1. Surface Water and Groundwater Status Donal Daly Hydrometric & Groundwater Section Environmental Protection Agency Acknowledgement: Colleagues in EPA and on WFD Groundwater Working Group

2. WFD Water Status “A measure of the present” Based on an evaluation of: pressures, physical settings and monitoring results Status is the key element determining the measures to be employed in the RBD Management Plans to achieve the objectives of the WFD

3. Ecological Status for Surface Waters Pass WFD Fail WFD

4. Surface Water Body Classification process

5. Interim Status Assessment of Rivers

6. Interim Status Assessment of Lakes

7. Transitional and Coastal Water Status

8. Main Causes of “less than good” Status Surface Water Bodies  Discharges from Wastewater Treatment Plants (nutrients)  Diffuse Agriculture (resulting in inputs of P, PO 4 and N)  Forestry (sediment and P)  Urban areas

9. GWBs are classified as either POOR or GOOD STATUS for both quantitative and chemical elements

10. Groundwater Bodies (GWBs): the management unit of the WFD (not aquifers) GROUNDWATER BODIES ARE NORMALLY LARGE (10s to 100s km 2 ) WILL HAVE SEVERAL SW BODIES ASSOCIATED WITH EACH ONE 3-Dimensional Geological/hydrogeological boundaries Aquifer boundary GWB boundary

11. Groundwater Status  WFD + ‘Daughter’ Groundwater Directive Good Status  The overall aim of the WFD is to achieve “Good Status” for all GWBs by 2015 Average GWB Conditions  Scale: Status assesses Average GWB Conditions “Prevent or Limit”  Local issues are managed under site specific “Prevent or Limit” legislation, but they may still impact on status

12. GWB Results: Quantitative Status  4 GWBs at Poor Status  2 due to unsustainable long- term abstraction  2 due to abstractions impacting on the supporting water level/flow conditions of wetlands

13. GWB Results: Chemical Status  111 GWBs at POOR STATUS  Relates to 14% of RoIs area  Main Drivers:  MRP contributing to SW Eutrophication (101 GWBs)  Metals from Historic Mining Activities (5 GWBs)  Contaminated land / Urban (2 GWBs)  Diffuse NO 3 (2 GWBs)

14. Issues Arising (Selected) 1)Nitrogen & TRAC waters 2)Groundwater as an input and a pathway to surface water 3)Groundwater Dependent Terrestrial Ecosystems (GWDTEs) 4)Phosphate in karst groundwater impacting on surface water ecosystems 5)Groundwater Threshold Values (TVs) 6)High status sites 7)OSWTSs 8)Nitrate Trends

15. Who undertakes water body classification?  EPA undertakes and is responsible for this work  Small Stream Risk Score (SSRS) method not used for status; but part of investigative monitoring

16. Drifting Ulva blooms (Green tides) (‘sea lettuce’!!) on the Brittany coast

18. N n

19. Nitrogen, TRAC Waters and Sea Lettuce  1 16% of TRAC waters are eutrophic or potentially eutrophic. Why? Due to the presence of nutrients, mainly N & P.  C Coastal waters EQS (median) for N = 2.6 mg/l (or 12 mg/l as NO 3 ) at fresh water interface  Main N Sources WWWTPs and diffuse agriculture  Short–term Implications:  A potential health hazard (H 2 S) AAn expensive and difficult collection & disposal issue MMedium to long–term Implications: IInvestment in upgrading WWTPs needed  Reduction in nitrate loss to groundwater  Lag time for reduction???

