
1 
These Regulations may be cited as the Natural Mineral Water, Spring Water and Bottled Drinking Water (Scotland) Amendment Regulations 2015 and come into force on 28th November 2015.
2 
The Natural Mineral Water, Spring Water and Bottled Drinking Water (Scotland) (No. 2) Regulations 2007 are amended in accordance with Regulations 3 to 5.
3 

(1) At the appropriate position in regulation 2(1) (interpretation), insert—“
 “Directive 96/29” means 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;
 “Directive 2013/51” means Council Directive 2013/51/Euratom laying down requirements for the protection of the health of the general public with regard to radioactive substances in water intended for human consumption;”.
(2) In regulation 2(2), for “2009/54, 98/83 or 2003/40” substitute “96/29, 98/83, 2003/40, 2009/54 and 2013/51”.
4 

(1) At the end of regulation 16(2)(c) (enforcement), omit “and”.
(2) After regulation 16(2)(d), insert—“
(e) carry out additional monitoring in accordance with Parts 1 and 2 of Schedule 12 to check whether the water complies with the relevant parametric values specified in the table in Part 3 of that Schedule;
(f) for the purpose of monitoring spring water and bottled drinking water required by sub-paragraph (e), carry out sampling and analysis in accordance with Schedule 13 to check compliance with the parametric value for indicative dose specified in the table in Part 3 of Schedule 12;
(g) for the purpose of carrying out the sampling and analysis required by sub-paragraph (f), take samples at the point at which the water is put into the bottle; and
(h) if necessary, take the remedial measures specified in Part 1 of Schedule 12.”.
5 
After Schedule 11, insert—“
SCHEDULE 12
Regulation 16(2)(e), (f) and (h)
PART 1
1. 
Each food authority must monitor spring water and bottled drinking water for radon, tritium and indicative dose in accordance with this Schedule.
2. 
Each food authority must monitor spring water and bottled water for indicative dose if a source of artificial or elevated natural radioactivity is present and it cannot be shown on the basis of representative monitoring programmes or other investigations that the level of indicative dose is below the parametric value specified in the table in Part 3.
3. 
Sampling must be carried out at the frequencies specified in the table in Part 2.
4. 
A food authority may use various reliable screening strategies to monitor for the parametric indicator value for indicative dose.
5. 
Subject to paragraph 7, if a food authority screens for gross alpha activity and gross beta activity and—
(a) the screening level for gross alpha activity is or exceeds 0.1 Bq/1; or
(b) the screening level for gross beta activity is or exceeds 1.0 Bq/1,that food authority must investigate the presence of other radionuclides as determined by the food authority, taking into account all relevant information about likely sources of radioactivity.
6. 
If a food authority screens for an individual radionuclide or certain radionuclides and—
(a) one of the activity concentrations exceeds 20% of the corresponding derived value; or
(b) where applicable, the concentration of tritium exceeds the parametric value specified in the table in Part 3,the food authority must investigate the presence of radionuclides, as determined by the food authority, taking into account all relevant information about likely sources of radioactivity.
7. 
Paragraph 5 does not prohibit a food authority from screening at alternative levels for gross alpha activity and gross beta activity if it can demonstrate that the alternative levels are in compliance with an indicative dose of 0.1mSv.
8. 
If the gross alpha activity and gross beta activity are less than 0.1 Bq/l and 1.0 Bq/1 respectively, a food authority may assume that the indicative dose is less than the parametric value of 0.1 mSv in which case further radiological investigation is not required unless it is known from other sources of information that specific radionuclides are present in the water that are liable to cause an indicative dose at or in excess of 0.1 mSv.
9. 
Each food authority must monitor spring water and bottled drinking water for tritium if an artificial source of tritium or other artificial radionuclide(s) is present within the catchment area and it cannot be shown on the basis of other surveillance programmes or investigations that the level of tritium is below the parametric value specified in the table in Part 3.
10. 
Sampling must be carried out at the frequencies specified in the table in Part 2.
11. 
If the concentration of tritium exceeds the parametric value specified in the table in Part 3, the food authority must investigate the presence of other artificial radionuclides.
12. 
Each food authority must provide representative surveys to determine the scale and nature of likely exposure to radon in spring water and bottled drinking water originating from different types of ground water sources and wells in different geological areas.
13. 
The representative surveys must be designed in such a way that underlying parameters, including 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.
14. 
Sampling must be carried out at the frequencies specified in the table in Part 2.
15. 
Each food authority must monitor spring water and bottled drinking water for radon if there is a reason to believe, on the basis of the results of the representative surveys or other reliable information, that the parametric value for radon specified in the table in Part 3 might be exceeded.
16. 
A food authority may apply to Food Standards Scotland for an exemption from the requirement to monitor spring water or bottled drinking water for radon, tritium or indicative dose if
(a) it is satisfied on the basis of representative surveys, monitoring data or other reliable information provided by the food business operator that, for a minimum period of five years, the parameter in question will remain below its respective parametric value specified in the table in Part 3; and
(b) it provides Food Standards Scotland with a copy of the representative surveys, monitoring data or other reliable information referred to in sub-paragraph (a),and if it agrees with the food authority’s recommendation, Food Standards Scotland may grant the exemption for such period and subject to such conditions as it thinks fit.
17. 
Where bottled drinking water has been treated to reduce the level of radionuclides, the food authority must carry out monitoring at the frequencies indicated in the table in Part 2 to ensure the continued efficacy of that treatment.
18. 
If a parametric value specified in the table in Part 3 is exceeded in a sample of spring water or bottled drinking water, the food authority must take further samples, as appropriate, having regard to any guidance issued by Food Standards Scotland to ensure that the measured values are representative of an average activity concentration for a full year.
19. 

