The Public Water Supplies (Scotland) Regulations 2014

Regulation 2(1) and (4)

SCHEDULE 1SPRESCRIBED CONCENTRATIONS AND VALUES

TABLE A

MICROBIOLOGICAL PARAMETERS

1 The parametric values in Part 2 are not required to protect human health (since the parametric values in Part 1 are sufficient for that purpose). The values in Part 2 are not therefore set for the purposes of Article 5(3) of the Directive.

2 Compliance required as to 95% of samples from each service reservoir (regulation 4(4)).

(1)Item(2)Parameter(3)Concentration orvalue (maximum)(4)Units ofmeasurement(5)Point ofcompliance
Part 1
1.Enterococci0Number/100mlConsumer's tap
2.Escherichia coli0Number/100mlConsumer's tap
Part 21
3.Coliform bacteria0Number/100mlService reservoir2
0Number/100mlTreatment works
4.Escherichia coli0Number/100mlService reservoir
0Number/100mlTreatment works
Notes—

TABLE B

CHEMICAL PARAMETERS

1 The parametric value refers to the residual monomer concentration in the water as calculated according to specifications of the maximum release from the corresponding polymer in contact with the water. This is controlled by product specification.

2 See also regulation 6(6).

3 See also regulation 4(2)(c).

4 The corresponding parametric value applies to each ‘other pesticide’ individually.

5 The parametric values in this Part are not required to protect human health (since the parametric values in Part 1 are sufficient for that purpose). The values in Part 2 are not therefore set for the purposes of Article 5(3) of the Directive.

(1)Item(2)Parameter(3)Concentration orvalue (maximum)(4)Units ofmeasurement(5)Point ofcompliance
Part 1
1.Acrylamide10.10μg/lConsumer's tap
2.Antimony5.0μgSb/lConsumer's tap
3.Arsenic10μgAs/lConsumer's tap
4.Benzene1.0μg/lConsumer's tap
5.Benzo(a)pyrene0.010μg/lConsumer's tap
6.Boron1.0mgB/lConsumer's tap
7.Bromate10μgBrO3/lConsumer's tap
8.Cadmium5.0μgCd/lConsumer's tap
9.Chromium50μgCr/lConsumer's tap
10.Copper22.0mgCu/lConsumer's tap
11.Cyanide50μgCN/lConsumer's tap
12.1,2-dichloroethane3.0μg/lConsumer's tap
13.Epichlorohydrin10.10μg/lConsumer's tap
14.Fluoride1.5mgF/lConsumer's tap
15.Lead210μgPb/lConsumer's tap
16.Mercury1.0μgHg/lConsumer's tap
17.Nickel220μgNi/lConsumer's tap
18.Nitrate350mgNO3/lConsumer's tap
19.Nitrite30.50mgNO2/lConsumer's tap
0.10mgNO2/lTreatment works
20.Pesticide—
Aldrin0.030μg/lConsumer's tap
Dieldrin0.030μg/lConsumer's tap
Heptachlor0.030μg/lConsumer's tap
Heptachlor epoxide0.030μg/lConsumer's tap
Other pesticide40.10μg/lConsumer's tap
21.Pesticides: Total0.50μg/lConsumer's tap
22.PAH: Total0.10μg/lConsumer's tap
23.Selenium10μgSe/lConsumer's tap
24.Tetrachloroethene and Trichloroethene10μg/lConsumer's tap
25.THM: Total100μg/lConsumer's tap
26.Vinyl chloride10.50μg/lConsumer's tap
Part 25
27.Aluminium200μgAl/lConsumer's tap
28.Colour20mg/l Pt/CoConsumer's tap
29.Iron200μgFe/lConsumer's tap
30.Manganese50μgMn/lConsumer's tap
31.Sodium200mgNa/lConsumer's tap
32.Tetrachloromethane3μg/lConsumer's tap
33.Turbidity4NTUConsumer's tap
Notes—

TABLE C

INDICATOR PARAMETERS

1 The water should not be aggressive.

2 In the event that the use of samples from a point within a water supply zone has not been authorised for this parameter under regulation 8, the point of monitoring is instead the consumer's tap.

