Last update
2025
Summary
The River Tolka runs through Dublin, Ireland. In Tolka Valley Park, a suite of measures was implemented to slow flood flows, reduce pollution and support wildlife: runoff retention ponds, bank re-profiling to slow flows and prevent erosion, riparian tree planting, and integrated constructed wetlands (ICWs) to improve water quality (once leachate from a former landfill was detected). Later, a fountain and barley-straw bales were used to limit algal blooms, and invasive plants were managed with biodegradable matting and planting.
Built in two phases (1999–2001; 2009–2013 Greenway), the ICWs treat polluted stormwater from the Finglaswood Stream before it enters the Tolka. Since 2019, sources confirm the site remains operational and biodiversity-rich (reed/sedge swamps, breeding mute swan; spawning common frog). Dublin City Council reports active invasive-alien-species control in the park, and the Luas Finglas project includes remediation/mitigation works to the existing ICW, with design notes that low flows are routed through the ICW and higher flows bypass to the river. Governance/cost snapshots add context: the first ICW was relatively low-cost (~€40k) while the 2009–2013 phase exceeded €3 m. Tolka Valley Park is now ranked among Dublin’s most important biodiversity sites due to the river and wetland chain.
Built in two phases (1999–2001; 2009–2013 Greenway), the ICWs treat polluted stormwater from the Finglaswood Stream before it enters the Tolka. Since 2019, sources confirm the site remains operational and biodiversity-rich (reed/sedge swamps, breeding mute swan; spawning common frog). Dublin City Council reports active invasive-alien-species control in the park, and the Luas Finglas project includes remediation/mitigation works to the existing ICW, with design notes that low flows are routed through the ICW and higher flows bypass to the river. Governance/cost snapshots add context: the first ICW was relatively low-cost (~€40k) while the 2009–2013 phase exceeded €3 m. Tolka Valley Park is now ranked among Dublin’s most important biodiversity sites due to the river and wetland chain.
Position
Latitude
53.377121
Longitude
-6.303277
Project
NWRM
National Id
Ireland_001
Installation date
1999-2000 (original ponds) 2012-2013 (Greenway ponds)
Implementation Status
Contact
Heather Williams, AMEC
RBD code
IEEA
Transboundary
0
Photo gallery
Location of the project
The River Tolka is located in eastern Ireland. It flows eastwards through Dublin and in to the Irish sea. The improvement sites are located along the urban reaches of the Tolka, particularly at the Tolka Valley Park.
NUTS Code
IE02 - Southern and Eastern
Project's objectives
Treat polluted stormwater/leachate (reduce odours, improve pond/river water quality), slow storm runoff before Tolka entry, enhance biodiversity/amenity, and establish a greenway connection. (No quantified pollutant-removal targets published for this site.)
Involved Partners
| Authority type | Authority name | Role | Comments |
|---|---|---|---|
Climate zone
cool temperate moist
Temperature
11
Precipitation
715
Runoff
357
Runoff coefficient
0.5 - 0.7
Runoff range
300 - 450 mm
Elevation range
26 m
Vegetation class
Within/around the ICW the dominant habitats are reed & large sedge swamp (FS1) with Phragmites, Typha, Juncus, Iris pseudacorus; plus amenity grassland and wet woodland mosaics.
Water bodies: Ecological Status
Poor
Water bodies: Chemical Status
Unknown
Water quality status
Urban wastewater/urban runoff & hydromorphology pressures; eutrophication/sedimentation noted locally.
Project scale
Micro
Project scale specification
A site-specific intervention at park/tributary scale (ICW cells, pond management, bank engineering) rather than a whole-catchment scheme.
Performance timescale
< 1 year
Project area
18.2 ha
Area specifications
The size of the Tolka Valley Park is 18.2 ha : a network of wetlands, parklands and walkways. Does not include previously-existing Tolka Valley park, or the linear extent of bank engineering works, or the area of anti-invasive species matting. Nor does it describe the actual area of detention ponds of ICWs
Functionality (cross-cutting flood management, water quality, biodiversity).
Constructed wetlands depend on suitable hydrological regime that allows permanent presence of water in them.
Availability of parkland space prior to the project
Negative influence effectiveness
Original detention pond was installed by an old landfill site, and negatively affected water quality of pond. An Integrated Constructed Wetland was constructed to alleviate this.
Total cost
€ 4,100,000
Costs total information
Full cost of the "Greenway" programme of which the ponds and wetlands were part.
