Difference between revisions of "Template factsheet"
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| − | * Site name: | + | = Information contained in the factsheet for a case study = |
| − | + | ||
| + | == Field name: == | ||
| + | |||
| + | * Country | ||
| + | * River Name | ||
| + | * Site Name | ||
| + | * River typology | ||
| + | * National code and River type name | ||
| + | * Hydromorphological quality elements | ||
| + | * Biological quality elements | ||
| + | * Pressures | ||
| + | * Measures | ||
| + | * Project size | ||
| + | * Approximate costs | ||
| + | * Synergy | ||
| + | * Status | ||
| + | * Period of realization | ||
| + | * Evaluation | ||
| + | * Implemented by | ||
| + | |||
| + | |||
| + | == Field description: == | ||
| + | |||
* Country: | * Country: | ||
| + | -> Select from the list of countries of the world | ||
* River Name: | * River Name: | ||
| + | -> Name of the river where the project is implemented | ||
* Site Name: | * Site Name: | ||
| + | -> Indicative name for the particular location of the project | ||
| − | * River typology: | + | * River typology: |
| − | + | -> Select according to WFD classification for European water bodies (see [[ River Typology|River_typology]]) | |
| − | + | 1 Location | |
| − | + | 1.1 Latitude | |
| − | + | 1.2 Longitude | |
| + | 2 Altitude | ||
| + | 2.1 high: > 800 m | ||
| + | 2.2 mid-altitude: 200 to 800 m | ||
| + | 2.3 lowland: < 200 m | ||
| + | 3 Catchment area | ||
| + | 3.1 small: 10 to 100 km<sup>2</sup> | ||
| + | 3.2 medium: >100 to 1000 km<sup>2</sup> | ||
| + | 3.3 large: >1000 to 10 000 km<sup>2</sup> | ||
| + | 3.4 very large: > 10 000 km<sup>2</sup> | ||
| + | 4 Geology | ||
| + | 4.1 calcareous | ||
| + | 4.2 siliceous | ||
| + | 4.3 organic | ||
* National code and River type name: | * National code and River type name: | ||
| + | -> According to national river typology | ||
* Hydromorphological quality elements: | * Hydromorphological quality elements: | ||
| − | -> select from list: | + | -> select from list: (see [[HYMOQE|HYMOQE]]) |
1 Hydrological regime | 1 Hydrological regime | ||
1.1 Quantity and dynamics of water flow | 1.1 Quantity and dynamics of water flow | ||
| Line 29: | Line 68: | ||
* Biological quality elements: | * Biological quality elements: | ||
| − | -> Select from list: | + | -> Select from list: (see [[BQE|BQE]]) |
1 Phytoplankton | 1 Phytoplankton | ||
2 Macrophytes and phytobenthos | 2 Macrophytes and phytobenthos | ||
| Line 36: | Line 75: | ||
* Pressures: | * Pressures: | ||
| − | -> Select from list: | + | -> Select from list: (see [[Pressures|Pressures]]) |
| − | 1 Water abstractions | + | 1 Water abstractions |
| − | 1.1 Surface water abstraction | + | 1.1 Surface water abstraction |
| − | 1.2 Groundwater abstractions | + | 1.2 Groundwater abstractions |
| − | 2 Flow regulations | + | 2 Flow regulations |
2.1 Discharge diversions and returns | 2.1 Discharge diversions and returns | ||
2.2 Interbasin flow transfers | 2.2 Interbasin flow transfers | ||
| Line 47: | Line 86: | ||
2.5 Reservoir flushing | 2.5 Reservoir flushing | ||
2.6 Sediment discharge from dredging | 2.6 Sediment discharge from dredging | ||
| − | 3 River fragmentation | + | 3 River fragmentation |
3.1 Artificial barriers upstream from the site | 3.1 Artificial barriers upstream from the site | ||
3.2 Artificial barriers downstream from the site | 3.2 Artificial barriers downstream from the site | ||
3.3 Colinear connected reservoir | 3.3 Colinear connected reservoir | ||
| − | 4 Morphological alterations | + | 4 Morphological alterations |
4.1 Impoundment | 4.1 Impoundment | ||
4.2 Channelisation / cross section alteration | 4.2 Channelisation / cross section alteration | ||
| Line 60: | Line 99: | ||
4.7 Sand and gravel extraction | 4.7 Sand and gravel extraction | ||