3 This value, in so far as the point of monitoring is a service reservoir, is not set for the purposes of Article 5(3) of the Directive.

4 This value, in so far as the point of monitoring is a treatment works, is not set for the purposes of Article 5(3) of the Directive.

[F15 Remedial action is to be deemed justified on radiological protection grounds, without further consideration, where radon concentrations exceed 1,000 Bq/l.]

[F16 If the concentration of tritium exceeds this value, an analysis of the presence of other artificial radionuclides must be also carried out by Scottish Water.]

(1)Item(2)Parameter(3)Concentration orvalue (maximum)or state(4)Units ofmeasurement(5)Point ofmonitoring
Part 1
1.Ammonium0.50mgNH4/lConsumer's tap
2.Chloride1250mgCl/lSupply point2
3.Clostridium perfringens (including spores)0Number/100mlSupply point2
4.Coliform bacteria0Number/100mlConsumer's tap
5.Colony countNo abnormal change

Number/1ml

at 22°C and

at 37°C

Consumer's tap
Service reservoir3
Treatment works4
6.ColourAcceptable to consumers and no abnormal changeConsumer's tap
7.Conductivity12500μS/cm at 20°CSupply point2
8.Hydrogen ion9.5pH valueConsumer's tap
6.5 (minimum)
9.OdourAcceptable to consumers and no abnormal changeConsumer's tap
10.Sulphate1250mgSO4/lSupply point2
11.TasteAcceptable to consumers and no abnormal changeConsumer's tap
12.Total organic carbonNo abnormal changemgC/lSupply point2
13.Turbidity1NTUTreatment works
Part 2
14.Indicative dose0.10mSvF2...Supply point2
[F3 14A.Radon5100Bq/lSupply point(b)]
15.Tritium [F4(f)]100Bq/lSupply point2
Notes—

In this Schedule—

F5...

NTU” means Nephelometric Turbidity Unit;

PAH: Total” means the sum of the concentrations of the following polyaromatic hydrocarbons: benzo(b)fluoranthene, benzo(k)fluoranthene, benzo(ghi)perylene and indeno(1,2,3-cd)pyrene;

Pesticide” means an organic insecticide, herbicide, fungicide, nematocide, acaricide, algicide, rodenticide, slimicide, molluscicide or related product (including a growth regulator), and includes the relevant metabolites, degradation and reaction products of that pesticide;

Pesticides: Total” refers to the sum of the concentrations of each pesticide detected and quantified in the monitoring procedure;

Tetrachloroethene and Trichloroethene” means the sum of the concentrations of tetrachloroethene and trichloroethene; and

THM: Total” means the sum of the concentrations of the following trihalomethanes: chloroform, bromoform, dibromochloromethane and bromodichloromethane.

Regulations 2(1), 2(4), 9 and 11

SCHEDULE 2SMONITORING

TABLE 1

PARAMETERS AND CIRCUMSTANCES FOR CHECK MONITORING

(1)Item(2)Parameter(3)Circumstances
1.AluminiumWhen used as flocculant or where the water originates from, or is influenced by, surface waters.
2.Ammonium
3.Clostridium perfringens (including spores)Where the water originates from, or is influenced by, surface waters.
4.Coliform bacteria
5.Colony count
6.Colour
7.Conductivity
8.Escherichia coli
9.Hydrogen ion
10.IronWhen used as flocculant or where the water originates from, or is influenced by, surface waters.
11.ManganeseWhere the water originates from, or is influenced by, surface waters.
12.NitrateWhen chloramination is practised.
13.NitriteWhen chloramination is practised.
14.Odour
15.Taste
16.Turbidity

TABLE 2

ANNUAL SAMPLING FREQUENCIES: SAMPLING POINTS M1

1 Sampling at the frequencies specified in this table for check monitoring is required only when the circumstances for this parameter in column (3) of Table 1 apply (see regulation 6(4)(b)). Where this is not the case, sampling at the frequencies specified in this table for audit monitoring is required instead.

