(1) Annex II is replaced by the text set out in Annex I to this Directive; (2) Annex III is amended in accordance with Annex II to this Directive.
Commission Directive (EU) 2015/1787 of 6 October 2015 amending Annexes II and III to Council Directive 98/83/EC on the quality of water intended for human consumption
(a) verify that the measures in place to control risks to human health throughout the water supply chain from the catchment area through abstraction, treatment and storage to distribution are working effectively and that water at the point of compliance is wholesome and clean; (b) provide information on the quality of the water supplied for human consumption to demonstrate that the obligations set out in Articles 4 and 5, and the parametric values laid down in Annex I, are being met; (c) identify the most appropriate means of mitigating the risk to human health.
(a) collection and analysis of discrete water samples; or (b) measurements recorded by a continuous monitoring process.
(a) inspections of records of the functionality and maintenance status of equipment; and/or (b) inspections of the catchment area, water abstraction, treatment, storage and distribution infrastructure.
(a) Escherichia coli (E. coli ), coliform bacteria, colony count 22 °C, colour, turbidity, taste, odour, pH, conductivity;(b) other parameters identified as relevant in the monitoring programme, in accordance with Article 5(3) and, where relevant, through a risk assessment as set out in Part C.
(a) ammonium and nitrite, if chloramination is used; (b) aluminium and iron, if used as water treatment chemicals.
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(a) the list of parameters or frequencies set out in this Annex is not sufficient to fulfil the obligations imposed under Article 7(1); (b) additional monitoring is required for the purposes of Article 7(6); (c) it is necessary to provide the necessary assurances set out in point (1)(a) of Part A.
(a) the frequency of sampling for E. coli must not be reduced below the one laid down in point 3 of Part B under any circumstances;(b) for all other parameters: (i) the location and frequency of sampling shall be determined in relation to the parameter's origin, as well as the variability and long-term trend of its concentration, taking into account Article 6; (ii) to reduce the minimum sampling frequency of a parameter, as set out in point 3 of Part B, the results obtained from samples collected at regular intervals over a period of at least 3 years from sampling points representative of the whole supply zone must all be less than 60 % of the parametric value; (iii) to remove a parameter from the list of parameters to be monitored, as set out in point 2 of Part B, the results obtained from samples collected at regular intervals over a period of at least 3 years from points representative of the whole supply zone must all be less than 30 % of the parametric value; (iv) the removal of a particular parameter set out in point 2 of Part B from the list of parameters to be monitored shall be based on the result of the risk assessment, informed by the results of monitoring of sources of water intended for human consumption and confirming that human health is protected from the adverse effects of any contamination of water intended for human consumption, as laid down in Article 1; (v) the sampling frequency may be reduced or a parameter removed from the list of parameters to be monitored as set out in points (ii) and (iii) only if the risk assessment confirms that no factor that can be reasonably anticipated is likely to cause deterioration of the quality of the water intended for human consumption.
(a) risk assessments are approved by their relevant competent authority; and (b) information is available showing that a risk assessment has been carried out, together with a summary of its results.
(a) compliance samples for certain chemical parameters (in particular copper, lead and nickel) shall be taken at the consumer's tap without prior flushing. A random daytime sample of one litre volume is to be taken. As an alternative, Member States may use fixed stagnation time methods that better reflect their national situation, provided that, at the supply zone level, this does not result in fewer cases of non-compliance than using the random daytime method; (b) compliance samples for microbiological parameters at the point of compliance shall be taken and handled according to EN ISO 19458, sampling purpose B.
(1) the introductory paragraph is replaced by the following: "Member States shall ensure that the methods of analysis used for the purposes of monitoring and demonstrating compliance with this Directive are validated and documented in accordance with EN ISO/IEC 17025 or other equivalent standards accepted at international level. Member States shall ensure that laboratories or parties contracted by laboratories apply quality management system practices in accordance with EN ISO/IEC 17025 or other equivalent standards accepted at international level. In the absence of an analytical method meeting the minimum performance criteria set out in Part B, Member States shall ensure that monitoring is carried out using best available techniques not entailing excessive costs."; (2) point 1 is amended as follows: (a) the heading of point 1 is replaced by the following: "PART A Microbiological parameters for which methods of analysis are specified" (b) the third to the ninth paragraphs, including Note 1, are replaced by the following: "The methods for microbiological parameters are: (a) Escherichia coli (E. coli ) and coliform bacteria (EN ISO 9308-1 or EN ISO 9308-2)(b) Enterococci (EN ISO 7899-2)(c) Pseudomonas aeruginosa (EN ISO 16266)(d) enumeration of culturable microorganisms — colony count 22 °C (EN ISO 6222) (e) enumeration of culturable microorganisms — colony count 36 °C (EN ISO 6222) (f) Clostridium perfringens including spores (EN ISO 14189)";
