Case study:Fish pass on the Najerilla River: Difference between revisions

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{{Project overview
{{Project overview
|Project title=Fish pass on the Najerilla River
|Status=Complete
|Status=Complete
|Themes=Habitat and biodiversity
|Themes=Habitat and biodiversity
Line 13: Line 12:
|Main contact surname=Gonzalo
|Main contact surname=Gonzalo
|Multi-site=No
|Multi-site=No
|Project summary=The concerning weir was small and it served to supply irrigation communities in the area. In origin, the weir was of an approximate height of 40 cm. However, over time, an
erosion was generated downstream the obstacle so its height increased to 1.5 meters
and the weir became impassable. This was a problem since the community of fish in
the river is very varied and this obstacle became a serious problem for its movement
through the river.
Among the variety of existing fishways, in this particular case the chosen option was
the installation of a rock ramp. This type of device mimics the natural conditions of the
river. Usually have an inclined plane with a slope always ≤ 10%, in which blocks of
stone of considerable size are inserted.
The advantages of this kind of devices are:
- It offers better conditions of passage (both upstream and downstream).
- Its appearance is better integrated with the environment.
- It allows the evacuation of flows (including ecological flows).
- It does not alter the structure of the obstacle.
- Low maintenance cost.
On the other hand the disadvantages are:
- It requires more space to be built.
- It needs more flow to ensure their functionality.
- It is only applicable to obstacles with small-medium heights (less than 2.5 m).
In this case, the Najerilla River presents marked contrasts of flow between high and
low waters, so that it was proposed to make two sections of the fishway: a deeper
central ramp of about 10 m wide and two shallower lateral ones of 4 m wide each.
Stone blocks of about 1 meter diameter were placed so that no channels were formed
where the water reaches a high speed and impedes the ascent of the fish. Finally,
gravels have been embedded in the surface of the ramp in order to increase the
roughness of the ramp bottom. The slope of the ramp was 5%
|Monitoring surveys and results=The implementation
of monitoring
programs is essential
to evaluate the
correct functioning of
the fishways. In this
regard, there is a lack
of information about
this action.
|Project title=Fish pass on the Najerilla River
}}
}}
{{Image gallery}}
{{Image gallery}}
{{Case study image
|File name=Rock ramps Najerilla.png
|Caption=Rock ramp in the Najerilla River with a low flow (left) and with a higher flow (right). Photo credits: Pedro Boné.
}}
{{Image gallery end}}
{{Image gallery end}}
{{Toggle button}}
{{Toggle button}}
{{Toggle content start}}
{{Toggle content start}}
{{Case study subcatchment}}
{{Case study subcatchment}}
{{Site}}
{{Site
{{Project background}}
|Heavily modified water body=No
{{Motivations}}
|Protected species present=No
{{Measures}}
|Invasive species present=No
|Species=Brown trout (Salmo trutta), Luciobarbus graellsii, Barbus meridionalis, Parachondrostoma miegii, Gobio lozanoi
|Mean discharge category=10 - 100 m³/s
|Mn discharge=16.5
}}
{{Project background
|Total cost category=50 - 100 k€
|Total1 cost=61.8
|Funding sources=Part of this work was supported through FEADER funding (European funding to improve the rural development).
}}
{{Motivations
|Specific mitigation=Barriers to fish migration,
|Hydromorphological quality elements=Continuity for organisms,
|Biological quality elements=Fish: Abundance, Fish: Species composition,
|Other motivation=It generates a profit in the agricultural communities of the zone.
}}
{{Measures
|Bank and bed modifications measure=Creation of fish passes,
}}
{{Hydromorphological quality elements header}}
{{Hydromorphological quality elements header}}
{{End table}}
{{End table}}
Line 36: Line 105:
{{Additional Documents end}}
{{Additional Documents end}}
{{Additional links and references header}}
{{Additional links and references header}}
{{Additional links and references
|Link=europe.wetlands.org/publications/river-fragmentation-analysis-spain/
|Description=A link on the Wetlands International website to a document that describes the project.
}}
{{Additional links and references
|Link=http://www.ecohidraulica.com/
|Description=All information on this page is copied from the document mentioned above which is written by Ecohidráulica, S.L.
}}
{{Additional links and references footer}}
{{Additional links and references footer}}
{{Supplementary Information}}
{{Supplementary Information
|Information=References
 
Boné P. (2015) Rampa para peces en el Río Najerilla (Torremontalbo, La Rioja). Buena
práctica para recuperar la continuidad del curso fluvial.
 
Confederación Hidrográfica del Ebro (2009). Pasos de peces para permeabilizar
estructuras transversales en la cuenca del Ebro. Tecnoma.
 
