Case study:River Seaton: Abandoned Metal Mines: Difference between revisions

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|Main contact surname=Potter
|Main contact surname=Potter
|Contact organisation=Environment Agency
|Contact organisation=Environment Agency
|Partner organisations=The Coal Authority (UK),  
|Partner organisations=The Coal Authority (UK),
|Multi-site=No
|Multi-site=No
|Project summary=The Seaton catchment is heavily impacted by historic mining activity throughout its entire length, but especially in the upper reaches around South Caradon mine. The mine is located on the South Eastern edge of Bodmin Moor in South East Cornwall. It is cut through by the River Seaton which is fed by groundwater as well as surface runoff during heavy rain events. Ore processing at South Caradon mine started in 1838, at which time the mine covered most of the south side of Caradon Hill, and finished in 1890. When South Caradon finally closed it left miners with no prospects of work anywhere else in the Duchy. Many went to England to find work in factories or coal mines, but large numbers emigrated to work metal mines all around the world.
|Project summary=The Seaton catchment is heavily impacted by historic mining activity throughout its entire length, but especially in the upper reaches around South Caradon mine. The mine is located on the South Eastern edge of Bodmin Moor in South East Cornwall. It is cut through by the River Seaton, which is fed by groundwater as well as surface runoff during heavy rain events. Ore processing at South Caradon mine started in 1838, at which time the mine covered most of the south side of Caradon Hill, and finished in 1890. When South Caradon finally closed it left miners with no prospects of work anywhere else in the Duchy. Many went to England to find work in factories or coal mines, but large numbers emigrated to work metal mines all around the world.


From the remains on the site and documented history, it is known that the processing of material from the mine shafts was carried out within the River Seaton valley. River water from the Seaton was used
From the remains on the site and documented history, it is known that the processing of material from the mine shafts was carried out within the River Seaton valley. River water from the Seaton was used
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proliferation of tips, disused shafts and 3 adit discharges which between them contribute high levels of Zinc, Copper and Cadmium to the river.
proliferation of tips, disused shafts and 3 adit discharges which between them contribute high levels of Zinc, Copper and Cadmium to the river.


When water quality and flow data are combined, it is evident that the most important sources of Cu, Cd and Zn contamination in the River Seaton are Jopes Adit, and the 3 Adit Streams (a,b,c). Although the
When water quality and flow data are combined, it is evident that the most important sources of Cu, Cd and Zn contamination in the River Seaton are Jopes Adit, and the '3 Adit Streams'. Although the
3 Adit Streams discharge from beneath a rock tip, the chemistry results indicate that the 3 Adit Streams and Jopes Adit discharges are related in terms of source. Tip run-off is an additional significant source of Cu, Cd and Zn entering the main stream, particularly in prolonged heavy rain conditions. The site is listed on the MINING WASTE DIRECTIVE INVENTORY since the wastes cause more than 500 metres of the river to be polluted.  
3 Adit Streams discharge from beneath a rock tip, the chemistry results indicate that the 3 Adit Streams and Jopes Adit discharges are related in terms of source. Tip run-off is an additional significant source of Cu, Cd and Zn entering the main stream, particularly in prolonged heavy rain conditions. The site is listed on the MINING WASTE DIRECTIVE INVENTORY since the wastes cause more than 500 metres of the river to be polluted.  


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sites in the world where the Cornish path-moss occurs. The Caradon Mining District is part of the CORNISH MINING WORLD HERITAGE site.
sites in the world where the Cornish path-moss occurs. The Caradon Mining District is part of the CORNISH MINING WORLD HERITAGE site.


We are working with the Coal Authority to develop remedial options to address the pollution and return the river to good status.
The Environment Agency are working with the Coal Authority to develop remedial options to address the pollution and return the river to good status.