(3) point 2 is amended as follows: (a) the heading of point 2 is replaced by the following: "PART B Chemical and indicator parameters for which performance characteristics are specified" (b) point 2.1 is replaced by the following: "1. Chemical and indicator parameters For the parameters set out in Table 1, the specified performance characteristics are that the method of analysis used must, as a minimum, be capable of measuring concentrations equal to the parametric value with a limit of quantification, as defined in Article 2(2) of Commission Directive 2009/90/EC Commission Directive 2009/90/EC of 31 July 2009 laying down, pursuant to Directive 2000/60/EC of the European Parliament and of the Council, technical specifications for chemical analysis and monitoring of water status (OJ L 201, 1.8.2009, p. 36 )."Until 31 December 2019 Member States may allow for the use of "trueness", "precision" and "limit of detection" as specified in Table 2, as an alternative set of performance characteristics to "limit of quantification" and "uncertainty of measurement" as specified respectively in the first paragraph and Table 1.The uncertainty of measurement laid down in Table 1 shall not be used as an additional tolerance to the parametric values set out in Annex I. Table 1 Minimum performance characteristic "Uncertainty of measurement" Acrylamide, epichlorohydrin and vinyl chloride to be controlled by product specification. Parameters Uncertainty of measurement (See Note 1) % of the parametric value (except for pH) Notes Aluminium 25 Ammonium 40 Antimony 40 Arsenic 30 Benzo(a)pyrene 50 See Note 5 Benzene 40 Boron 25 Bromate 40 Cadmium 25 Chloride 15 Chromium 30 Conductivity 20 Copper 25 Cyanide 30 See Note 6 1,2-dichloroethane 40 Fluoride 20 Hydrogen ion concentration pH (expressed in pH units) 0,2 See Note 7 Iron 30 Lead 25 Manganese 30 Mercury 30 Nickel 25 Nitrate 15 Nitrite 20 Oxidisability 50 See Note 8 Pesticides 30 See Note 9 Polycyclic aromatic hydrocarbons 50 See Note 10 Selenium 40 Sodium 15 Sulphate 15 Tetrachloroethene 30 See Note 11 Trichloroethene 40 See Note 11 Trihalomethanes — total 40 See Note 10 Total organic carbon (TOC) 30 See Note 12 Turbidity 30 See Note 13 Table 2 Minimum performance characteristics "Trueness", "precision" and "limit of detection" — may be used until 31 December 2019 Acrylamide, epichlorohydrin and vinyl chloride to be controlled by product specification. Parameters Trueness (See Note 2) % of the parametric value (except for pH) Precision (See Note 3) % of the parametric value (except for pH) Limit of detection (See Note 4) % of the parametric value (except for pH) Notes Aluminium 10 10 10 Ammonium 10 10 10 Antimony 25 25 25 Arsenic 10 10 10 Benzo(a)pyrene 25 25 25 Benzene 25 25 25 Boron 10 10 10 Bromate 25 25 25 Cadmium 10 10 10 Chloride 10 10 10 Chromium 10 10 10 Conductivity 10 10 10 Copper 10 10 10 Cyanide 10 10 10 See Note 6 1,2-dichloroethane 25 25 10 Fluoride 10 10 10 Hydrogen ion concentration pH (expressed in pH units) 0,2 0,2 See Note 7 Iron 10 10 10 Lead 10 10 10 Manganese 10 10 10 Mercury 20 10 20 Nickel 10 10 10 Nitrate 10 10 10 Nitrite 10 10 10 Oxidisability 25 25 10 See Note 8 Pesticides 25 25 25 See Note 9 Polycyclic aromatic hydrocarbons 25 25 25 See Note 10 Selenium 10 10 10 Sodium 10 10 10 Sulphate 10 10 10 Tetrachloroethene 25 25 10 See Note 11 Trichloroethene 25 25 10 See Note 11 Trihalomethanes — total 25 25 10 See Note 10 Turbidity 25 25 25 ----------------------Commission Directive 2009/90/EC of 31 July 2009 laying down, pursuant to Directive 2000/60/EC of the European Parliament and of the Council, technical specifications for chemical analysis and monitoring of water status (OJ L 201, 1.8.2009, p. 36 )."(c) point 2.2 is replaced by the following: "2. Notes to Tables 1 and 2 Note 1 Uncertainty of measurement is a non-negative parameter characterising the dispersion of the quantity values being attributed to a measurand, based on the information used. The performance criterion for measurement uncertainty (k = 2) is the percentage of the parametric value stated in the table or better. Measurement uncertainty shall be estimated at the level of the parametric value, unless otherwise specified. Note 2 Trueness is a measure of systematic error, i.e. the difference between the mean value of the large number of repeated measurements and the true value. Further specifications are those set out in ISO 5725. Note 3 Precision is a measure of random error and is usually expressed as the standard deviation (within and between batches) of the spread of results from the mean. Acceptable precision is twice the relative standard deviation. This term is further specified in ISO 5725. Note 4 Limit of detection is either: three times the standard deviation within a batch of a natural sample containing a low concentration of the parameter, or five times the standard deviation of a blank sample (within a batch).
Note 5 If the value of uncertainty of measurement cannot be met, the best available technique should be selected (up to 60 %). Note 6 The method determines total cyanide in all forms. Note 7 Values for trueness, precision and uncertainty of measurement are expressed in pH units. Note 8 Reference method: EN ISO 8467 Note 9 The performance characteristics for individual pesticides are given as an indication. Values for the uncertainty of measurement as low as 30 % can be achieved for several pesticides, higher values up to 80 % may be allowed for a number of pesticides. Note 10 The performance characteristics apply to individual substances, specified at 25 % of the parametric value in Part B of Annex I. Note 11 The performance characteristics apply to individual substances, specified at 50 % of the parametric value in Part B of Annex I. Note 12 The uncertainty of measurement should be estimated at the level of 3 mg/l of the total organic carbon (TOC). CEN 1484 Guidelines for the determination of TOC and dissolved organic carbon (DOC) shall be used. Note 13 The uncertainty of measurement should be estimated at the level of 1,0 NTU (nephelometric turbidity units) in accordance with EN ISO 7027."
(4) point 3 is deleted.