Case study:Minsterley Brook Abandoned Metal Mines: Difference between revisions

From RESTORE
Jump to navigation Jump to search
No edit summary
No edit summary
Line 11: Line 11:
|Picture description=Wood Adit
|Picture description=Wood Adit
|Project summary=Minsterley Brook catchment includes a number of separate mines as part of the South Shropshire Metal Mining area, including Snailbeach, Tankerville, and Roman Gravels mines. The catchment is part of the Rea Brook which drains into the main River Severn at Shrewsbury. The mines were worked for mainly lead ores, but also zinc ore and latterly barites until closure in the 1940s, leaving spoil deposits and drainage adits which discharge to Minsterley Brook at various points. The mines are a significant source of heavy metal pollution in the catchment, and the discharges from them represent one of the longest continuous sources of pollution in the whole Severn River Basin.  
|Project summary=Minsterley Brook catchment includes a number of separate mines as part of the South Shropshire Metal Mining area, including Snailbeach, Tankerville, and Roman Gravels mines. The catchment is part of the Rea Brook which drains into the main River Severn at Shrewsbury. The mines were worked for mainly lead ores, but also zinc ore and latterly barites until closure in the 1940s, leaving spoil deposits and drainage adits which discharge to Minsterley Brook at various points. The mines are a significant source of heavy metal pollution in the catchment, and the discharges from them represent one of the longest continuous sources of pollution in the whole Severn River Basin.  
http://restorerivers.eu/wiki/index.php?title=File%3AMinsterley_key_sources_map.jpg


Environment Agency routine monitoring found there were high levels of zinc in Minsterley Brook over most of its length, exceeding the Environmental Quality Standards (EQS) for the brook (75ug/l). As a result, the watercourse isn't achieving the 'Good status' for water quality as set out in our Severn River Basin Plan. The Boat Level adit discharge is the main source of the zinc (around 3000kg per annum) and other heavy metals, such as cadmium and lead, and discharges these pollutants into the Hogstow Brook. Immediately downstream of the Boat Level adit the zinc concentrations are up to 47x the EQS. At Minsterley, the zinc concentrations are 8x the EQS. Downstream of the mines, concentrations exceed the EQS for over 15km, until the Rea Brook reaches Hanwood and dilution from other rivers lowers the concentration to below the EQS.   
Environment Agency routine monitoring found there were high levels of zinc in Minsterley Brook over most of its length, exceeding the Environmental Quality Standards (EQS) for the brook (75ug/l). As a result, the watercourse isn't achieving the 'Good status' for water quality as set out in our Severn River Basin Plan. The Boat Level adit discharge is the main source of the zinc (around 3000kg per annum) and other heavy metals, such as cadmium and lead, and discharges these pollutants into the Hogstow Brook. Immediately downstream of the Boat Level adit the zinc concentrations are up to 47x the EQS. At Minsterley, the zinc concentrations are 8x the EQS. Downstream of the mines, concentrations exceed the EQS for over 15km, until the Rea Brook reaches Hanwood and dilution from other rivers lowers the concentration to below the EQS.   


Ecological surveys of the brooks have found aquatic insects were suffering as a result of these heavy metals, which can settle in river sediments. There is also a lower than expected population of small fish species. There are four other, smaller discharges of metals into the catchment from Snailbeach Spoil Tip, Wood Adit, Roman Gravels and Tankerville spoil tips, which together contribute about a quarter of the metal load in wet conditions. These spoil heaps are listed on the Mining Waste Directive Inventory of sites causing serious environmental harm. Snailbeach Spoil Tip (also known as White Tip) is part of the Snailbeach mine schedule monument, and “ranks as one of the best surviving examples of a lead mining complex".
Ecological surveys of the brooks have found aquatic insects were suffering as a result of these heavy metals, which can settle in river sediments. There is also a lower than expected population of small fish species. There are four other, smaller discharges of metals into the catchment from Snailbeach Spoil Tip, Wood Adit, Roman Gravels and Tankerville spoil tips, which together contribute about a quarter of the metal load in wet conditions. These spoil heaps are listed on the Mining Waste Directive Inventory of sites causing serious environmental harm. Snailbeach Spoil Tip (also known as White Tip) is part of the Snailbeach mine schedule monument, and “ranks as one of the best surviving examples of a lead mining complex".
http://restorerivers.eu/wiki/index.php?title=File%3A120726_Snailbeach_headworks.JPG
http://restorerivers.eu/wiki/index.php?title=File%3A120726_White_Tip_Snailbeach.JPG
http://restorerivers.eu/wiki/index.php?title=File%3A120726_Restored_White_Tip.JPG
http://restorerivers.eu/wiki/index.php?title=File%3ABuddles_Snailbeach_Mine_Perimeter_Track_Copyright_Ian_Watson_Coal_Authority.jpg


The Environment Agency continue to investigate and monitor the water quality in the Minsterley and Rea Brooks, and with funding from Defra have set up a partnership with the Coal Authority to look at options for potentially removing the metals from discharges. The ultimate aim is to construct long term sustainable treatment schemes that deal with the problem at the source and help the Minsterley & Rea Brooks to meet the EQS and return to 'Good' ecological and chemical status.
The Environment Agency continue to investigate and monitor the water quality in the Minsterley and Rea Brooks, and with funding from Defra have set up a partnership with the Coal Authority to look at options for potentially removing the metals from discharges. The ultimate aim is to construct long term sustainable treatment schemes that deal with the problem at the source and help the Minsterley & Rea Brooks to meet the EQS and return to 'Good' ecological and chemical status.


