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SIST EN ISO 19040-2:2023

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Water quality - Determination of the estrogenic potential of water and waste water - Part 2: Yeast estrogen screen (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

Water quality - Determination of the estrogenic potential of water and waste water - Part 2: Yeast estrogen screen (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

This document specifies a method for the determination of the estrogenic potential of water and waste water by means of a reporter gene assay with a genetically modified yeast strain Arxula adeninivorans. This reporter gene assay is based on the activation of the human estrogen receptor alpha.
Arxula adeninivorans is a highly robust and salt- and temperature-tolerant test organism and is especially suitable for the analysis of samples with high salinity (conductivity up to 70 mS/cm). The test organism can be cultivated in medium with sodium chloride content up to 20 %.
This method is applicable to:
—          fresh water;
—          waste water;
—          sea water;
—          brackish water;
—          aqueous extracts and leachates;
—          eluates of sediments (fresh water);
—          pore water;
—          aqueous solutions of single substances or of chemical mixtures;
—          drinking water.
The limit of quantification (LOQ) of this method for the direct analysis of water samples is between 1,5 ng/l and 3 ng/l 17β-estradiol equivalents (EEQ). The upper threshold of the dynamic range for this test is between 25 ng/l and 40 ng/l 17β-estradiol equivalents (EEQ). Samples showing estrogenic potencies above this threshold have to be diluted for a valid quantification. Extraction and pre-concentration of water samples can prove necessary, if their estrogenic potential is below the given LOQ.
An international interlaboratory trial for the validation of this document has been carried out. The results are summarized in Annex F.
NOTE       Extraction and pre-concentration of water samples can prove necessary.

Wasserbeschaffenheit - Bestimmung des estrogenen Potentials von Wasser und Abwasser - Teil 2: Hefe-Estrogenscreening (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

Dieses Dokument legt ein Verfahren zur Bestimmung des estrogenen Potentials von Wasser und Abwasser mittels eines Reportergen-Assays mit einem gentechnisch veränderten Hefestamm von Arxula adeninivorans fest. Dieser Reportergen-Assay beruht auf der Aktivierung des humanen Estrogenrezeptors alpha.
Arxula adeninivorans ist ein sehr robuster sowie salz- und temperaturtoleranter Testorganismus, welcher besonders für die Analyse von Proben mit hohem Salzgehalt (Leitfähigkeit bis 70 mS/cm) geeignet ist. Der Testorganismus kann in einem Medium mit einem Natriumchloridgehalt von bis zu 20 % kultiviert werden.
Dieses Verfahren ist anwendbar auf:
   Süßwasser;
   Abwasser;
   Meerwasser;
   Brackwasser;
   wässrige Extrakte und Sickerwasser;
   Eluate von Sedimenten (Süßwasser);
   Porenwasser;
   wässrige Lösungen von Einzelsubstanzen oder von chemischen Gemischen;
   Trinkwasser.
Die Bestimmungsgrenze (LOQ) dieser Methode zur direkten Analyse von Wasserproben liegt zwischen 1,5 ng/l und 3 ng/l 17β Estradiol-Äquivalenten (EEQ). Der obere Schwellenwert des dynamischen Bereichs für diesen Test liegt zwischen 25 ng/l und 40 ng/l 17β Estradiol-Äquivalenten (EEQ). Proben, die estrogenes Potenzial oberhalb dieser Schwelle zeigen, müssen für eine gültige Quantifizierung verdünnt werden. Die Extraktion und Aufkonzentrierung von Wasserproben kann sich als notwendig erweisen, wenn ihr estrogenes Potential unter der angegebenen LOQ liegt.
Es wurde ein internationaler Ringversuch zur Validierung der Methode durchgeführt. Die Ergebnisse sind in Anhang F zusammengefasst.
ANMERKUNG   Eine Extraktion und Aufkonzentrierung von Wasserproben kann sich als notwendig erweisen.
WARNUNG —Anwender dieses Dokuments sollten mit der üblichen Laborpraxis vertraut sein. Dieses Dokument gibt nicht vor, alle unter Umständen mit der Anwendung des Verfahrens verbundenen Sicherheitsaspekte anzusprechen. Es liegt in der Verantwortung des Arbeitgebers, angemessene Sicherheits- und Schutzmaßnahmen zu treffen und sicherzustellen.
WICHTIG — Es ist erforderlich, bei den Untersuchungen nach diesem Dokument Fachleute oder Facheinrichtungen einzuschalten.

Qualité de l'eau - Détermination du potentiel oestrogène de l'eau et des eaux résiduaires - Partie 2: Test d'oestrogénicité (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

Le présent document spécifie une méthode permettant de déterminer le potentiel œstrogénique de l’eau et des eaux résiduaires au moyen d’un essai avec un gène rapporteur à l’aide d’une souche de levure génétiquement modifiée Arxula adeninivorans. Cet essai avec gène rapporteur se fonde sur l’activation du récepteur des œstrogènes humains alpha. L’essai détecte la fraction du potentiel œstrogénique ou de l’œstrogénicité d’un échantillon qui est induite par les molécules interagissant avec le récepteur; il ne répond pas aux molécules ayant des modes d’action qui ne passent pas directement par le récepteur comme les modulateurs de la stéroïdogenèse, du transport ou de la clairance des stéroïdes sexuels.
L’essai A-YES (essai d’œstrogénicité sur levure Arxula) est un essai avec gène rapporteur qui peut être utilisé pour mesurer l'activation du récepteur alpha des œstrogènes humains (ERα) en présence d'un échantillon contenant des composés qui provoquent des effets œstrogéniques en interagissant avec le récepteur. Ainsi, le dosage détecte l’activité œstrogénique de l’ensemble de l’échantillon dans son état réel comme une mesure intégrale incluant les effets additifs, synergique et antagoniste possibles du mélange sur le récepteur des œstrogènes humains.
Arxula adeninivorans est un organisme d’essai très robuste, résistant au sel et à la température qui est particulièrement adapté à l’analyse d’échantillons ayant une salinité élevée (conductivité jusqu’à 70 mS/cm). L’organisme d’essai peut être cultivé dans un milieu contenant jusqu’à 20 % de chlorure de sodium.
Cette méthode est applicable:
—    aux eaux douces;
—    aux eaux résiduaires;
—    à l’eau de mer;
—    à l’eau saumâtre;
—    aux extraits aqueux et lixiviats;
—    aux éluats de sédiments (eau douce);
—    aux eaux interstitielles;
—    aux solutions aqueuses contenant des substances uniques ou des mélanges chimiques;
—    à l’eau potable.
La limite de quantification (LDQ) de cette méthode pour l’analyse directe d’échantillons d’eau est comprise entre 1,5 ng/l et 3 ng/l d’équivalents 17β-œstradiol (EEQ). Le seuil supérieur de la gamme dynamique pour cet essai est compris entre 25 ng/l et 40 ng/l d’équivalent 17β-œstradiol (EEQ). Les échantillons présentant un potentiel œstrogénique supérieur à ce seuil doivent être dilués pour une quantification valable. L’extraction et la préconcentration des échantillons d’eau peuvent s’avérer nécessaires, si leur potentiel œstrogénique est inférieur à la LDQ donnée.
Un essai interlaboratoires international a été réalisé pour la validation du présent document. L’Annexe F fournit un récapitulatif des résultats.
NOTE         L’extraction et la préconcentration des échantillons d’eau peuvent s’avérer nécessaires.