Costs land acquisition information
No land aquisition was needed, it was already public property.
Information on Economic costs - income loss
Assume none (land was already public parkland prior to implementation)
Compensations
0
Compensations annual information
Assume none (land was already public parkland prior to implementation).
Policy context
The Tolka has poor ecological status (WFD) due to diffuse pollution (urban runoff) and point pollution (waste disposal sites).
Land ownership
Dublin City Council owns/manages the Tolka Valley Park lands that host the ICW (within Dublin City).
Community involvment
No
Design consultation activity
| Activity stage | Name | Key issues | Comments |
|---|
Policy target
| Target purpose |
|---|
|
Pollutants Removal
|
|
Peak-flow reduction
|
|
Improved Biodiversity
|
|
Oher Societal Benefits
|
Target Remarks
Flood control and flood risk mitigation, regulation of the chemical status of freshwater, Biodiversity and gene-pool conservation in riparian areas, Mass stabilisation and control of erosion rates.
Policy pressure
| Pressure directive | Relevant pressure |
|---|---|
|
WFD identified pressure
|
Diffuse – Urban Runoff Point – Waste Disposal Sites
|
|
Other EU
|
Birds Directive, Habitats Directive
|
Policy impact
| Impact directive | Relevant impact |
|---|---|
|
WFD identified impact
|
Chemical pollution
|
|
Other EU
|
River feeds into Special Protection Area (South Dublin Bay and River Tolka Estuary SPA) with important wildfowl populations
|
Requirement directive
| Requirement directive | Specification |
|---|---|
|
WFD-achievement of good ecological status
|
Improving water quality and providing additional aquatic habitat
|
|
WFD-achievement of good chemical status
|
Addressing pollution
|
|
Floods Directive-mitigating Flood Risk
|
Managing runoff and reducing flood risk to surrounding parts of Dublin
|
|
Other EU
|
Improving conditions for SPA downstream
|
Contractual arrangements
0
| Arrangement type | Responsibility | Role | Name | Comments |
|---|
Part of wider plan
1
Wider plan type
| Wider plan type | Wider plan focus | Name | Comments |
|---|---|---|---|
|
National
|
Environment & Biodiversity
|
Renew4GPP (Ireland pilot project)
|
Control of invasive species
|
Biodiversity survey carried out. Water quality monitoring also carried out, although it has not been possible to obtain any details.
There has been varied monitoring at the Tolka. Monitoring of biodiversity and water quality is ongoing but no detailed methodology or frequency is available in public sources. Monitoring relevant to the measure include ecology surveys (incl. macrophytes, amphibians, invertebrates), and water quality monitoring.
Maintenance
Routine maintenance by Dublin City Council, including vegetation management and sediment removal.
Catchment outlet
Performance of the retention ponds/ wetlands is monitored by measurements of water quality and observation of fauna and flora.
Comparison of pre- versus post- implementation. Mostly qualitative for ecological and erosion effects; and also for attenuation of landfill leachate. Quantitative data available for chemical improvements relating to barley straw.
- Flood security and protection.
- Amenities: Enhanced recreational value improved walking/cycling access, increased park usage, fishing.
- Possible improvements down-river in the Dublin Bay area and SPA, and therefore on ecosystem services provided there (improved coastal water quality).
- Amenities: Enhanced recreational value improved walking/cycling access, increased park usage, fishing.
- Possible improvements down-river in the Dublin Bay area and SPA, and therefore on ecosystem services provided there (improved coastal water quality).
The measures have contributed to the overall benefits provided by the Tolka Greenway improvement scheme, including providing a green corridor and amenity space. Better angling and local wildlife interest have been provided by the measure. The scheme as a whole provides extended cycle routes and recreative space. The Tolka Park is promoted as a touristic area by the city of Dublin.
Reduction in antisocial behaviour due to more active public space, strong community acceptance and integration into local planning.
Information on runoff reduction
Ponds and wetlands provide attenuation for surface runoff, although no quantified information has been received
Information on Peak flow rate reduction
Ponds and wetlands provide attenuation for surface runoff, although no quantified information has been received
Information on Increased groundwater level
Assumed to be minor or no effect. Wetland design promotes waterlogged soils in targeted zones, fostering hydrophilic vegetation. No quantitative data available on changes in groundwater levels or soil moisture balance.