Sanz-Ronda, J. et al. (2015) Sistemas de adaptación de pasos de agua a la migración de
los peces. Ejemplos realizados en España. Seminario técnico LIFE-Miera: Gestión de un
corredor ecológico.
}}
{{Toggle content end}}
{{Toggle content end}}

Latest revision as of 14:12, 24 July 2018

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Location: 42° 27' 54.52" N, 2° 42' 21.08" W
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Project overview

Edit project overview
Status Complete
Project web site
Themes Habitat and biodiversity
Country Spain
Main contact forename Rincón Sanz
Main contact surname Gonzalo
Main contact user ID
Contact organisation
Contact organisation web site
Partner organisations
Parent multi-site project
This is a parent project
encompassing the following
projects 		No
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Project summary

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The concerning weir was small and it served to supply irrigation communities in the area. In origin, the weir was of an approximate height of 40 cm. However, over time, an erosion was generated downstream the obstacle so its height increased to 1.5 meters and the weir became impassable. This was a problem since the community of fish in the river is very varied and this obstacle became a serious problem for its movement through the river.

Among the variety of existing fishways, in this particular case the chosen option was the installation of a rock ramp. This type of device mimics the natural conditions of the river. Usually have an inclined plane with a slope always ≤ 10%, in which blocks of stone of considerable size are inserted.

The advantages of this kind of devices are:

- It offers better conditions of passage (both upstream and downstream).

- Its appearance is better integrated with the environment.

- It allows the evacuation of flows (including ecological flows).

- It does not alter the structure of the obstacle.

- Low maintenance cost.

On the other hand the disadvantages are:

- It requires more space to be built.

- It needs more flow to ensure their functionality.

- It is only applicable to obstacles with small-medium heights (less than 2.5 m).

In this case, the Najerilla River presents marked contrasts of flow between high and low waters, so that it was proposed to make two sections of the fishway: a deeper central ramp of about 10 m wide and two shallower lateral ones of 4 m wide each. Stone blocks of about 1 meter diameter were placed so that no channels were formed where the water reaches a high speed and impedes the ascent of the fish. Finally, gravels have been embedded in the surface of the ramp in order to increase the roughness of the ramp bottom. The slope of the ramp was 5%

Monitoring surveys and results

Edit project overview to modify the Monitoring survey and results.


The implementation of monitoring programs is essential to evaluate the correct functioning of the fishways. In this regard, there is a lack of information about this action.

Lessons learnt

This case study hasn’t got any lessons learnt, you can add some by editing the project overview.


Image gallery


Rock ramp in the Najerilla River with a low flow (left) and with a higher flow (right). Photo credits: Pedro Boné.
ShowHideAdditionalImage.png


Catchment and subcatchment



Site

Name
WFD water body codes
WFD (national) typology
WFD water body name
Pre-project morphology
Reference morphology
Desired post project morphology
Heavily modified water body No
National/international site designation
Local/regional site designations
Protected species present No
Invasive species present No
Species of interest Brown trout (Salmo trutta), Luciobarbus graellsii, Barbus meridionalis, Parachondrostoma miegii, Gobio lozanoi
Dominant hydrology
Dominant substrate
River corridor land use
Average bankfull channel width category
Average bankfull channel width (m)
Average bankfull channel depth category
Average bankfull channel depth (m)
Mean discharge category 10 - 100 m³/s
Mean annual discharge (m3/s) 16.516.5 m³/s <br />16,500 l/s <br />
Average channel gradient category
Average channel gradient
Average unit stream power (W/m2)


Project background

Reach length directly affected (m)
Project started
Works started
Works completed
Project completed
Total cost category 50 - 100 k€
Total cost (k€) 61.861.8 k€ <br />61,800 € <br />
Benefit to cost ratio
Funding sources Part of this work was supported through FEADER funding (European funding to improve the rural development).

Cost for project phases

Phase cost category cost exact (k€) Lead organisation Contact forename Contact surname
Investigation and design
Stakeholder engagement and communication
Works and works supervision
Post-project management and maintenance
Monitoring



Reasons for river restoration

Mitigation of a pressure Barriers to fish migration
Hydromorphology Continuity for organisms
Biology Fish: Abundance, Fish: Species composition
Physico-chemical
Other reasons for the project It generates a profit in the agricultural communities of the zone.


Measures

Structural measures
Bank/bed modifications Creation of fish passes
Floodplain / River corridor
Planform / Channel pattern
Other
Non-structural measures
Management interventions
Social measures (incl. engagement)
Other


Monitoring

Hydromorphological quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Biological quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Physico-chemical quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Any other monitoring, e.g. social, economic

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative


Monitoring documents



Additional documents and videos


Additional links and references

Link Description
http://europe.wetlands.org/publications/river-fragmentation-analysis-spain/ A link on the Wetlands International website to a document that describes the project.
http://http://www.ecohidraulica.com/ All information on this page is copied from the document mentioned above which is written by Ecohidráulica, S.L.

Supplementary Information

Edit Supplementary Information

References

Boné P. (2015) Rampa para peces en el Río Najerilla (Torremontalbo, La Rioja). Buena práctica para recuperar la continuidad del curso fluvial.

Confederación Hidrográfica del Ebro (2009). Pasos de peces para permeabilizar estructuras transversales en la cuenca del Ebro. Tecnoma.

Sanz-Ronda, J. et al. (2015) Sistemas de adaptación de pasos de agua a la migración de los peces. Ejemplos realizados en España. Seminario técnico LIFE-Miera: Gestión de un corredor ecológico.


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