Kakovost vode - Določanje estrogenega potenciala vode in odpadne vode - 2. del: Presejalni preskus s kvasovkami (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

Ta dokument opisuje metodo za določevanje estrogenskega potenciala vode in odpadne vode z uporabo poročevalskega gena z gensko spremenjenimi sevi kvasovk Arxula adeninivorans. Poročevalski gen temelji na aktiviranju človeškega estrogenskega receptorja alfa.
Arxula adeninivorans je zelo robusten preskusni organizem, odporen na sol in temperaturo, in je posebej primeren za analiziranje vzorcev z zelo visoko vsebnostjo soli (prevodnost do 70 mS/cm). Preskusne organizme je mogoče gojiti v mediju z vsebnostjo natrijevega klorida do 20 %.
Ta metoda se uporablja za:
–          sladko vodo;
–          odpadno vodo;
–          morsko vodo;
–          somornico;
–          vodne ekstrakte in izcedne vode;
–          izlužke sedimentov (sladka voda);
–          porno vodo;
–          vodne raztopine posameznih snovi ali kemičnih mešanic;
–          pitno vodo.
Mejna vrednost kvantifikacije (LOQ) te metode za neposredno analizo vzorcev vode je med 1,5 ng/l in 3 ng/l 17β-estradiol ekvivalentov (EEQ). Zgornja mejna vrednost dinamičnega razpona za ta preskus je med 25 ng/l in 40 ng/l 17β-estradiol ekvivalentov (EEQ). Vzorce, ki kažejo estrogene potence nad to mejo, je treba za veljavno kvantifikacijo razredčiti. Če je estrogenski potencial pod določeno mejno vrednostjo kvantifikacije, je morda potrebna ekstrakcija in predkoncentracija vzorcev vode.
Izveden je bil mednarodni medlaboratorijski preskus za ovrednotenje tega dokumenta. Rezultati so povzeti v dodatku F.
OPOMBA: Morda je potrebna ekstrakcija in predkoncentracija vodnih vzorcev.

General Information

Status
Published
Public Enquiry End Date
02-Aug-2022
Publication Date
11-May-2023
ICS
13.060.70 - Examination of biological properties of water
Technical Committee
KAV - Water quality
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
05-Dec-2022
Due Date
09-Feb-2023
Completion Date
12-May-2023
Ref Project
EN ISO 19040-2:2022 - Water quality - Determination of the estrogenic potential of water and waste water - Part 2: Yeast estrogen screen (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)

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SLOVENSKI STANDARD
SIST EN ISO 19040-2:2023
01-junij-2023
Kakovost vode - Določanje estrogenega potenciala vode in odpadne vode - 2. del:
Presejalni preskus s kvasovkami (A-YES, Arxula adeninivorans) (ISO 19040-
2:2018)
Water quality - Determination of the estrogenic potential of water and waste water - Part
2: Yeast estrogen screen (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)
Wasserbeschaffenheit - Bestimmung des estrogenen Potentials von Wasser und
Abwasser - Teil 2: Hefe-Estrogenscreening (A-YES, Arxula adeninivorans) (ISO 19040-
2:2018)
Qualité de l'eau - Détermination du potentiel oestrogène de l'eau et des eaux résiduaires
- Partie 2: Test d'oestrogénicité (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)
Ta slovenski standard je istoveten z: EN ISO 19040-2:2022
ICS:
13.060.70 Preiskava bioloških lastnosti Examination of biological
vode properties of water
SIST EN ISO 19040-2:2023 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN ISO 19040-2:2023

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SIST EN ISO 19040-2:2023


EN ISO 19040-2
EUROPEAN STANDARD

NORME EUROPÉENNE

September 2022
EUROPÄISCHE NORM
ICS 13.060.70
English Version

Water quality - Determination of the estrogenic potential
of water and waste water - Part 2: Yeast estrogen screen
(A-YES, Arxula adeninivorans) (ISO 19040-2:2018)
Qualité de l'eau - Détermination du potentiel Wasserbeschaffenheit - Bestimmung des estrogenen
oestrogène de l'eau et des eaux résiduaires - Partie 2: Potentials von Wasser und Abwasser - Teil 2: Hefe-
Test d'oestrogénicité (A-YES, Arxula adeninivorans) Estrogenscreening (A-YES, Arxula adeninivorans) (ISO
(ISO 19040-2:2018) 19040-2:2018)
This European Standard was approved by CEN on 19 September 2022.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.

This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

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, Türkiye and
United Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2022 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN ISO 19040-2:2022 E
worldwide for CEN national Members.

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SIST EN ISO 19040-2:2023
EN ISO 19040-2:2022 (E)
Contents Page
European foreword . 3

2

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SIST EN ISO 19040-2:2023
EN ISO 19040-2:2022 (E)
European foreword
The text of ISO 19040-2:2018 has been prepared by Technical Committee ISO/TC 147 "Water quality”
of the International Organization for Standardization (ISO) and has been taken over as EN ISO 19040-
2:2022 by Technical Committee CEN/TC 230 “Water analysis” the secretariat of which is held by DIN.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by March 2023, and conflicting national standards shall
be withdrawn at the latest by March 2023.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
Any feedback and questions on this document should be directed to the users’ national standards body.
A complete listing of these bodies can be found on the CEN website.
According to the CEN-CENELEC Internal Regulations, the national standards organizations of the
following countries are bound to implement this European Standard: 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, Türkiye and the
United Kingdom.
Endorsement notice
The text of ISO 19040-2:2018 has been approved by CEN as EN ISO 19040-2:2022 without any
modification.