2 Subject to note (e), samples for this parameter may, to the extent authorised under regulation 8 for a water supply zone, be taken from alternative supply points in accordance with regulation 9(1)(b).

3 Only those pesticides which are likely to be present in a given supply need to be monitored.

4 Where the population is not an exact multiple of 5,000, the population figure should be rounded up to the nearest multiple of 5,000.

5 If sodium hypochlorite is added after water has left a treatment works in the water supply zone, monitoring for this parameter must be carried out at sampling points (rather than at supply points).

(1)Item(2)Parameter(3)Estimated population ofwater supply zone(4)Reduced(5)Standard
Subject to check monitoring
1.Coliform bacteria< 1004
2.Escherichia coli≥10012 per 5,000
3.Residual disinfectantpopulation4
4.Aluminium1< 10012
5.Ammonium100-4,99924
6.Clostridium perfringens (including spores)125,000-9,999612
10,000-29,9991224
7.Colony count30,000-49,9991836
8.Colour50,000-79,9992652
9.Conductivity280,000-100,0003876
10.Hydrogen ion
11.Iron1
12.Manganese1
13.Nitrate1
14.Nitrite1
15.Odour
16.Taste
17.Turbidity
Subject to audit monitoring
18.Antimony< 1001
19.Arsenic100-4,9994
20.Benzene25,000-100,0008
21.Benzo(a)pyrene
22.Boron2
23.Bromate25
24.Cadmium
25.Chloride2
26.Chromium
27.Copper
28.Cyanide2
29.1,2-dichloroethane2
30.Enterococci
31.Fluoride2
32.Lead
33.Mercury2
34.Nickel
35.Pesticide23
36.PAH: Total
37.Selenium
38.Sodium
39.Sulphate2
40.

Tetrachloroethene and

Trichloroethene2

41.Tetrachloromethane2
42.THM: Total
43.Total organic carbon2
[F644. Indicative dose2
44A.Radon2]
45.Tritium2
Notes—

Textual Amendments

Marginal Citations

M1This table specifies the number of samples to be taken at sampling points for the purposes of regulation 9(1)(a) and (2).

TABLE 3

ANNUAL SAMPLING FREQUENCIES: SUPPLY POINTS M2

1 Sampling at the frequencies specified in this table for check monitoring is required only where the water originates from, or is influenced by, surface waters (see Table 1). Where this is not the case, sampling at the frequencies specified in this table for audit monitoring is required instead.

2 If sodium hypochlorite is added after water has left a treatment works in the water supply zone, audit monitoring for this parameter must be carried out at sampling points (rather than at supply points).

3 Only those pesticides which are likely to be present in a given supply need to be monitored.

(1)Item(2)Parameter(3)Volume of watersupplied m3/d(4)Reduced(5)Standard
Subject to check monitoring
1.Clostridium perfringens (including spores)1< 202
20-99924
2.Conductivity1,000-1,999612
2,000-5,9991224
6,000-9,9991836
10,000-15,9992652
16,000-32,99952104
33,000-49,99978156
50,000-67,999104208
68,000-84,999130260
85,000-101,999156312
102,000-119,999183365
120,000-241,999365730
242,000-484,9997301,460
485,000-728,9991,0952,190
Subject to audit monitoring
3.Benzene< 201
4.Boron20-9994
5.Bromate21,000-49,9998
6.Chloride50,00-89,99912
7.Cyanide90,000-299,99924
8.1,2-dichloroethane300,000-649,99936
9.Fluoride≥ 650,00048
10.Mercury
11.Pesticide3
12.Sulphate
13.

Tetrachloroethene and

Trichloroethene

14.Tetrachloromethane
15.Total organic carbon
[F716. Indicative dose
16A.Radon]
17.Tritium
Notes—

Textual Amendments

Marginal Citations

M2This table specifies the number of samples to be taken at supply points for the purposes of regulation 9(1)(b) and (2).