4.8 Loss of vertical connectivity | 4.8 Loss of vertical connectivity | ||
| − | 5 Other hydromorphological pressures | + | 5 Other hydromorphological pressures |
5.1 Other pressures | 5.1 Other pressures | ||
* Measures: | * Measures: | ||
| − | -> Select from list: | + | -> Select from list: (see [[Measures|Measures]]) |
| − | 1 Water flow quantity improvement | + | 1 Water flow quantity improvement |
01.1 Reduce surface water abstraction without return | 01.1 Reduce surface water abstraction without return | ||
01.2 Reduce surface water abstraction with return | 01.2 Reduce surface water abstraction with return | ||
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01.8 Recycle used water | 01.8 Recycle used water | ||
01.9 Reduce water consumption | 01.9 Reduce water consumption | ||
| − | 2 Sediment flow quantity improvement | + | 2 Sediment flow quantity improvement |
02.1 Add/feed sediment | 02.1 Add/feed sediment | ||
02.2 Reduce undesired sediment input | 02.2 Reduce undesired sediment input | ||
| Line 84: | Line 123: | ||
02.6 Manage dams for sediment flow | 02.6 Manage dams for sediment flow | ||
02.7 Trap sediments | 02.7 Trap sediments | ||
| − | 3 Flow dynamics improvement | + | 3 Flow dynamics improvement |
03.1 Ensure minimum flows | 03.1 Ensure minimum flows | ||
03.2 Establish environmental flows / naturalise flow regimes | 03.2 Establish environmental flows / naturalise flow regimes | ||
| Line 94: | Line 133: | ||
03.8 Link flood reduction with ecological restoration | 03.8 Link flood reduction with ecological restoration | ||
03.9 Manage aquatic vegetation | 03.9 Manage aquatic vegetation | ||
| − | 4 Longitudinal connectivity improvement | + | 4 Longitudinal connectivity improvement |
04.1 Remove barrier | 04.1 Remove barrier | ||
04.2 Install fish pass/bypass/side channel for upstream migration | 04.2 Install fish pass/bypass/side channel for upstream migration | ||
| Line 101: | Line 140: | ||
04.5 Manage sluice and weir operation for fish migration | 04.5 Manage sluice and weir operation for fish migration | ||
04.6 Fish-friendly turbines and pumping stations | 04.6 Fish-friendly turbines and pumping stations | ||
| − | 5 River bed depth and width variation improvement | + | 5 River bed depth and width variation improvement |
05.1 Remeander water courses | 05.1 Remeander water courses | ||
05.2 Widen water courses | 05.2 Widen water courses | ||
| Line 108: | Line 147: | ||
05.5 Narrow water courses | 05.5 Narrow water courses | ||
05.6 Create low flow channels in over-sized channels | 05.6 Create low flow channels in over-sized channels | ||
| − | 6 In-channel structure and substrate improvement | + | 6 In-channel structure and substrate improvement |
06.1 Initiate natural channel dynamics to promote natural regeneration | 06.1 Initiate natural channel dynamics to promote natural regeneration | ||
06.2 Remove sediments | 06.2 Remove sediments | ||
| Line 118: | Line 157: | ||
06.8 Remove or modify in-channel hydraulic structures | 06.8 Remove or modify in-channel hydraulic structures | ||
06.9 Reduce impact of dredging | 06.9 Reduce impact of dredging | ||
| − | 7 Riparian zone improvement | + | 7 Riparian zone improvement |
07.1 Adjust land use to develop riparian vegetation | 07.1 Adjust land use to develop riparian vegetation | ||
07.2 Revegetate riparian zones | 07.2 Revegetate riparian zones | ||
| Line 125: | Line 164: | ||
07.5 Adjust land use to reduce nutrient, sediment input or shore erosion | 07.5 Adjust land use to reduce nutrient, sediment input or shore erosion | ||
07.6 Develop riparian forest | 07.6 Develop riparian forest | ||
| − | 8 Floodplains/off-channel/lateral connectivity habitats improvement | + | 8 Floodplains/off-channel/lateral connectivity habitats improvement |
08.1 Lower river banks or floodplains to enlarge inundation and flooding | 08.1 Lower river banks or floodplains to enlarge inundation and flooding | ||