3

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SIST EN ISO 19040-2:2023

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SIST EN ISO 19040-2:2023
INTERNATIONAL ISO
STANDARD 19040-2
First edition
2018-08
Water quality — Determination of
the estrogenic potential of water and
waste water —
Part 2:
Yeast estrogen screen (A-YES, Arxula
adeninivorans)
Qualité de l'eau — Détermination du potentiel oestrogène de l'eau et
des eaux résiduaires —
Partie 2: Test d'oestrogénicité (A-YES, Arxula adeninivorans)
Reference number
ISO 19040-2:2018(E)
©
ISO 2018

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2018
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
on the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address
below or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Fax: +41 22 749 09 47
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii © ISO 2018 – All rights reserved

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

Contents Page
Foreword .v
1 Scope . 1
2 Normative references . 2
3 Terms and definitions . 2
4 Principle . 4
5 Interferences . 4
6 Apparatus and materials. 4
7 Reagents, media and test strains . 5
8 Sampling and samples . 9
8.1 General . 9
8.2 Bottles and material for sampling . 9
8.3 Bottles and material pre-cleaning .10
8.4 Sampling procedure .10
8.5 Transport of samples .10
8.6 Pretreatment of samples .10
8.7 Storage of samples .11
9 Procedure.11
9.1 Test set up .11
9.1.1 Preparation of the reference dilution series .11
9.1.2 Reactivation of the yeast .11
9.1.3 Negative control .12
9.1.4 Blank replicate .12
9.1.5 Sample dilution .12
9.1.6 Field blank .13
9.1.7 Plate set up .13
9.1.8 Inoculation of the test plate .13
9.2 Measurement .14
9.2.1 Measurement of the reporter gene activity .14
9.2.2 Measurement of the cell density .15
9.3 Calculations .15
9.3.1 Background correction .15
9.3.2 Calculation of the relative growth .16
9.3.3 Calculations for assessment of sample blanks .17
9.3.4 Calculation of the reporter gene induction .19
10 Validity criteria .22
11 Assessment criteria .23
12 Test report .23
13 Verification .23
Annex A (informative) Plate set up .25
Annex B (informative) Lyophilization of Arxula adeninivorans cells .26
Annex C (informative) Scheme of test principle .28
Annex D (informative) Test set up for chemicals and extracts .29
Annex E (informative) Preparation of dilution series .30
Annex F (informative) Performance data .31
Annex G (informative) Statistical assessment .41
© ISO 2018 – All rights reserved iii

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

Annex H (informative) Calculation of estradiol equivalents.42
Annex I (informative) Alternative test design for EEQ determination .45
Annex J (informative) Measurement of the lowest ineffective dilution (LID) of a waste water
— A simplified evaluation for testing of waste water .46
Annex K (informative) Example for statistical evaluation .48
Bibliography .55
iv © ISO 2018 – All rights reserved

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see the following
URL: www .iso .org/iso/foreword .html.
This document was prepared by Technical Committee ISO/TC 147, Water quality, Subcommittee SC 5,
Biological methods.
A list of all parts in the ISO 19040 series can be found on the ISO website.
© ISO 2018 – All rights reserved v

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SIST EN ISO 19040-2:2023

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SIST EN ISO 19040-2:2023
INTERNATIONAL STANDARD ISO 19040-2:2018(E)
Water quality — Determination of the estrogenic potential
of water and waste water —
Part 2:
Yeast estrogen screen (A-YES, Arxula adeninivorans)
WARNING — Persons using this document should be familiar with normal laboratory practice.
This document does not purport to address all of the safety problems, if any, associated with its
use. It is the responsibility of the user to establish appropriate safety and health practices.
IMPORTANT — It is absolutely essential that tests conducted in accordance with this document
be carried out by suitably trained staff.
1 Scope
This document specifies a method for the determination of the estrogenic potential of water and waste
water by means of a reporter gene assay with a genetically modified yeast strain Arxula adeninivorans.
This reporter gene assay is based on the activation of the human estrogen receptor alpha.
Arxula adeninivorans is a highly robust and salt- and temperature-tolerant test organism and is
especially suitable for the analysis of samples with high salinity (conductivity up to 70 mS/cm). The test
organism can be cultivated in medium with sodium chloride content up to 20 %.
This method is applicable to:
— fresh water;
— waste water;
— sea water;
— brackish water;
— aqueous extracts and leachates;
— eluates of sediments (fresh water);
— pore water;
— aqueous solutions of single substances or of chemical mixtures;
— drinking water.
The limit of quantification (LOQ) of this method for the direct analysis of water samples is between
1,5 ng/l and 3 ng/l 17β-estradiol equivalents (EEQ). The upper threshold of the dynamic range for
this test is between 25 ng/l and 40 ng/l 17β-estradiol equivalents (EEQ). Samples showing estrogenic
potencies above this threshold have to be diluted for a valid quantification. Extraction and pre-
concentration of water samples can prove necessary, if their estrogenic potential is below the given LOQ.
An international interlaboratory trial for the validation of this document has been carried out. The
results are summarized in Annex F.
NOTE Extraction and pre-concentration of water samples can prove necessary.
© ISO 2018 – All rights reserved 1

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

2 Normative references
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.
ISO 3696, Water for analytical laboratory use — Specification and test methods
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https: //www .iso .org ./obp
— IEC Electropedia: available at http: //www .electropedia .org/
3.1
blank replicate
additional replicate that contains no test organism, but is treated in the same way as the other replicates
of a sample
[SOURCE: ISO 10872:2010, 3.5]
3.2
culture medium
nutrients presented in a form and phase (liquid or solidified) which support microbiological growth
3.3
dilution level
D
denominator of the dilution coefficient (using the numerator 1) of a mixture of water or waste water
with dilution water as integral number
Note 1 to entry: For undiluted water or waste water, this coefficient per definition is 1→1. The corresponding and
smallest possible value of D is 1. In this document, the arrow indicates the transition from initial total volume to
final total volume.
[SOURCE: ISO 6107-6:2004, 28]
3.4
dilution water
water added to the test sample to prepare a series of defined dilutions
[SOURCE: ISO 20079:2005, 3.7]
3.5
50 % effect concentration
EC
50
concentration of a compound which causes 50 % of an effect
Note 1 to entry: In the sense of this document the EC is the concentration of a compound which induces 50 % of
50
the maximal reporter gene activity which can be achieved by this compound.
3.6
field blank
container prepared in the laboratory, using reagent water or other blank matrix, and sent with the
sampling personnel for exposure to the sampling environment to verify possible contamination during
sampling
[SOURCE: ISO 11074:2015, 4.5.3]
2 © ISO 2018 – All rights reserved

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SIST EN ISO 19040-2:2023
ISO 19040-2:2018(E)

