour. Flowing oxygen carries the mercury vapour through absorbance cells positioned in the

light path of a single wavelength atomic absorption spectrophotometer. Absorbance is measured at

The matrix of the solution analysed is dominated by the acids used in the digestion step. Tin(II) chloride

as a reduction substance is recommended, because sodium borohydride reduces many elements

commonly found in plant biostimulant digests to the elemental state, which may cause matrix problems

under particular circumstances. However, it is still possible to use sodium borohydride as a reduction

agent. The interferences due to the presence of other elements in the matrix depend on its concentrations.

Copper and nickel exceeding a concentration of 500 mg/l may cause a negative bias.

Instruments with an amalgamation technique are very often used for a direct determination of mercury

in samples without a digestion step. Nevertheless, some solid samples (e.g. silicates or phosphates) may

not be fully thermally decomposed and therefore in this case or if an unknown sample is analysed, the

analysis of aqua regia digests is preferable. For plant biostimulants usually no difference is observed

between the direct determination of mercury and the determination of mercury after digestion in aqua

6.1 Water with a specific conductivity not higher than 0,2 mS/m at 25 °C, free from mercury.

Argon or nitrogen for VG-AAS, oxygen for DA, purity according to the recommendation of the

6.3 Hydrochloric acid, c(HCl) ≈ 12 mol/l; 37 % volume fraction; ρ approximately 1,18 g/ml.

6.4 Nitric acid, c(HNO ) ≈ 16 mol/l; not less than 65 % volume fraction; ρ approximately

6.5 Mixed acid solution of 0,8 mol/l nitric acid and 1,8 mol/l hydrochloric acid

Mix 150 ml of hydrochloric acid (6.3) and 50 ml nitric acid (6.4) to 1,0 l of water (6.1).

Tin(II) chloride or sodium borohydride may be used as the reducing agent, but it is not advisable to use

the two reagents alternately. Follow the instructions of the manufacturers of the apparatus. The

concentration by mass of the reducing agent solutions may be varied to suit the system, and the relevant

Dissolve 10 g of SnCl ∙ 2 H O in 30 ml of hydrochloric acid (6.3), transfer to a 100 ml volumetric flask

and fill to the mark with water (6.1). The blank concentration of mercury can be reduced by bubbling a

stream of nitrogen through the solution for 30 min, if necessary. Prepare this solution on the day of use.

1 g sodium hydroxide, NaOH, is weighed into a 100 ml volumetric flask and dissolved in water (6.1). 3 g

sodium borohydride, NaBH , are weighed into a 100 ml volumetric flask, dissolved and diluted to the

A solution of lower concentration, e.g. 3 g/l may be used with flow systems. Prepare this solution freshly

on the day of use from the more concentrated solution by diluting with water (6.1). Follow the

WARNING – It is essential to observe the safety instructions for working with sodium borohydride.

Sodium borohydride forms hydrogen with acids and this can result in an explosive air/hydrogen mixture.