08.2 Set back embankments, levees or dikes | 08.2 Set back embankments, levees or dikes | ||
| Line 135: | Line 174: | ||
08.8 Construct semi-natural/articificial wetlands or aquatic habitats | 08.8 Construct semi-natural/articificial wetlands or aquatic habitats | ||
08.9 Isolation of water bodies | 08.9 Isolation of water bodies | ||
| − | 9 Other aims to improve hydrological or morphological conditions | + | 9 Other aims to improve hydrological or morphological conditions |
09.1 Other measures | 09.1 Other measures | ||
| − | * Project size | + | * Project size: |
| + | -> Length or area of the works and/or rehabilitation activities | ||
| − | * Approximate costs | + | * Approximate costs: |
-> Select from list: | -> Select from list: | ||
| − | + | 1 < 10 000 Euros | |
| − | + | 2 > 10 000 - < 100 000 Euros | |
| − | + | 3 > 100 000 - < 1 000 000 Euros | |
| − | + | 4 > 1 000 000 Euros | |
* Synergy: | * Synergy: | ||
| + | -> Indicate interaction with other objectives: e.g. flood protection, recreation, etc. | ||
* Status: | * Status: | ||
-> Select from list: | -> Select from list: | ||
| − | + | 1 Planned | |
| − | + | 2 In progress | |
| + | 3 Realised | ||
* Period of realization: | * Period of realization: | ||
| + | -> Period in years during which the project was implemented | ||
* Evaluation: | * Evaluation: | ||
-> Select from list: | -> Select from list: | ||
| − | + | 1 Hydromorphological | |
| − | + | 2 Ecological changes | |
| − | + | 3 Hydromorphological and ecological changes | |
| − | + | 4 None | |
* Implemented by: | * Implemented by: | ||
-> Institution responsible for the implementation | -> Institution responsible for the implementation | ||
Latest revision as of 13:00, 20 June 2010
Information contained in the factsheet for a case study
Field name:
- Country
- River Name
- Site Name
- River typology
- National code and River type name
- Hydromorphological quality elements
- Biological quality elements
- Pressures
- Measures
- Project size
- Approximate costs
- Synergy
- Status
- Period of realization
- Evaluation
- Implemented by
Field description:
- Country:
-> Select from the list of countries of the world
- River Name:
-> Name of the river where the project is implemented
- Site Name:
-> Indicative name for the particular location of the project
- River typology:
-> Select according to WFD classification for European water bodies (see River_typology) 1 Location 1.1 Latitude 1.2 Longitude 2 Altitude 2.1 high: > 800 m 2.2 mid-altitude: 200 to 800 m 2.3 lowland: < 200 m 3 Catchment area 3.1 small: 10 to 100 km2 3.2 medium: >100 to 1000 km2 3.3 large: >1000 to 10 000 km2 3.4 very large: > 10 000 km2 4 Geology 4.1 calcareous 4.2 siliceous 4.3 organic
- National code and River type name:
-> According to national river typology
- Hydromorphological quality elements:
-> select from list: (see HYMOQE) 1 Hydrological regime 1.1 Quantity and dynamics of water flow 1.2 Connection to groundwater bodies 2 River continuity 2.1 River continuity 3 Morphological conditions 3.1 River depth and width variation 3.2 Structure and substrate of the river bed 3.3 Structure of the riparian zone 3.4 Structure of the floodplain
- Biological quality elements:
-> Select from list: (see BQE) 1 Phytoplankton 2 Macrophytes and phytobenthos 3 Benthic invertebrates 4 Fish
- Pressures:
-> Select from list: (see Pressures) 1 Water abstractions 1.1 Surface water abstraction 1.2 Groundwater abstractions 2 Flow regulations 2.1 Discharge diversions and returns 2.2 Interbasin flow transfers 2.3 Hydrological regime modification 2.4 Hydropeaking 2.5 Reservoir flushing 2.6 Sediment discharge from dredging 3 River fragmentation 3.1 Artificial barriers upstream from the site 3.2 Artificial barriers downstream from the site 3.3 Colinear connected reservoir 4 Morphological alterations 4.1 Impoundment 4.2 Channelisation / cross section alteration 4.3 Alteration of riparian vegetation 4.4 Alteration of instream habitat 4.5 Embankments, levees or dikes 4.6 Sedimentation and sediment input 4.7 Sand and gravel extraction 4.8 Loss of vertical connectivity 5 Other hydromorphological pressures 5.1 Other pressures