3.7
growth rate
proportional rate of increase in cell density
[SOURCE: ISO 10253:2006, 3.2]
3.8
induction rate
quotient of the mean value of wells with enhanced reporter gene activity measured on the plates
treated with a dose of the test sample, and the mean value of the corresponding wells treated with the
negative control using the same strain under identical conditions
Note 1 to entry: Instead of the negative control, the estimated parameter A of the four-parameter model, which
describes the dose response relationship between reference compound and the induction rate, can be used.
[SOURCE: ISO 6107-6:2004, 43, modified — "wells with enhanced reporter gene activity measured"
replaces "mutant colonies"; "corresponding wells" replaces "corresponding plates"; “quotient” replaces
“difference”.]
3.9
inoculum
fraction of a culture of microorganisms used to start a new culture, or an exponentially growing
preculture, in fresh medium
[SOURCE: ISO 6107-6:2004, 44]
3.10
lowest ineffective dilution value
LID
lowest dilution within a test batch which does not show any effect, i.e. no statistically significant
increase in the reporter gene activity compared with the negative control
[SOURCE: ISO 11350:2012, 3.4, modified — “increase in the reporter gene activity” replaces “increase
in the number of revertant wells”.]
3.11
negative control
dilution water without test sample
[SOURCE: ISO 6107-6:2004, 51]
3.12
reference compound
compound with one or more property values that are sufficiently reproducible and well established to
enable the calibration of the measurement method
[SOURCE: ISO 7405:2008, 3.6, modified — “compound” replaces “material”; “the calibration of the
measurement method” replaces “use of the material or substance for the calibration of an apparatus,
the assessment of a measurement method or for the assignment of values to materials”.]
3.13
reporter gene activity
quantitative activity of a gene attached to the promoter sequence of another gene
3.14
test sample
undiluted, diluted or otherwise prepared portion of a sample to be tested, after completion of all
preparation steps such as centrifugation, filtration, homogenization, pH adjustment and determination
of ionic strength
[SOURCE: ISO 6107-6:2004, 92]
© ISO 2018 – All rights reserved 3

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SIST EN ISO 19040-2:2023
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4 Principle
The A-YES (Arxula Yeast Estrogen Screen) is a reporter gene assay which can be used for the
measurement of the activation of the human estrogen receptor alpha (ERα) in the presence of a sample
containing compounds which cause estrogenic effects. By this means the assay detects the estrogenic
activity of the whole sample in its actual state as an integral measure including possible additive,
synergistic and antagonistic mixture-effects.
The human estrogen receptor α is constitutively expressed in the yeast cell under control of a TEF1
promoter. The estrogen receptor belongs to the family of nuclear hormone receptors. If agonists of the
estrogen receptor enter the yeast cell, they bind to the estrogen receptor protein and thus induce its
conformational change. As a consequence two receptor proteins form a receptor dimer. This activation
of the estrogen receptor is measured by the induction of the reporter gene phyK which encodes the
enzyme phytase. The phyK is fused to an estrogen dependent promoter which contains estrogen
responsive elements (ERE). The ER-dimer binds to the promoter and by this activates the expression
and secretion of the phytase. Finally, the activity of the phytase as a measure for the estrogenic
potential of the sample is determined using an appropriate substrate which is cleaved to a coloured
reaction product. The reaction product can be measured photometrically. See Annex C for a scheme of
the test principle.
5 Interferences
Coloured or turbid samples might interfere with the photometric detection of the cell density and/
or the detection of the cleaved substrate of the reporter enzyme phytase (see Clause 10 for further
information).
Effects of the sample matrix may lead to a reduction or increase of viable cells and to a reduction or
increase of the measurable signal. Estrogenic effects of a sample may be masked by matrix effects
leading to false negative or false positive test results.
High salinity can cause toxic effects due to the resulting osmotic pressure. The conductivity of a sample
is a measure for its salinity. The Arxula adeninivorans yeast tolerates a conductivity of the sample up to
20 % sodium chloride which meets a conductivity of 180 mS/cm.
Bacterial growth in the test wells is assessed by the blank replicate (3.1). See Clause 10 for further
information.
If filtered samples are tested in order to remove bacteria from the sample solid particles are separated
from the sample also. Thus, substances with estrogenic activity which are adsorbed on particles might
not be detected.
For detailed information about appropriate sampling material that does not influence the test result
see Clause 8.
6 Apparatus and materials
For suitable sampling devices see Clause 8. Use usual laboratory apparatus and glassware if required.
In particular, the following material is needed:
6.1 Temperature- and time-controlled incubator shaker, shaker orbit at least 3 mm, 30 °C to
37 °C with an accuracy of ±1 °C.
If the shaker has no incubation function use a lab shaker with a shaker orbit of at least 3 mm in
combination with an incubator (6.17).
6.2 Lab mini shaker.
4 © ISO 2018 – All rights reserved

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6.3 Multi-parameter measurement device for pH and conductivity or separate devices for each
parameter.
6.4 Steam sterilizer.
6.5 Centrifuge, with a rotor for 96-well plates up to 1 000 g and a rotor for 2 ml reaction tubes.
6.6 Sterile filters, cellulose acetat, 0,2 µm pore size.
6.7 Single-channel pipettes, nominal volume 10 µl up to 10 000 µl.
6.8 Multi-channel pipettes, nominal volume 100 µl and 300 µl.
6.9 Transparent polystyrene 96-well plates with flat bottom (F-profile, 300 µl) and lid.
6.10 96-deep well plates with at least 1 ml volume with round bottom and square wells.
6.11 Microplate photometer for 96-well plates, for absorbance measurement for wavelength
405 nm ± 20 nm and 630 nm ± 5 nm o
...

SLOVENSKI STANDARD
oSIST prEN ISO 19040-2:2022
01-julij-2022
[Not translated]
Water quality - Determination of the estrogenic potential of water and waste water - Part
2: Yeast estrogen screen (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)
Wasserbeschaffenheit - Bestimmung des östrogenen Potentials von Wasser und
Abwasser - Teil 2: Hefebasierter Östrogentest (A-YES, Arxula adeninivorans) (ISO
19040-2:2018)
Qualité de l'eau - Détermination du potentiel oestrogène de l'eau et des eaux résiduaires
- Partie 2: Test d'oestrogénicité (A-YES, Arxula adeninivorans) (ISO 19040-2:2018)
Ta slovenski standard je istoveten z: prEN ISO 19040-2
ICS:
13.060.70 Preiskava bioloških lastnosti Examination of biological
vode properties of water
oSIST prEN ISO 19040-2:2022 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN ISO 19040-2:2022

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oSIST prEN ISO 19040-2:2022
INTERNATIONAL ISO
STANDARD 19040-2
First edition
2018-08
Water quality — Determination of
the estrogenic potential of water and
waste water —
Part 2:
Yeast estrogen screen (A-YES, Arxula
adeninivorans)
Qualité de l'eau — Détermination du potentiel oestrogène de l'eau et
des eaux résiduaires —
Partie 2: Test d'oestrogénicité (A-YES, Arxula adeninivorans)
Reference number
ISO 19040-2:2018(E)
©
ISO 2018

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oSIST prEN ISO 19040-2:2022
ISO 19040-2:2018(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2018
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
on the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address
below or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Fax: +41 22 749 09 47
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii © ISO 2018 – All rights reserved