(1) If a food authority determines that spring water or bottled drinking water does not comply with the parametric concentrations or values set out in this Schedule, the food authority must—
(a) immediately investigate the non-compliance in order to identify the cause;
(b) assess whether the non-compliance poses a risk to human health which requires action;
(c) require the business operator to take remedial action as soon as possible to restore the quality of the water and, where necessary, protect human health;
(d) in respect of any parameter specified in the tables in Parts 2 and 3, notify the general public of the remedial action taken, unless the food authority considers that non-compliance with the parametric value is trivial; and
(e) in respect of any parameter specified in the table in Part 2, notify the general public of the risks and remedial action taken and advise the general public of any additional precautionary measures that may be needed for the protection of human health in respect of radioactive substances.
(2) If spring water or bottled drinking water constitutes a potential danger to human health, irrespective of whether it meets the relevant parametric values in this Schedule, a food authority must—
(a) prohibit or restrict the supply of that water in its area or take such other action as is necessary to protect human health; and
(b) inform the general public promptly of that fact and provide advice where necessary.
(3) In performing the functions in paragraph (2), the food authority must have regard to any risks to human health which would be caused by an interruption of the supply or a restriction in the use of water intended for human consumption.
PART 2
Volume of water bottled each daym 3 Number of samples per year
volume ≤ 100 1
100 < volume ≤ 1,000 1
1,000 < volume ≤ 10,000 1+1 for each 3,300 m3/d and part thereof of the total volume
10, 000 < volume ≤ 100,000 3+1 for each 10,000 m3/d and part thereof of the total volume
volume > 100,000 10+1 for each 25,000 m3/d and part thereof of the total volume


PART 3
Item Parameter Unit of Measurement Parametric Value
1. Radon Bq/l 100 
2. Tritium Bq/l 100 
3. indicative dose mSv 0.10


SCHEDULE 13
Regulation 16(2)(f)
PART 1
1. 
Each food authority must ensure that each sample is analysed and indicative dose calculated in accordance with Annex III to Directive 2013/51 and this Schedule.
2. 
For each radionuclide specified in the second column of Table 1 in Part 2, the derived concentration is shown in the third column of that table and the dose coefficient for calculating the indicative dose is specified in Table A of Annex III to Directive 96/29 as referenced in Annex III to Directive 2013/51.
3. 
For each parameter specified in the first column of Table 2 in Part 2, the method of analysis must be one that is capable of detecting the parameter at the limit of detection specified in the second column of that table.
PART 2
Methods of analysis and performance characteristics
Table 1
Derived concentrations for radioactivity in spring water or bottled drinking water
Origin Nuclide Derived concentration
Natural U-238 3.0 Bq/l
 U-234 2.8 Bq/l
 Ra-226 0.5 Bq/l
 Ra-228 0.2 Bq/l
 Pb-210 0.2 Bq/l
 Po-210 0.1 Bq/l
Artificial C-14 240 Bq/l
 Sr-90 4.9 Bq/l
 Pu-239/Pu-240 0.6 Bq/l
 Am-241 0.7 Bq/l
 Co-60 40 Bq/l
 Cs-134 7.2 Bq/l
 Cs-137 11 Bq/l
 I-131 6.2 Bq/l



Table 2Parameters radionuclides Limit of detection 
Tritium 10 Bq/l 
Radon 10 Bq/l 
gross alpha activitygross beta activity 0.04 Bq/l0.4 Bq/l 
U-238 0.02 Bq/l 
U-234 0.02 Bq/l 
Ra-226 0.04 Bq/l 
Ra-228 0.02 Bq/l 
Pb-210 0.02 Bq/l 
Po-210 0.01 Bq/l 
C-14 20 Bq/l 
Sr-90 0.4 Bq/l 
Pu-239/Pu-240 0.04 Bq/l 
Am-241 0.06 Bq/l 
Co-60 0.5 Bq/l 
Cs-134 0.5 Bq/l 
Cs-137 0.5 Bq/l 
I-131 0.5 Bq/l 




”.
MAUREEN WATT
Authorised to sign by the Scottish Ministers
St Andrew’s House,
Edinburgh
28th October 2015