TABLE 4

ANNUAL SAMPLING FREQUENCIES: TREATMENT WORKS M3

1 Sampling at the frequencies specified in this table for check monitoring is required only when chloramination is practised. When this is not the case, this parameter must be sampled instead at the frequencies specified in this table for audit monitoring.

(1)Item(2)Parameter(3)Volume of watersupplied m3/d(4)Reduced(5)Standard
Subject to check monitoring
1.Coliform bacteria< 204
2.Colony count20-1,9991252
3.Escherichia coli2,000-5,99952104
4.Residual disinfectant

6,000-11,999

≥12,000

104

208

208

365

5.Nitrite1< 202
6.Turbidity20-99924
1,000-1,999612
2,000-5,9991224
6,000-9,9991836
10,000-15,9992652
16,000-32,99952104
33,000-49,99978156
50,000-67,999104208
68,000-84,999130260
85,000-101,999156312
102,000-119,999183365
120,000-241,999365730
242,000-484,9997301,460
485,000-728,9991,0952,190
Subject to audit monitoring
7.Nitrite1< 201
20-9994
1,000-49,9998
50,000-89,99912
90,000-299,99924
300,000-649,99936
≥650,00048
Notes—

Marginal Citations

M3This table specifies the number of samples to be taken at treatment works for the purposes of regulation 11.

In this Schedule F8... “Pesticide”, “PAH: Total”, “Tetrachloroethene and Trichloroethene” and “THM: Total” have the same meanings as they have in Schedule 1.

Regulation 6(6A)

[F9SCHEDULE 2ASMONITORING OF RADIOACTIVE SUBSTANCES

General principles and monitoring frequenciesS

1.(1) Subject to sub-paragraphs (2) and (3), Scottish Water must monitor the water it supplies, or intends to supply, for human consumption purposes for—

(a)indicative dose (item 14) in Table C;

(b)radon (item 14A) in Table C; and

(c)tritium (item 15) in Table C.

(2) Where the Scottish Ministers, by notice to Scottish Water, confirm that they have established that indicative dose, radon or, as the case may be, tritium (“the parameter”) is not likely to be present, for a period specified in the notice, in a supply of water for human consumption purposes in concentrations which could exceed the prescribed concentration or value for that parameter, Scottish Water is not required to monitor the supply for the parameter during the period specified in the notice.

(3) In case of naturally occurring radionuclides—

(a)where previous results show that the concentration of radionuclides in the supply is stable, the minimum sampling and analysis frequencies are to be decided by the Scottish Ministers, and confirmed by notice to Scottish Water, taking into consideration the risk to human health; and

(b)where the Scottish Ministers, by notice to Scottish Water, confirm that they are satisfied (on the basis of representative surveys, monitoring data or other reliable information) that levels of radon, tritium and the calculated indicative dose in a supply of water for human consumption purposes will, for a period specified in the notice, remain below the prescribed concentration or value for each parameter, Scottish Water is not required to monitor the supply for these parameters during the period specified in the notice.

(4) Where sub-paragraph (3)(b) applies, the Scottish Ministers must communicate the grounds for the decision to the European Commission and provide the Commission with the necessary documentation supporting that decision, including the findings of any surveys, monitoring or investigations carried out.

RadonS

2.(1) Subject to paragraphs 5 and 6, Scottish Water must ensure that representative surveys are undertaken to determine the scale and nature of likely exposures to radon in water it supplies, or intends to supply, for human consumption purposes originating from different types of ground water sources and wells in different geological areas.

(2) The surveys must be designed in such a way that underlying factors, and especially the geology and hydrology of the area, radioactivity of rock or soil, and well type, can be identified and used to direct further action to areas of likely high exposure.

(3) Monitoring of radon concentrations must be carried out if Scottish Water has reason to believe, on the basis of the results of the representative surveys or other reliable information, that the prescribed concentration or value for radon might be exceeded.