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oSIST prEN ISO 19040-2:2022
ISO 19040-2:2018(E)

Contents Page
Foreword .v
1 Scope . 1
2 Normative references . 2
3 Terms and definitions . 2
4 Principle . 4
5 Interferences . 4
6 Apparatus and materials. 4
7 Reagents, media and test strains . 5
8 Sampling and samples . 9
8.1 General . 9
8.2 Bottles and material for sampling . 9
8.3 Bottles and material pre-cleaning .10
8.4 Sampling procedure .10
8.5 Transport of samples .10
8.6 Pretreatment of samples .10
8.7 Storage of samples .11
9 Procedure.11
9.1 Test set up .11
9.1.1 Preparation of the reference dilution series .11
9.1.2 Reactivation of the yeast .11
9.1.3 Negative control .12
9.1.4 Blank replicate .12
9.1.5 Sample dilution .12
9.1.6 Field blank .13
9.1.7 Plate set up .13
9.1.8 Inoculation of the test plate .13
9.2 Measurement .14
9.2.1 Measurement of the reporter gene activity .14
9.2.2 Measurement of the cell density .15
9.3 Calculations .15
9.3.1 Background correction .15
9.3.2 Calculation of the relative growth .16
9.3.3 Calculations for assessment of sample blanks .17
9.3.4 Calculation of the reporter gene induction .19
10 Validity criteria .22
11 Assessment criteria .23
12 Test report .23
13 Verification .23
Annex A (informative) Plate set up .25
Annex B (informative) Lyophilization of Arxula adeninivorans cells .26
Annex C (informative) Scheme of test principle .28
Annex D (informative) Test set up for chemicals and extracts .29
Annex E (informative) Preparation of dilution series .30
Annex F (informative) Performance data .31
Annex G (informative) Statistical assessment .41
© ISO 2018 – All rights reserved iii

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Annex H (informative) Calculation of estradiol equivalents.42
Annex I (informative) Alternative test design for EEQ determination .45
Annex J (informative) Measurement of the lowest ineffective dilution (LID) of a waste water
— A simplified evaluation for testing of waste water .46
Annex K (informative) Example for statistical evaluation .48
Bibliography .55
iv © ISO 2018 – All rights reserved

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oSIST prEN ISO 19040-2:2022
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Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see the following
URL: www .iso .org/iso/foreword .html.
This document was prepared by Technical Committee ISO/TC 147, Water quality, Subcommittee SC 5,
Biological methods.
A list of all parts in the ISO 19040 series can be found on the ISO website.
© ISO 2018 – All rights reserved v

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oSIST prEN ISO 19040-2:2022

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oSIST prEN ISO 19040-2:2022
INTERNATIONAL STANDARD ISO 19040-2:2018(E)
Water quality — Determination of the estrogenic potential
of water and waste water —
Part 2:
Yeast estrogen screen (A-YES, Arxula adeninivorans)
WARNING — Persons using this document should be familiar with normal laboratory practice.
This document does not purport to address all of the safety problems, if any, associated with its
use. It is the responsibility of the user to establish appropriate safety and health practices.
IMPORTANT — It is absolutely essential that tests conducted in accordance with this document
be carried out by suitably trained staff.
1 Scope
This document specifies a method for the determination of the estrogenic potential of water and waste
water by means of a reporter gene assay with a genetically modified yeast strain Arxula adeninivorans.
This reporter gene assay is based on the activation of the human estrogen receptor alpha.
Arxula adeninivorans is a highly robust and salt- and temperature-tolerant test organism and is
especially suitable for the analysis of samples with high salinity (conductivity up to 70 mS/cm). The test
organism can be cultivated in medium with sodium chloride content up to 20 %.
This method is applicable to:
— fresh water;
— waste water;
— sea water;
— brackish water;
— aqueous extracts and leachates;
— eluates of sediments (fresh water);
— pore water;
— aqueous solutions of single substances or of chemical mixtures;
— drinking water.
The limit of quantification (LOQ) of this method for the direct analysis of water samples is between
1,5 ng/l and 3 ng/l 17β-estradiol equivalents (EEQ). The upper threshold of the dynamic range for
this test is between 25 ng/l and 40 ng/l 17β-estradiol equivalents (EEQ). Samples showing estrogenic
potencies above this threshold have to be diluted for a valid quantification. Extraction and pre-
concentration of water samples can prove necessary, if their estrogenic potential is below the given LOQ.
An international interlaboratory trial for the validation of this document has been carried out. The
results are summarized in Annex F.
NOTE Extraction and pre-concentration of water samples can prove necessary.
© ISO 2018 – All rights reserved 1

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2 Normative references
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.
ISO 3696, Water for analytical laboratory use — Specification and test methods
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https: //www .iso .org ./obp
— IEC Electropedia: available at http: //www .electropedia .org/
3.1
blank replicate
additional replicate that contains no test organism, but is treated in the same way as the other replicates
of a sample
[SOURCE: ISO 10872:2010, 3.5]
3.2
culture medium
nutrients presented in a form and phase (liquid or solidified) which support microbiological growth
3.3
dilution level
D
denominator of the dilution coefficient (using the numerator 1) of a mixture of water or waste water
with dilution water as integral number
Note 1 to entry: For undiluted water or waste water, this coefficient per definition is 1→1. The corresponding and
smallest possible value of D is 1. In this document, the arrow indicates the transition from initial total volume to
final total volume.
[SOURCE: ISO 6107-6:2004, 28]
3.4
dilution water
water added to the test sample to prepare a series of defined dilutions
[SOURCE: ISO 20079:2005, 3.7]
3.5
50 % effect concentration
EC
50
concentration of a compound which causes 50 % of an effect
Note 1 to entry: In the sense of this document the EC is the concentration of a compound which induces 50 % of
50
the maximal reporter gene activity which can be achieved by this compound.
3.6
field blank
container prepared in the laboratory, using reagent water or other blank matrix, and sent with the
sampling personnel for exposure to the sampling environment to verify possible contamination during
sampling
[SOURCE: ISO 11074:2015, 4.5.3]
2 © ISO 2018 – All rights reserved