- Measures:
-> Select from list: (see Measures) 1 Water flow quantity improvement 01.1 Reduce surface water abstraction without return 01.2 Reduce surface water abstraction with return 01.3 Improve water retention 01.4 Reduce groundwater extraction 01.5 Improve/Create water storage 01.6 Increase minimum flows 01.7 Water diversion and transfer 01.8 Recycle used water 01.9 Reduce water consumption 2 Sediment flow quantity improvement 02.1 Add/feed sediment 02.2 Reduce undesired sediment input 02.3 Prevent sediment accumulation in reservoirs 02.4 Reduce erosion 02.5 Improve continuity of sediment transport 02.6 Manage dams for sediment flow 02.7 Trap sediments 3 Flow dynamics improvement 03.1 Ensure minimum flows 03.2 Establish environmental flows / naturalise flow regimes 03.3 Modify hydropeaking 03.4 Increase flood frequency and duration in riparian zones or floodplains 03.5 Reduce anthropogenic flow peaks 03.6 Favour morphogenic flows 03.7 Shorten the length of impounded reaches 03.8 Link flood reduction with ecological restoration 03.9 Manage aquatic vegetation 4 Longitudinal connectivity improvement 04.1 Remove barrier 04.2 Install fish pass/bypass/side channel for upstream migration 04.3 Facilitate downstream migration 04.4 Modify culverts, syphons, piped streams 04.5 Manage sluice and weir operation for fish migration 04.6 Fish-friendly turbines and pumping stations 5 River bed depth and width variation improvement 05.1 Remeander water courses 05.2 Widen water courses 05.3 Shallow water courses 05.4 Allow/increase lateral channel migration or river mobility 05.5 Narrow water courses 05.6 Create low flow channels in over-sized channels 6 In-channel structure and substrate improvement 06.1 Initiate natural channel dynamics to promote natural regeneration 06.2 Remove sediments 06.3 Modify aquatic vegetation maintenance 06.4 Introduce large wood 06.5 Add sediments 06.6 Remove bank fixation 06.7 Recreate gravel bar and riffles 06.8 Remove or modify in-channel hydraulic structures 06.9 Reduce impact of dredging 7 Riparian zone improvement 07.1 Adjust land use to develop riparian vegetation 07.2 Revegetate riparian zones 07.3 Remove bank fixation 07.4 Remove non-native substratum 07.5 Adjust land use to reduce nutrient, sediment input or shore erosion 07.6 Develop riparian forest 8 Floodplains/off-channel/lateral connectivity habitats improvement 08.1 Lower river banks or floodplains to enlarge inundation and flooding 08.2 Set back embankments, levees or dikes 08.3 Reconnect backwaters and wetlands 08.4 Remove hard engineering structures that impede lateral connectivity 08.5 Restore wetlands 08.6 Retain floodwater 08.7 Improve backwaters 08.8 Construct semi-natural/articificial wetlands or aquatic habitats 08.9 Isolation of water bodies 9 Other aims to improve hydrological or morphological conditions 09.1 Other measures
- Project size:
-> Length or area of the works and/or rehabilitation activities
- Approximate costs:
-> Select from list: 1 < 10 000 Euros 2 > 10 000 - < 100 000 Euros 3 > 100 000 - < 1 000 000 Euros 4 > 1 000 000 Euros
- Synergy:
-> Indicate interaction with other objectives: e.g. flood protection, recreation, etc.
- Status:
-> Select from list: 1 Planned 2 In progress 3 Realised
- Period of realization:
-> Period in years during which the project was implemented
- Evaluation:
-> Select from list: 1 Hydromorphological 2 Ecological changes 3 Hydromorphological and ecological changes 4 None
- Implemented by:
-> Institution responsible for the implementation