TritiumS

3.(1) Subject to paragraphs 5 and 6, Scottish Water must monitor the water it supplies, or intends to supply, for human consumption purposes for tritium where—

(a)an anthropogenic source of tritium or other artificial radionuclides is present within the catchment area for the supply; and

(b)it cannot be shown on the basis of other surveillance programmes or investigations that the level of tritium is below the prescribed concentration or value for tritium.

(2) Where monitoring for tritium is required by sub-paragraph (1), samples must be taken in accordance with regulation 9(1) and (4).

(3) If the concentration of tritium in any such sample exceeds the prescribed concentration or value for tritium, Scottish Water must carry out an investigation of the presence of other artificial radionuclides.

Indicative doseS

4.(1) Subject to paragraphs 5 and 6, Scottish Water must monitor the water it supplies, or intends to supply, for human consumption purposes for indicative dose where—

(a)a source of artificial radioactivity or elevated natural radioactivity is present; and

(b)it cannot be shown on the basis of other representative monitoring programmes or other investigations that the level of indicative dose is below the prescribed concentration or value for that parameter.

(2) Where sub-paragraph (1) requires monitoring (of radionuclide levels) only in relation to a source of artificial radioactivity, samples must be taken in accordance with regulation 9(1) and (4).

(3) Where sub-paragraph (1) requires monitoring (of radionuclide levels) in relation to a source of elevated natural radioactivity, the Scottish Ministers must specify, by notice to Scottish Water, the frequency of the monitoring required of—

(a)gross alpha activity;

(b)gross beta activity; or

(c)individual natural radionuclides,

for screening strategies pursuant to regulation 6(6A)(b) and Schedule 3A.

(4) Where sub-paragraph (3) applies, the frequency specified may vary from a single check measurement to the frequency which would otherwise apply under regulation 9(1) and (4).

(5) Where a single check for natural radioactivity is specified under sub-paragraph (3), Scottish Water must carry out a further check if any change occurs in relation to the supply which is likely to influence the concentrations of radionuclides in the supply.

Water treatmentS

5.  Where Scottish Water supplies, or intends to supply, water for human consumption purposes which is treated to reduce the level of radionuclides, Scottish Water must monitor the supply for indicative dose, radon and tritium in accordance with regulation 9(1) and (4) to verify the continued efficacy of that treatment.

AveragingS

6.  In circumstances where the prescribed concentration or value for indicative dose, radon or, as the case may be, tritium is exceeded in a sample taken in relation to a supply, or intended supply, of water by Scottish Water for human consumption purposes, the Scottish Ministers must specify, by notice to Scottish Water, the extent of resampling necessary to ensure that the measured values are representative of an average activity concentration for a full year.]

Regulations 2(1), 2(4) and 15(5)

SCHEDULE 3SANALYSIS: METHODS AND CAPABILITIES

TABLE M1

SPECIFIED PARAMETERS: ANALYTICAL METHOD TO BE USED

1 The composition of m-CP agar is:

Basal medium—

Dissolve the ingredients of the basal medium, adjust pH to 7.6 and autoclave at 121°C for 15 minutes.

(1)Item(2)Parameter(3)Method
1.Clostridium perfringens (including spores)Membrane filtration followed by anaerobic incubation of the membrane on m-CP agar1 at 44 ± 1°C for 21 ± 3 hours. Count opaque yellow colonies that turn pink or red after exposure to ammonium hydroxide vapours for 20 to 30 seconds.
2.Coliform bacteriaISO 9308-1
3.Colony count 22°C — enumeration of culturable microorganismsprEN ISO 6222
4.Colony count 37°C — enumeration of culturable microorganismsprEN 6222
5.EnterococciISO 7899-2
6.Escherichia coliISO 9308-1
Notes—

TABLE M2

OTHER PARAMETERS: CAPABILITIES REQUIRED OF ANALYTICAL METHOD

1 The method of analysis should determine total cyanide in all forms.

2 The capabilities required apply in relation to each individual pesticide.

3 The capabilities required apply in relation to each individual substance comprising PAH: Total at 25% of the prescribed concentration or value for PAH: Total.