Impact of the Jopes Adit discharge
Impact of the Jopes Adit discharge
 Length of watercourse affected 17km
 Length of watercourse affected = 17km
 Average metal concentration: Zinc 510ug/l
 Average metal concentration: Zinc = 510ug/l; Copper = 1180ug/l; Cadmium = 1.5ug/l
Copper 1180ug/l
 Average flow = 56 l/sec
Cadmium 1.5ug/l
 Load of Zinc discharged per day = 2.5kg
 Average flow 56 l/sec
 Load of Copper discharged per day = 5.8kg
 Load of Zinc discharged per day 2.5 kg
 Water body ecological status = Poor
 Load of Copper discharged per day 5.8 kg
 Water body ecological status Poor


Benefits of remediation
Benefits of remediation
 The River Seaton will be protected from a major pollution source
 The River Seaton will be protected from a major pollution source
 We are developing partnerships with important stakeholders and using our position as an influential advisor to deliver shared environmental outcomes
 Contribute towards achieving Good Ecological and Chemical status
 Contribute towards achieving Good Ecological and Chemical status
 912 kg of Zinc and 2,100 kg of Copper would be prevented from entering R Seaton every year
 912 kg of Zinc and 2,100 kg of Copper would be prevented from entering R Seaton every year

Revision as of 09:17, 8 August 2014

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Project overview

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Status In progress
Project web site
Themes Environmental flows and water resources, Habitat and biodiversity, Monitoring, Water quality
Country England
Main contact forename Hugh
Main contact surname Potter
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
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Project summary

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The Seaton catchment is heavily impacted by historic mining activity throughout its entire length, but especially in the upper reaches around South Caradon mine. The mine is located on the South Eastern edge of Bodmin Moor in South East Cornwall. It is cut through by the River Seaton, which is fed by groundwater as well as surface runoff during heavy rain events. Ore processing at South Caradon mine started in 1838, at which time the mine covered most of the south side of Caradon Hill, and finished in 1890. When South Caradon finally closed it left miners with no prospects of work anywhere else in the Duchy. Many went to England to find work in factories or coal mines, but large numbers emigrated to work metal mines all around the world.

From the remains on the site and documented history, it is known that the processing of material from the mine shafts was carried out within the River Seaton valley. River water from the Seaton was used in the separation process, and waste water with a high concentration of metal solutes, sand, and silt-sized particles, was discharged directly into the River Seaton. Processing of Cu bearing ore at South Caradon mine involved the heating, pulverizing and dissolving of metals and their compounds, resulting in release of Cu and Zn into the surrounding environment. The legacy of these processes is a proliferation of tips, disused shafts and 3 adit discharges which between them contribute high levels of Zinc, Copper and Cadmium to the river.

When water quality and flow data are combined, it is evident that the most important sources of Cu, Cd and Zn contamination in the River Seaton are Jopes Adit, and the '3 Adit Streams'. Although the 3 Adit Streams discharge from beneath a rock tip, the chemistry results indicate that the 3 Adit Streams and Jopes Adit discharges are related in terms of source. Tip run-off is an additional significant source of Cu, Cd and Zn entering the main stream, particularly in prolonged heavy rain conditions. The site is listed on the MINING WASTE DIRECTIVE INVENTORY since the wastes cause more than 500 metres of the river to be polluted.

Most of the mine site is designated as a Site of Special Scientific Interest (SSSI) since the high metal concentrations in the soil support specialised flora of rare mosses and liverworts. This is one of two sites in the world where the Cornish path-moss occurs. The Caradon Mining District is part of the CORNISH MINING WORLD HERITAGE site.

The Environment Agency are working with the Coal Authority to develop remedial options to address the pollution and return the river to good status.

Impact of the Jopes Adit discharge

Length of watercourse affected = 17km
Average metal concentration: Zinc = 510ug/l; Copper = 1180ug/l; Cadmium = 1.5ug/l
Average flow = 56 l/sec
Load of Zinc discharged per day = 2.5kg
Load of Copper discharged per day = 5.8kg
Water body ecological status = Poor

Benefits of remediation

The River Seaton will be protected from a major pollution source
Contribute towards achieving Good Ecological and Chemical status
912 kg of Zinc and 2,100 kg of Copper would be prevented from entering R Seaton every year

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