Difference between revisions of "Restore wetlands"
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*HYMO (general and specified per HYMO element) | *HYMO (general and specified per HYMO element) | ||
*physico � chemical parameters | *physico � chemical parameters | ||
| − | *Biota (general and specified per Biological quality elements) | + | *Biota (general and specified per Biological quality elements) |
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| + | The expected effect is to restore or enhance the lateral dimension of a river system (riverine-riparian-floodplain) affected by human activities (Ward and Stanford, 1989) and to the re-establishment of the ,,river pulse” (Junk et al., 1989; Molles et al., 1998; Tochner et al., 1998; Schiemer et al., 1999). | ||
| + | The evaluation of some implemented projects for wetland restoration showed the recovering of the ecosystem services as support for biodiversity (Marin and Schneider, 1997), nutrient removal (Oosterberg et al., 1998 ; Bachmann et al., 2000; Zockler et al., 2000, Staras, 2000; Schiemer & Reckendorfer, 2004; De Groot el al., 2006; Tudor, 2008). | ||
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| + | The post-project assessment of the implemented pilot project Babina in the Danube Delta has showed the re-establishment of a near natural hydro-morphological features as well as the wetland specific aquatic biota: fitoplancton, aquatic vegetation, fish (Cioaca E., 2008; Torok et al. 2008; Schneider et al., 2008; Navodaru et al., 2008). | ||
| + | |||
==Temporal and spatial response == | ==Temporal and spatial response == | ||
==Pressures that can be addressed by this measure == | ==Pressures that can be addressed by this measure == | ||
Revision as of 13:29, 13 July 2010
Contents
- 1 Restore wetlands
- 1.1 General description
- 1.2 Applicability
- 1.3 Expected effect of measure on (including literature citations):
- 1.4 Temporal and spatial response
- 1.5 Pressures that can be addressed by this measure
- 1.6 Cost-efficiency
- 1.7 Case studies where this measure has been applied
- 1.8 Useful references
- 1.9 Other relevant information
Restore wetlands
Restore wetlands08. Floodplains/off-channel/lateral connectivity habitats improvement
General description
Wetland restoration refers to measure aiming to restore former wetlands and their specific functions. Wetland restoration refers to measure aiming to restore former wetlands and their specific functions. Wetland restoration aims to reestablish ecological processes and functions in damaged or destroyed wetlands, including the creation of new wildlife habitat, increased flood storage, and the improvement of water quality. Most wetland restoration projects involve simple techniques such as breaking the dikes in order to restore the hydrology of an area. Once the hydrology has been restored, wetland vegetation re-develope and the wildlife can utilize the restored aquatic habitat.
Applicability
Wetland restoration projects are not conceived to create deep water ponds or alter existing natural wetlands. Depressions or low lying areas, and areas that are seasonally wet and generally inappropriate for agriculture, are often good potential restoration sites. Re-opening of unprofitable polders, embanked in the past for agriculture, forestry or fish culture may help to restore river-floodpalin interactions (Buijse et al, 2002). The wetland restoration is complementary with the measure ,,Reconnect backwaters and wetlands”, both aiming to re-vitalize natural processes induces by the river ,,flood pulse” (Junk et al., 1989; Tockner et al., 2000).
Expected effect of measure on (including literature citations):
- HYMO (general and specified per HYMO element)
- physico � chemical parameters
- Biota (general and specified per Biological quality elements)
The expected effect is to restore or enhance the lateral dimension of a river system (riverine-riparian-floodplain) affected by human activities (Ward and Stanford, 1989) and to the re-establishment of the ,,river pulse” (Junk et al., 1989; Molles et al., 1998; Tochner et al., 1998; Schiemer et al., 1999). The evaluation of some implemented projects for wetland restoration showed the recovering of the ecosystem services as support for biodiversity (Marin and Schneider, 1997), nutrient removal (Oosterberg et al., 1998 ; Bachmann et al., 2000; Zockler et al., 2000, Staras, 2000; Schiemer & Reckendorfer, 2004; De Groot el al., 2006; Tudor, 2008).
The post-project assessment of the implemented pilot project Babina in the Danube Delta has showed the re-establishment of a near natural hydro-morphological features as well as the wetland specific aquatic biota: fitoplancton, aquatic vegetation, fish (Cioaca E., 2008; Torok et al. 2008; Schneider et al., 2008; Navodaru et al., 2008).
Temporal and spatial response
Pressures that can be addressed by this measure
Cost-efficiency
Case studies where this measure has been applied
- Chícamo Life project. Conservation of Aphanius iberus´ genetics stocks ( Murcia ).
- Biodiversity conservation and recovery in the river basin of Asón
- Vreugderijkerwaard - Side channel
- Babina
- Bouxweerd - Artificial pool
- Warta Middle River Valley
- Drava - Kleblach
- Niederwerrieser Weg - Optimisation of the pSCI “Lippe floodplain between Hamm and Hangfort” (LIFE05/NAT/D/000057)
- Oberwerries - Optimisation of the pSCI “Lippe floodplain between Hamm and Hangfort” (LIFE05/NAT/D/000057)
- Ahlen-Dolberg - Optimisation of the pSCI “Lippe floodplain between Hamm and Hangfort” (LIFE05/NAT/D/000057)
- Soest - Optimisation of the pSCI “Lippe floodplain between Hamm and Hangfort” (LIFE05/NAT/D/000057)
- Scheldt - Vallei Grote Nete
- Donau - Aggsbach (LIFE03 NAT/A/000009)
- Lower Traun