20. No longer sufficient to ‘see’ groundwater largely in terms of wells Springs Wells

21. Groundwater as a contributor to surface water

22. Weathered/broken rock zone as pathway for water and contaminants Hook Head, Co. Wexford

23. Pollardstown Fen - a GWDTE Groundwater as a contributor to groundwater dependent ecosystems (GWDTEs)

24. GWDTEs - Progress  Very little  Environmental Supporting Conditions not known:  N & P environmental quality standards needed  groundwater level and flow conditions  Progress, incl. monitoring, needed for next RBMP

25.  Rivers in blue are ‘less than good’ status mainly due to diffuse pressures  PO 4 in groundwater the main cause in red areas.  Specific measures to reduce PO 4 “leakage” to GW may be needed  Will existing measures be sufficient? Phosphate in GW: Discussion

26.  Why an issue?  Main cause of eutrophication of rivers  River MRP EQS low = 35µg/l P  P readily adsorbed in soil & subsoil, but where thin, can enter groundwater  Where an issue?  Vulnerable aquifers (i.e. thin soil/subsoil & sinking streams)  Karst aquifers, where high proportion of surface water comes from groundwater  Note: high pressures (e.g. LUs) not needed  Main cause: agriculture  Subsidiary: OSWTSs GWB GroupAverage MRP Concentration Galway Karst36  g/l Mayo Karst34  g/l Cork Karst25  g/l Clare Karst28  g/l Roscommon Karst25  g/l Kerry – Limerick Karst 45  g/l Measures introduced to improve SW Bodies will also have to consider GW inputs arising from diffuse agriculture and, in places, OSWTSs

27. Groundwater Threshold Values (TVs)  TVs are in the Groundwater Regulations and have been reported to the EU mean concentrations  TVs are mean concentrations not  TVs are not Emission Limit Values (ELVs) trigger values not  TVs are trigger values that prompt further investigation: not the boundary between GOOD and POOR status  TVs must be appropriate to the receptor, e.g. nHuman use (drinking water) nSurface water nWetlands

28. High Status Surface Water Bodies  9% of rivers and 28% of lakes.  Number of high quality river sites halved in last 20 years.  High status WBs are critical to species biodiversity  Deterioration to ‘good’ not allowed, therefore measures to prevent this of critical importance and a high priority  Sensitive to pressures (forestry, farming, peat extraction, rural housing) so ‘low level’ activities may cause the deterioration  Additional measures to protect these areas likely to be needed

29. OSWTSs (septic tanks etc)  Groundwater Status  Not a major issue  Individual wells affected  If new EPA CoP followed, pollution of groundwater should be minimal  But a legacy of existing polluted wells, particularly from ‘soak pits’

30. OSWTSs (septic tanks etc)  Surface Water Status  Contributes ~7% P overall  But significant locally  Areas with minimal soakage the issue – gley soils, clayey subsoils, low permeability bedrock  A legacy of bad decision-making by LAs  The future  EPA CoP; Building Regs; DEHLG Circular Letter  Some sites are “unsuitable” in practice

31. Some Context!! Sinéad The Stray Cat holiday house in west of Ireland Sewage pipe!!

32. 32 Ponded effluent

33. 33

34. 34 Start of percolation test Next day Conclusion: site is not suitable

35. 20-30% of impact due to OSWTSs Map source: CDM & Eastern RBD RBPM

36. Gley soils & limited soakage Map source: CDM & Eastern RBD RBPM

37. Drinking Water Protected Areas  Results of Status Test:  2 GWBs at POOR STATUS  Durrow WS, Laois  Ballyheigue WS, Kerry however  Nitrate main driver: however many MPs > 25 mg/l NO 3  But DWPA test only undertaken in MPs in EPA network!

38. Nitrate Trends in Rivers  NO 3 concentrations are stable  43% of all (surveillance + operational) stations had concs. 25 mg/l  Over 70% of surveillance stations had concs. 25mg/l  But more time and data needed to test for statistical significance.

39. Nitrate Trends in Groundwater  Trend analysis undertaken by EPA for 119 wells/springs  Statistically significant downward trend at 11 sites  Statistically significant upward trend at 12 sites  Environmentally and statistically significant upward trend at 2 sites There is no rivers EQS for nitrate. If one is chosen that is lower than the 37.5 mg/l NO 3 TV, then it will have implications for groundwater body status.

40. Arabic Proverb Literally “Into the well from which you drink do not throw stones” [Care for the water upon which you depend]