4 The capabilities required apply at 50% of the prescribed concentration or value for PAH: Total.

5 The capabilities required apply in relation to prescribed concentration or value in Table B.

6 The capabilities required apply in relation to prescribed concentration or value in Table C.

In this Schedule “Pesticide”, “PAH: Total” and “THM: Total” have the meanings given in Schedule 1.

(1) Item(2) Parameter(3) Trueness % of prescribed concentration or value(4) Precision % of prescribed concentration or value(5) Limit of detection % of prescribed concentration or value
1.Aluminium101010
2.Ammonium101010
3.Antimony252525
4.Arsenic101010
5.Benzene252525
6.Benzo(a)pyrene252525
7.Boron101010
8.Bromate252525
9.Cadmium101010
10.Chloride101010
11.Chromium101010
12.Colour101010
13.Conductivity101010
14.Copper101010
15.Cyanide1101010
16.1,2-dichloroethane252510
17.Fluoride101010
18.Iron101010
19.Lead101010
20.Manganese101010
21.Mercury201020
22.Nickel101010
23.Nitrate101010
24.Nitrite101010
25.Pesticide2252525
26.PAH: Total3252525
27.Selenium101010
28.Sodium101010
29.Sulphate101010
30.Tetrachloroethene4252510
31.Tetrachloromethane202020
32.Trichloroethene4252510
33.THM: Total3252510
34.Turbidity5101010
35.Turbidity6252525
Notes—

Regulation 6(6A)

[F10SCHEDULE 3ASMONITORING FOR INDICATIVE DOSE AND ANALYTICAL PERFORMANCE CHARACTERISTICS

Monitoring for compliance with the indicative doseS

1.(1) Scottish Water may use reliable screening strategies to indicate the presence of radioactivity in water it supplies, or intends to supply, for human consumption purposes.

(2) These strategies may include screening for—

(a)certain radionuclides or an individual radionuclide; or

(b)gross alpha activity or gross beta activity.

Screening for certain radionuclides or for an individual radionuclideS

2.(1) Where screening is carried out for certain radionuclides or for an individual radionuclide, Scottish Water must carry out an analysis of additional radionuclides if, in relation to any supply referred to in paragraph 1—

(a)one of the activity concentrations of a radionuclide listed in column 2 of the table below exceeds 20% of the corresponding derived concentration in column 3; or

(b)the tritium concentration exceeds the prescribed concentration or value for tritium.

(2) Scottish Water must, in deciding which radionuclides require to be measured for each supply, take into account all relevant information about likely sources of radioactivity.

1 This table includes values for the most common natural and artificial radionuclides. These are precise values, calculated for a dose of 0.1 mSv, an annual intake of 730 litres and using the dose coefficients laid down in Table (A) of Annex III to Council Directive 96/29/Euratom laying down basic safety standards for the protection of the health of workers and the general public against the dangers arising from ionizing radiation M4. Derived concentrations for other radionuclides may be calculated on the same basis.

2 This allows only for the radiological properties of uranium, not for its chemical toxicity.

Derived concentrations for radioactivity in water intended for human consumption1
OriginRadionuclideDerived concentration (Bq/1)
NaturalU-23823.0
U-23422.8
Ra-2260.5
Ra-2280.2
Pb-2100.2
Po-2100.1
ArtificialC-14240
Sr-904.9
Pu-239 / Pu-2400.6
Am-2410.7
Co-6040
Cs-1347.2
Cs-13711
I-1316.2
Notes—

Marginal Citations

M4OJ L 159, 29.6.1996, p. 1., as amended by Corrigendum (OJ L 314, 4.12.1996, p. 20).

