Case study:Exmoor Mires Partnership: Difference between revisions
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{{Project overview | {{Project overview | ||
|Status=In progress | |Status=In progress | ||
|Project web site url=www.therrc.co.uk/sites/default/files/projects/36_exmoor.pdf | |Project web site url=www.therrc.co.uk/sites/default/files/projects/36_exmoor.pdf | ||
|Themes=Flood risk management, Habitat and biodiversity, Hydromorphology, Land use management - agriculture, Land use management - forestry, Monitoring, Social benefits, Water quality | |Themes=Flood risk management, Habitat and biodiversity, Hydromorphology, Land use management - agriculture, Land use management - forestry, Monitoring, Peat, Social benefits, Water quality | ||
|Country=England | |Country=England | ||
|Main contact forename=Morag | |Main contact forename=Morag | ||
| Line 14: | Line 8: | ||
|Contact organisation=South West Water | |Contact organisation=South West Water | ||
|Contact organisation url=www.southwestwater.co.uk/ | |Contact organisation url=www.southwestwater.co.uk/ | ||
|Partner organisations=Exmoor Mires Partnership | |Partner organisations=Environment Agency, Exmoor Mires Partnership, Exmoor National Park Authoity, Historic England, Landowners and farmers, Natural England, University of Exeter | ||
|Multi-site=No | |Multi-site=No | ||
|Project picture=36 Exmoor.png | |Project picture=36 Exmoor.png | ||
|Project summary=The shallow and maritime peatlands of Exmoor in south-west England (Map 1) have been heavily influenced by human activity over many centuries, with significant areas drained in the 19th and 20th centuries in an effort to improve agricultural productivity. Water is no longer stored as efficiently in the peat. During periods of high rainfall, more water runs off the land and flows downstream into already swollen rivers. In dry periods, river baseflows are poorly maintained. The peatlands have become dry and consequently are losing more carbon (via both fluvial and gaseous pathways) than they accumulate. The quality of water leaving the peat bogs is also deteriorating. The holistic, multiple benefits approach provided by the Exmoor Mires Partnership is helping the peatlands to recover to their more natural ecohydrological structure and function. | |Project summary=The shallow and maritime peatlands of Exmoor in south-west England (Map 1) have been heavily influenced by human activity over many centuries, with significant areas drained in the 19th and 20th centuries in an effort to improve agricultural productivity. Water is no longer stored as efficiently in the peat. During periods of high rainfall, more water runs off the land and flows downstream into already swollen rivers. In dry periods, river baseflows are poorly maintained. The peatlands have become dry and consequently are losing more carbon (via both fluvial and gaseous pathways) than they accumulate. The quality of water leaving the peat bogs is also deteriorating. The holistic, multiple benefits approach provided by the Exmoor Mires Partnership is helping the peatlands to recover to their more natural ecohydrological structure and function. | ||
* Cost: £4.5 million (2010 to 2020) to restore 3,000ha of peatland, with 1,400ha achieved by December 2016. | |||
* Water storage: A rise in the water table level of 2.65cm on average across the areas monitored and up to 21cm in some deeper peat locations. | |||
* A 33% reduction in storm flow leaving the restored sites, equivalent to 6,630 Olympic-sized swimming pools when extrapolated across the total restored area. | |||
* Examination of the hydrograph and flow duration curve at the Spooners monitoring catchment shows a clear increase in base flow levels post restoration. | |||
* Water quality: An overall reduction in the total carbon yield from the restored sites of up to 50% since restoration. | |||
* Biodiversity: 31% of Exmoor peatlands were restored to their ecohydrological function, contributing 1,400ha by December 2016 to the national Priority Blanket Bog habitat restoration targets. | |||
|Project title=Exmoor Mires Partnership | |Project title=Exmoor Mires Partnership | ||
}} | }} | ||
{{Case study status | |||
|Approval status=Approved | |||
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{{Location | |||
|Location=51.14076559999999, -3.7479809999999816 | |||
}} | |||
{{Image gallery}} | {{Image gallery}} | ||
{{Image gallery end}} | {{Image gallery end}} | ||
Latest revision as of 13:55, 16 September 2024
Project overview
| Status | In progress |
|---|---|
| Project web site | http://www.therrc.co.uk/sites/default/files/projects/36_exmoor.pdf |
| Themes | Flood risk management, Habitat and biodiversity, Hydromorphology, Land use management - agriculture, Land use management - forestry, Monitoring, Peat, Social benefits, Water quality |
| Country | England |
| Main contact forename | Morag |
| Main contact surname | Angus |
| Main contact user ID | |
| Contact organisation | South West Water |
| Contact organisation web site | http://www.southwestwater.co.uk/ |
| Partner organisations | Environment Agency, Exmoor Mires Partnership, Exmoor National Park Authoity, Historic England, Landowners and farmers, Natural England, University of Exeter |
| Parent multi-site project | |
| This is a parent project encompassing the following projects |
No |
Project summary
Edit project overview to modify the project summary.
The shallow and maritime peatlands of Exmoor in south-west England (Map 1) have been heavily influenced by human activity over many centuries, with significant areas drained in the 19th and 20th centuries in an effort to improve agricultural productivity. Water is no longer stored as efficiently in the peat. During periods of high rainfall, more water runs off the land and flows downstream into already swollen rivers. In dry periods, river baseflows are poorly maintained. The peatlands have become dry and consequently are losing more carbon (via both fluvial and gaseous pathways) than they accumulate. The quality of water leaving the peat bogs is also deteriorating. The holistic, multiple benefits approach provided by the Exmoor Mires Partnership is helping the peatlands to recover to their more natural ecohydrological structure and function.
- Cost: £4.5 million (2010 to 2020) to restore 3,000ha of peatland, with 1,400ha achieved by December 2016.
- Water storage: A rise in the water table level of 2.65cm on average across the areas monitored and up to 21cm in some deeper peat locations.
- A 33% reduction in storm flow leaving the restored sites, equivalent to 6,630 Olympic-sized swimming pools when extrapolated across the total restored area.
- Examination of the hydrograph and flow duration curve at the Spooners monitoring catchment shows a clear increase in base flow levels post restoration.
- Water quality: An overall reduction in the total carbon yield from the restored sites of up to 50% since restoration.
- Biodiversity: 31% of Exmoor peatlands were restored to their ecohydrological function, contributing 1,400ha by December 2016 to the national Priority Blanket Bog habitat restoration targets.
Monitoring surveys and results
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Lessons learnt
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Location: 51° 8' 26.76" N, 3° 44' 52.73" W
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Catchment and subcatchment
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