Investigations to date have identified that the discharges from the Boat Level and Snailbeach Spoil Tip are the most feasible to be treated (subject to pilot trials), and the Coal Authority are carrying out comprehensive flow monitoring of these discharges. Using waters from Snailbeach Spoil tip, the partnership is working with academics and consultants to develop possible treatment technologies, such as ion exchange, to remove the metals from the discharges. Once treatment options have been identified, the partnership will consult with the public and other stakeholders on the next stages.
Investigations to date have identified that the discharges from the Boat Level and Snailbeach Spoil Tip are the most feasible to be treated (subject to pilot trials), and the Coal Authority are carrying out comprehensive flow monitoring of these discharges. Using waters from Snailbeach Spoil tip, the partnership is working with academics and consultants to develop possible treatment technologies, such as ion exchange, to remove the metals from the discharges. Once treatment options have been identified, the partnership will consult with the public and other stakeholders on the next stages.
}}
}}

Revision as of 10:53, 18 September 2014


Project overview

Edit project overview
Status In progress
Project web site
Themes Environmental flows and water resources, Habitat and biodiversity, Monitoring, Water quality
Country England
Main contact forename Andrew
Main contact surname Pearson
Main contact user ID
Contact organisation Environment Agency
Contact organisation web site
Partner organisations The Coal Authority (UK)
Parent multi-site project
This is a parent project
encompassing the following
projects
No
Wood Adit

Project summary

Edit project overview to modify the project summary.


Minsterley Brook catchment includes a number of separate mines as part of the South Shropshire Metal Mining area, including Snailbeach, Tankerville, and Roman Gravels mines. The catchment is part of the Rea Brook which drains into the main River Severn at Shrewsbury. The mines were worked for mainly lead ores, but also zinc ore and latterly barites until closure in the 1940s, leaving spoil deposits and drainage adits which discharge to Minsterley Brook at various points. The mines are a significant source of heavy metal pollution in the catchment, and the discharges from them represent one of the longest continuous sources of pollution in the whole Severn River Basin. http://restorerivers.eu/wiki/index.php?title=File%3AMinsterley_key_sources_map.jpg

Environment Agency routine monitoring found there were high levels of zinc in Minsterley Brook over most of its length, exceeding the Environmental Quality Standards (EQS) for the brook (75ug/l). As a result, the watercourse isn't achieving the 'Good status' for water quality as set out in our Severn River Basin Plan. The Boat Level adit discharge is the main source of the zinc (around 3000kg per annum) and other heavy metals, such as cadmium and lead, and discharges these pollutants into the Hogstow Brook. Immediately downstream of the Boat Level adit the zinc concentrations are up to 47x the EQS. At Minsterley, the zinc concentrations are 8x the EQS. Downstream of the mines, concentrations exceed the EQS for over 15km, until the Rea Brook reaches Hanwood and dilution from other rivers lowers the concentration to below the EQS.

Ecological surveys of the brooks have found aquatic insects were suffering as a result of these heavy metals, which can settle in river sediments. There is also a lower than expected population of small fish species. There are four other, smaller discharges of metals into the catchment from Snailbeach Spoil Tip, Wood Adit, Roman Gravels and Tankerville spoil tips, which together contribute about a quarter of the metal load in wet conditions. These spoil heaps are listed on the Mining Waste Directive Inventory of sites causing serious environmental harm. Snailbeach Spoil Tip (also known as White Tip) is part of the Snailbeach mine schedule monument, and “ranks as one of the best surviving examples of a lead mining complex". http://restorerivers.eu/wiki/index.php?title=File%3A120726_Snailbeach_headworks.JPG http://restorerivers.eu/wiki/index.php?title=File%3A120726_White_Tip_Snailbeach.JPG http://restorerivers.eu/wiki/index.php?title=File%3A120726_Restored_White_Tip.JPG http://restorerivers.eu/wiki/index.php?title=File%3ABuddles_Snailbeach_Mine_Perimeter_Track_Copyright_Ian_Watson_Coal_Authority.jpg

The Environment Agency continue to investigate and monitor the water quality in the Minsterley and Rea Brooks, and with funding from Defra have set up a partnership with the Coal Authority to look at options for potentially removing the metals from discharges. The ultimate aim is to construct long term sustainable treatment schemes that deal with the problem at the source and help the Minsterley & Rea Brooks to meet the EQS and return to 'Good' ecological and chemical status.

Investigations to date have identified that the discharges from the Boat Level and Snailbeach Spoil Tip are the most feasible to be treated (subject to pilot trials), and the Coal Authority are carrying out comprehensive flow monitoring of these discharges. Using waters from Snailbeach Spoil tip, the partnership is working with academics and consultants to develop possible treatment technologies, such as ion exchange, to remove the metals from the discharges. Once treatment options have been identified, the partnership will consult with the public and other stakeholders on the next stages.

Monitoring surveys and results

This case study hasn’t got any Monitoring survey and results, you can add some by editing the project overview.

Lessons learnt

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