Information on Reducing flood risks, quantity
Ponds and wetlands provide attenuation for surface runoff, although no quantified information has been received.
Ecosystem erosion control
1
Information on Ecosystem erosion control impact
Before and after photos of sediment capture measures reveal less exposed soil on river banks.
Water quality overall improvements
Positive impact-WQ improvement
Information on Water quality overall improvements
The wetland influences water quality on its own. In addition, barley straw bales were added to ponds in 2012 to prevent algal blooms (and can be assumed to have been successful, since there has been no evidence of the algae since).
Wq Improvements n unit
% reduction pf pollutant
Information on Water quality Improvements (N)
The constructed integrated wetland achieved:
- 91% reduction in ammonia concentrations
- 16% reduction in nitrate concentrations
- 6.5% reduction in nitrite concentrations.
The addition of barley straw provided further benefits, reducing ammonia by 55% and nitrate by 38%
- 91% reduction in ammonia concentrations
- 16% reduction in nitrate concentrations
- 6.5% reduction in nitrite concentrations.
The addition of barley straw provided further benefits, reducing ammonia by 55% and nitrate by 38%
Information on Water quality Improvements (e.coli)
The addition of barley straw to the pond/weltand achieved a 99% reduction in e-coli concentrations
Soil quality overall soil improvements
N/A info
Information on Soil quality overall soil improvements
Some erosion control measures were implemented on the floodplain of the River Tolka. These measures may improve soil quality by retaining soils, but no specific information was available.
1
In 2011, three wetland ponds were created at Cardiffsbridge to filter runoff before it reaches the river. These wetlands now support rich wildlife, with planted reeds and sedges thriving alongside naturally colonized species. Dominant plants include common reed, bulrush, and yellow iris, with wetter areas also hosting wild angelica and reed canary grass. Otters and salmon have returned since 2011, indicating better river health.
Ecosystem impact climate regulation
No specific impact
Mitigation other biophysical impacts
Contributes to water quality improvements that benefit the downstream SPA (Birds Directive).
Ecosystem provisioning services
1
Information on Ecosystem provisioning services
Angling quality has improved as a result of these and other actions in the Tolka catchment.
Key lessons
The Tolka Valley Park Integrated Constructed Wetlands (ICWs) in Dublin are a notable example of using nature-based solutions to enhance urban water quality and biodiversity.
- Parks in urban areas can serve as biodiversity reserves and offer opportunities to contribute to achieving good ecological status of waterbodies under the WFD.
- Soft engineering techniques can be cost-effective and enhance the biodiversity potential of urban cactchments.
- Local community involvement is key to project success.
- Parks in urban areas can serve as biodiversity reserves and offer opportunities to contribute to achieving good ecological status of waterbodies under the WFD.
- Soft engineering techniques can be cost-effective and enhance the biodiversity potential of urban cactchments.
- Local community involvement is key to project success.
Success factor(s)
| Success factor type | Success factor role | Comments | Order |
|---|---|---|---|
|
Attitude of relevant stakeholders
|
main factor
|
1
|
|
|
Attitude of the public
|
secondary factor
|
2
|
Driver
| Driver type | Driver role | Comments | Order |
|---|---|---|---|
|
Balancing different objectives
|
main driver
|
There were multiple objectives to the improvements to the Tolka, relating to the WFD, Floods Directive, EU LIFE Project, "Greenway" development, recreational and access objectives in Dublin
|
1
|
Transferability
The Tolka Valley constructed wetlands are largely transferable to other urban or peri-urban areas facing water pollution, stormwater runoff, and biodiversity loss. Their modular design, low maintenance needs, and ability to deliver multiple benefits make them appealing for cities aiming to implement cost-effective, nature-based solutions.
However, some challenges may limit direct replication. Constructed wetlands require adequate space, suitable hydrology, and community support. Effectiveness may also vary depending on climate and pollution type. Therefore, while the concept is broadly applicable, site-specific assessments are essential for success.
However, some challenges may limit direct replication. Constructed wetlands require adequate space, suitable hydrology, and community support. Effectiveness may also vary depending on climate and pollution type. Therefore, while the concept is broadly applicable, site-specific assessments are essential for success.
Basin characteristics influence
This type of measures could be applied widely across Europe, requiring only a relatively small area of open land next to an urban river. The effectiveness in cold climates, where ponds or wetlands are likely to freeze in winter, would need consideration.
Source(s)
English