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3.7
growth rate
proportional rate of increase in cell density
[SOURCE: ISO 10253:2006, 3.2]
3.8
induction rate
quotient of the mean value of wells with enhanced reporter gene activity measured on the plates
treated with a dose of the test sample, and the mean value of the corresponding wells treated with the
negative control using the same strain under identical conditions
Note 1 to entry: Instead of the negative control, the estimated parameter A of the four-parameter model, which
describes the dose response relationship between reference compound and the induction rate, can be used.
[SOURCE: ISO 6107-6:2004, 43, modified — "wells with enhanced reporter gene activity measured"
replaces "mutant colonies"; "corresponding wells" replaces "corresponding plates"; “quotient” replaces
“difference”.]
3.9
inoculum
fraction of a culture of microorganisms used to start a new culture, or an exponentially growing
preculture, in fresh medium
[SOURCE: ISO 6107-6:2004, 44]
3.10
lowest ineffective dilution value
LID
lowest dilution within a test batch which does not show any effect, i.e. no statistically significant
increase in the reporter gene activity compared with the negative control
[SOURCE: ISO 11350:2012, 3.4, modified — “increase in the reporter gene activity” replaces “increase
in the number of revertant wells”.]
3.11
negative control
dilution water without test sample
[SOURCE: ISO 6107-6:2004, 51]
3.12
reference compound
compound with one or more property values that are sufficiently reproducible and well established to
enable the calibration of the measurement method
[SOURCE: ISO 7405:2008, 3.6, modified — “compound” replaces “material”; “the calibration of the
measurement method” replaces “use of the material or substance for the calibration of an apparatus,
the assessment of a measurement method or for the assignment of values to materials”.]
3.13
reporter gene activity
quantitative activity of a gene attached to the promoter sequence of another gene
3.14
test sample
undiluted, diluted or otherwise prepared portion of a sample to be tested, after completion of all
preparation steps such as centrifugation, filtration, homogenization, pH adjustment and determination
of ionic strength
[SOURCE: ISO 6107-6:2004, 92]
© ISO 2018 – All rights reserved 3

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4 Principle
The A-YES (Arxula Yeast Estrogen Screen) is a reporter gene assay which can be used for the
measurement of the activation of the human estrogen receptor alpha (ERα) in the presence of a sample
containing compounds which cause estrogenic effects. By this means the assay detects the estrogenic
activity of the whole sample in its actual state as an integral measure including possible additive,
synergistic and antagonistic mixture-effects.
The human estrogen receptor α is constitutively expressed in the yeast cell under control of a TEF1
promoter. The estrogen receptor belongs to the family of nuclear hormone receptors. If agonists of the
estrogen receptor enter the yeast cell, they bind to the estrogen receptor protein and thus induce its
conformational change. As a consequence two receptor proteins form a receptor dimer. This activation
of the estrogen receptor is measured by the induction of the reporter gene phyK which encodes the
enzyme phytase. The phyK is fused to an estrogen dependent promoter which contains estrogen
responsive elements (ERE). The ER-dimer binds to the promoter and by this activates the expression
and secretion of the phytase. Finally, the activity of the phytase as a measure for the estrogenic
potential of the sample is determined using an appropriate substrate which is cleaved to a coloured
reaction product. The reaction product can be measured photometrically. See Annex C for a scheme of
the test principle.
5 Interferences
Coloured or turbid samples might interfere with the photometric detection of the cell density and/
or the detection of the cleaved substrate of the reporter enzyme phytase (see Clause 10 for further
information).
Effects of the sample matrix may lead to a reduction or increase of viable cells and to a reduction or
increase of the measurable signal. Estrogenic effects of a sample may be masked by matrix effects
leading to false negative or false positive test results.
High salinity can cause toxic effects due to the resulting osmotic pressure. The conductivity of a sample
is a measure for its salinity. The Arxula adeninivorans yeast tolerates a conductivity of the sample up to
20 % sodium chloride which meets a conductivity of 180 mS/cm.
Bacterial growth in the test wells is assessed by the blank replicate (3.1). See Clause 10 for further
information.
If filtered samples are tested in order to remove bacteria from the sample solid particles are separated
from the sample also. Thus, substances with estrogenic activity which are adsorbed on particles might
not be detected.
For detailed information about appropriate sampling material that does not influence the test result
see Clause 8.
6 Apparatus and materials
For suitable sampling devices see Clause 8. Use usual laboratory apparatus and glassware if required.
In particular, the following material is needed:
6.1 Temperature- and time-controlled incubator shaker, shaker orbit at least 3 mm, 30 °C to
37 °C with an accuracy of ±1 °C.
If the shaker has no incubation function use a lab shaker with a shaker orbit of at least 3 mm in
combination with an incubator (6.17).
6.2 Lab mini shaker.
4 © ISO 2018 – All rights reserved