Screening for gross alpha activity and gross beta activityS

3.(1) Scottish Water may use screening strategies for gross alpha activity and gross beta activity (or, where appropriate, residual beta activity after subtraction of the potassium-40 activity) to monitor a supply referred to in paragraph 1 for indicative dose.

(2) Subject to sub-paragraph (3), screening levels must be set at—

(a)0.1 Bq/l for gross alpha activity; and

(b)1.0 Bq/l for gross beta activity.

(3) Scottish Water may set alternative levels to those specified in sub-paragraph (2) if it can demonstrate that these will ensure that an indicative dose of 0.1 mSv is not exceeded.

(4) If the gross alpha activity is less than 0.1 Bq/l and the gross beta activity is less than 1.0 Bq/l, Scottish Water may assume that the indicative dose is less than 0.1 mSv.

(5) Where sub-paragraph (4) applies, Scottish Water is not required to carry out a radiological investigation unless it is aware—

(a)that specific radionuclides are present in the water; and

(b)that these are liable to cause an indicate dose in excess of 0.1 mSv.

(6) If the gross alpha activity exceeds 0.1 Bq/l or the gross beta activity exceeds 1.0 Bq/l, Scottish Water must carry out an analysis for specific radionuclides.

(7) Scottish Water must, in deciding which radionuclides require to be measured for the purposes of sub-paragraph (6), take into account all relevant information about likely sources of radioactivity.

(8) If elevated levels of tritium are detected in a sample, Scottish Water must also measure the gross alpha activity and gross beta activity in that sample.

Calculation of the indicative doseS

4.(1) The indicative dose must be calculated from—

(a)the measured radionuclide concentrations and the dose coefficients laid down in Table (A) of Annex III to Council Directive 96/29/Euratom M5; or

(b)more recent information recognised by the Scottish Ministers,

on the basis of an annual intake of water of 730 litres for adults.

(2) Where the following formula is satisfied, Scottish Water may assume that the indicative dose is less than 0.1 mSv and that no further investigation is required—

where—

Ci (obs)” refers to the observed concentration of radionuclide “i”;

Ci (der)” refers to derived concentration of radionuclide “i”; and

n” refers to the number of radionuclides detected.

Marginal Citations

M5Table (A) lays down ingestion dose coefficients for members of the public.

Performance characteristics and methods of analysisS

5.  For each parameter or radionuclide listed in column 1 of the table below, the method of analysis used must be capable of measuring activity concentrations with at least the limit of detection specified for that parameter or radionuclide in column 2.

1 The limit of detection must be calculated according to the ISO standard 11929:2010 entitled “Determination of the characteristic limits (decision threshold, detection limit and limits of the confidence interval) for measurements of ionising radiation - Fundamentals and application” (as it was first published), with probabilities of errors of 1st and 2nd kind of 0.05 each.

2 Measurement uncertainties must be calculated and reported as complete standard uncertainties, or as expanded standard uncertainties with an expansion factor of 1.96, according to the ISOIEC Guide 98-3:2008 entitled “Guide to the expression of uncertainty in measurement” (as it was first published).

3 The limit of detection for tritium and for radon is 10% of the corresponding prescribed concentration or value for the parameter.

4 The limit of detection for gross alpha activity and gross beta activities is 40% of the screening values of 0.1 Bq/l and 1.0 Bq/l respectively.

5 This limit of detection applies only to initial screening for indicative dose for a new water source. If initial checking indicates that it is unlikely that Ra-228 exceeds 20% of the derived concentration, the limit of detection may be increased to 0.08 Bq/l for routine Ra-228 nuclide specific measurements, until a subsequent re-check is required.]

Parameter / radionuclideLimit of detection (in Bq/l)12
Tritium103
Radon103
gross alpha activity0.044
gross beta activity0.44
U-2380.02
U-2340.02
Ra-2260.04
Ra-2280.025
Pb-2100.02
Po-2100.01
C-1420
Sr-900.4
Pu-239 / Pu-2400.04
Am-2410.06
Co-600.5
Cs-1340.5
Cs-1370.5
I-1310.5
Notes—