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6.3 Multi-parameter measurement device for pH and conductivity or separate devices for each
parameter.
6.4 Steam sterilizer.
6.5 Centrifuge, with a rotor for 96-well plates up to 1 000 g and a rotor for 2 ml reaction tubes.
6.6 Sterile filters, cellulose acetat, 0,2 µm pore size.
6.7 Single-channel pipettes, nominal volume 10 µl up to 10 000 µl.
6.8 Multi-channel pipettes, nominal volume 100 µl and 300 µl.
6.9 Transparent polystyrene 96-well plates with flat bottom (F-profile, 300 µl) and lid.
6.10 96-deep well plates with at least 1 ml volume with round bottom and square wells.
6.11 Microplate photometer for 96-well plates, for absorbance measurement for wavelength
405 nm ± 20 nm and 630 nm ± 5 nm or alternatively 600 nm ± 20 nm.
6.12 Air-permeable adhesive foil for deep well plates.
6.13 Reaction tubes, 2 ml.
6.14 Test tubes, 15 ml and 50 ml.
6.15 Multi-channel pipette trough.
6.16 Balance, minimum load 1 mg, d = 0,1 mg.
6.17 Incubator, 30 °C to 37 °C with an accuracy of ±1 °C. For the purpose of using the incubator in
combination with a shaker a cooled incubator is required.
7 Reagents, media and test strains
7.1 Reagents
As far as possible, use “reagent grade“-chemicals.
7.1.1 Hydrochloric acid solution, c(HCl) = 1 mol/l, molecular weight 36,46 g/mol, CAS: 7647-01-0.
7.1.2 Sodium hydroxide solution, c(NaOH) = 1 mol/l, molecular weight 40,00 g/mol, CAS: 1310-73-2.
7.1.3 Ethanol, ≥99,8 %, C H OH, molecular weight 46,07 g/mol, CAS: 64-17-5.
2 5
7.1.4 17β-estradiol, ≥98 %, C H O , molecular weight 272,38 g/mol, CAS: 50-28-2.
18 24 2
7.1.5 Maltose monohydrate, >95 %, C H O ·H O, molecular weight 360,32 g/mol, CAS: 6363-53-7.
12 22 11 2
7.1.6 Sodium nitrate, >99 %, NaNO , molecular weight 84,98 g/mol, CAS: 7631-99-4.
3
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oSIST prEN ISO 19040-2:2022
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7.1.7 Potassium dihydrogen phosphate, ≥99 %, KH PO , molecular weight 136,09 g/mol,
2 4
CAS: 7778-77-0.
7.1.8 Magnesium sulfate pure, MgSO , molecular weight 120,37 g/mol (water free), CAS: 7487-88-9.
4
7.1.9 Iron(III) chloride hexahydrate, >97 %, FeCl ·6H O, molecular weight 270,29 g/mol,
3 2
CAS: 10025-77-1.
7.1.10 Calcium nitrate, >99 %, Ca(NO ) , molecular weight 164,09 g/mol, CAS: 10124-37-5.
3 2
7.1.11 Calcium D-pantothenate, >98 %, C H CaN O molecular weight 238,27 g/mol, CAS: 137-08-6.
18 32 2 10
7.1.12 Thiamine hydrochloride, >98,5 %, C H Cl N OS, molecular weight 337,27 g/mol,
12 18 2 4
CAS: 67-03-8.
7.1.13 Niacin, >99,5 %, C H NO , molecular weight 123,11 g/mol, CAS: 59-67-6.
6 5 2
7.1.14 Pyridoxine hydrochloride, >99 %, C H NO ·HCl, molecular weight 205,64 g/mol, CAS: 58-56-0.
8 11 3
7.1.15 D-(+)-Biotin, ≥98,5 %, C H N O S, molecular weight 244,31 g/mol, CAS: 58-85-5.
10 16 2 3
7.1.16 Inositol, ≥99 %, C H O , molecular weight 180,16 g/mol, CAS: 87-89-8.
6 12 6
7.1.17 Boric acid, >99,8 %, H BO , molecular weight 61,83 g/mol, CAS: 10043-35-3.
3 3
7.1.18 Copper(II) sulfate pentahydrate, >99,5 %, CuSO ·5H O, molecular weight 249,68 g/mol,
4 2
CAS: 7758-99-8.
7.1.19 Potassium iodide, >99 %, KI molecular weight 166,00 g/mol, CAS: 7681-11-0.
7.1.20 Manganese sulfate monohydrate, >99 %, MnSO ·H O, molecular weight 169,02 g/mol,
4 2
CAS: 10034-96-5.
7.1.21 Zinc sulfate heptahydrate, >99,5 %, ZnSO ·7H O, molecular weight 287,56 g/mol, CAS:
4 2
7446-20-0.
7.1.22 Sodium molybdate dihydrate, >99,5 %, Na MoO ·2H O, molecular weight 241,95 g/mol,
2 4 2
CAS: 10102-40-6.
7.1.23 Cobalt(II) chloride for synthesis, CoCl , molecular weight 129,84 g/mol, CAS: 7646-79-9.
2
7.1.24 Trisodium citrate dihydrate, >99 %, C H Na O ·2H O, molecular weight 294,10 g/mol,
6 5 3 7 2
CAS: 6132-04-3.
7.1.25 Citric acid, >99,5 %, C H O , molecular weight 192,12 g/mol, CAS: 77-92-9.
6 8 7
7.1.26 4-Nitrophenyl phosphate disodium salt hexahydrate (pNPP), C H NNa O P·6H O, molecular
6 4 2 6 2
weight 371,14 g/mol, CAS: 333338-18-4.
7.1.27 Sodium hydroxide, ≥99 %, NaOH, molecular weight 40,00 g/mol, CAS: 1310-73-2.
6 © ISO 2018 – All rights reserved

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7.1.28 Sea salt with the specifications: chloride (Cl) 19 290 mg/l, sodium 10 780 mg/l, sulfate
2 660 mg/l, potassium 420 mg/l, calcium 400 mg/l, carbonate (bicarbonate) 200 mg/l, strontium
8,8 mg/l, boron 5,6 mg/l, bromide 56 mg/l, iodide 0,24 mg/l, lithium 0,3 mg/l, fluoride 1,0 mg/l,
magnesium (Mg) 1 320 mg/l.
7.1.29 Sodium chloride, ≥99 %, NaCl, molecular weight 58,44 g/mol, CAS: 7647-14-5.
7.1.30 Aceton (purity p.a.), C H O, molecular weight 58,08 g/mol, CAS: 67-64-1.
3 6
7.2 Water, grade 3, as defined in ISO 3696; water with conductivity up to 5 µS/cm is acceptable, or
ultrapure water.
If sterile water is needed, autoclave or sterilize by filtration (cellulose acetate, 0,2 µm).
Water as specified here is also used for the preparation of dilution water which is used for the stepwise
dilution of the test sample.
7.3 Test strain
This test strain is derived from Blastobotrys adeninivorans G1214 Syn.: Arxula adeninivoran
...

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Water quality - Determination of the estrogenic potential of water and waste water - Part 3: In vitro human cell-based reporter gene assay (ISO 19040-3:2018)
EN ISO 19040-3:2022

This document specifies a method for the determination of the estrogenic potential of water and waste water by means of a reporter gene assay utilizing stably transfected human cells. This reporter gene assay is based on the activation of the human estrogen receptor alpha.
This method is applicable to:
—          fresh water;
—          waste water;
—          aqueous extracts and leachates;
—          eluates of sediments (fresh water);
—          pore water;
—          aqueous solutions of single substances or of chemical mixtures;
—          drinking water;
—          the limit of quantification (LOQ) of this method for the direct analysis of water samples is between 0,3 ng/l and 1 ng/l 17β-estradiol equivalents (EEQ) based on the results of the international interlaboratory trial (see Annex F). The upper working range was evaluated [based on the results of the international interlaboratory trial (see Table F.3)] up to a level of 75 ng EEQ/l. Samples showing estrogenic potencies above this threshold have to be diluted for a valid quantification. Extraction and pre concentration of water samples can prove necessary if their estrogenic potential is below the given LOQ.

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SIST EN ISO 19040-1:2023(Main)
Water quality - Determination of the estrogenic potential of water and waste water - Part 1: Yeast estrogen screen (Saccharomyces cerevisiae) (ISO 19040-1:2018)
EN ISO 19040-1:2022

This document specifies a method for the determination of the estrogenic potential of water and waste water by means of a reporter gene assay with genetically modified yeast strains Saccharomyces cerevisiae. This reporter gene assay is based on the activation of the human estrogen receptor alpha.
This method is applicable to:
—          fresh water;
—          waste water;
—          aqueous extracts and leachates;
—          eluates of sediments (fresh water);
—          pore water;
—          aqueous solutions of single substances or of chemical mixtures;
—          drinking water.
The limit of quantification (LOQ) of this method for the direct analysis of water samples is between 8 ng/l and 15 ng/l 17β-estradiol equivalents (EEQ) based on the results of the international interlaboratory trial (see Annex F). The upper threshold of the dynamic range for this test is between 120 ng/l and 160 ng/l 17β-estradiol equivalents (EEQ). Samples showing estrogenic potencies above this threshold have to be diluted for a valid quantification. Extraction and pre-concentration of water samples can prove necessary, if their estrogenic potential is below the given LOQ.

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SIST EN 17805:2023(Main)
Water quality - Sampling, capture and preservation of environmental DNA from water
EN 17805:2023

Water sampling for capture of environmental DNA (eDNA) in aquatic environments. eDNA stems from organisms which are or have recently been living in the water body and does not include eDNA found in sediments or similar sample types. Covers procedures for avoiding sample contamination and ensuring DNA quality, key properties of the filtering procedure and equipment, and reporting standards.

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SIST EN ISO 16266-2:2022(Main)
Water quality - Detection and enumeration of Pseudomonas aeruginosa - Part 2: Most probable number method (ISO 16266-2:2018)
EN ISO 16266-2:2021

This document specifies a method for the enumeration of Pseudomonas aeruginosa in water. The
method is based on the growth of target organisms in a liquid medium and calculation of the most
probable number (MPN) of organisms by reference to MPN tables.
This document is applicable to a range of types of water. For example, hospital waters, drinking water
and non‐carbonated bottled waters intended for human consumption, groundwater, swimming pool
and spa pool waters including those containing high background counts of heterotrophic bacteria.
This document does not apply to carbonated bottled waters, flavoured bottle waters, cooling tower
waters or marine waters, for which the method has not been validated. These waters are, therefore,
outside the scope of this document. Laboratories can employ the method presented in this document
for these matrices by undertaking appropriate validation of performance of this method prior to use.
The test is based on a bacterial enzyme detection technology that signals the presence of P. aeruginosa
through the hydrolysis of a 7‐amino‐4‐methylcoumarin aminopeptidase substrate present in a special
reagent. P. aeruginosa cells rapidly grow and reproduce using the rich supply of amino acids, vitamins
and other nutrients present in the reagent. Actively growing strains of P. aeruginosa have an enzyme
that cleaves the 7‐amido‐coumarin aminopeptidase substrate releasing a product which fluoresces
under ultraviolet (UV) light. The test described in this document provides a confirmed result within
24 h with no requirement for further confirmation of positive wells.

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SIST EN ISO 10872:2021(Main)
Water and soil quality - Determination of the toxic effect of sediment and soil samples on growth, fertility and reproduction of Caenorhabditis elegans (Nematoda) (ISO 10872:2020)
EN ISO 10872:2021

This document specifies a method for determining the toxicity of environmental
samples on growth, fertility and reproduction of Caenorhabditis elegans. The method applies
to contaminated whole fresh water sediment (maximum salinity 5 ‰), soil and waste, as well
as to pore water, elutriates and aqueous extracts that were obtained from contaminated
sediment, soil and waste.

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SIST EN 14614:2021(Main)
Water quality - Guidance standard for assessing the hydromorphological features of rivers
EN 14614:2020

This document is focused on the structural features of rivers, on geomorphological and hydrological processes, and on river continuity. It provides guidance on the features and processes to be taken into account when characterizing and assessing the hydromorphology of rivers. It is based on methods developed, tested, and compared in Europe. Its main aim is to improve the comparability of hydromorphological assessment methods, data processing and interpretation. Although it has particular importance for the WFD by providing guidance on assessing hydromorphological quality, it has considerably wider scope for other applications. In addition, while recognizing the important influence of hydromorphology on plant and animal ecology, no attempt is made to provide guidance in this area, but where the biota have an important influence on hydromorphology these influences are included.
NOTE   A case study illustrating the application of this standard is given in Gurnell and Grabowski[1].

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SIST ISO 17995:2020
Water quality - Detection and enumeration of thermotolerant Campylobacter species
ISO 17995:2019

This standard specifies a method for the detection, semi-quantitative and quantitative (MPN) enumeration of thermotolerant Campylobacter species. The method can be applied to all kinds of waters including: drinking water, ground water and well water, fresh, brackish and saline surface water, swimming pools, spa and hydrotherapy pools, recreational waters, agricultural waters and runoff, untreated and treated wastewater and also sand and other sediments. This method can be used for the detection of Campylobacter species in a specified sample volume. Clean water samples with low turbidity can be membrane filtered for either a qualitative method, semiquantitative or quantitative (MPN) method. Water samples with higher turbidity, such as primary and secondary wastewater effluents and sediments, are analysed using the same qualitative, semiquantitative or quantitative MPN method by direct inoculation of material into bottles or tubes. Sediments can be suspended in a suitable diluent or inoculated directly into enrichment broths. Users wishing to employ this method are expected to verify its performance for the particular matrix under their own laboratory conditions.

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SIST EN 17211:2019(Main)
Water quality - Guidance on mapping of seagrasses and macroalgae in the eulittoral zone
EN 17211:2019

This document provides guidance for survey design, equipment specification, survey methods, sampling and data handling of macroalgae and marine angiosperms such as Zostera in the intertidal soft bottom environment. It does not include polyeuryhaline terrestrial angiosperms that are found in saltmarshes. Ruppia is a genus of angiosperms that can be found in brackish water. This document can also be applied to the study of Ruppia in these environments.
The document comprises:
-   development of a mapping and sampling programme;
-   requirements for mapping and sampling equipment;
-   procedures for remote sensing data collection;
-   procedures for direct mapping and sampling in the field;
-   recommendations for taxon identification and biomass determination;
-   data handling.

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SIST-TS ISO/TS 12869:2019
Water quality - Detection and quantification of Legionella spp. and/or Legionella pneumophila by concentration and genic amplification by quantitative polymerase chain reaction (qPCR)
ISO/TS 12869:2019

This document specifies a method for the detection and quantification of Legionella spp. and
L. pneumophila using a quantitative polymerase chain reaction (qPCR). It specifies general
methodological requirements, performance evaluation requirements, and quality control requirements.
Technical details specified in this document are given for information only. Any other technical
solutions complying with the performance requirements are suitable.
NOTE 1 For performance requirements, see Clause 9.
This document is intended to be applied in the bacteriological investigation of all types of water (hot
or cold water, cooling tower water, etc.), unless the nature and/or content of suspended matter and/or
accompanying flora interfere with the determination. This interference can result in an adverse effect
on both the detection limit and the quantification limit.
NOTE 2 For validation requirements, see 9.7.
The results are expressed as the number of genome units of Legionella spp. and/or L. pneumophila per
litre of sample.
The method described in this document is applicable to all types of water. However, some additives, such
as chemicals used for water treatment, can interfere with and/or affect the sensitivity of the method.
The qPCR methods do not give any information about the physiological state of the Legionella.

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SIST-TP CEN/TR 17244:2019(Main)
Water quality - Technical report for the management of diatom barcodes
CEN/TR 17244:2018

This technical report specifies the data and metadata necessary to validate the identity of a diatom barcode along with recommendations for storage of the barcode and metadata to ensure access to this information.

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