Research and analysis

Severn Uplands management catchment: baseline length of rivers and estuaries polluted by abandoned metal mines

Published 12 March 2025

Applies to England

This is one of 20 reports, one for each polluted management catchment, on the water quality monitoring undertaken by the Environment Agency to determine the baseline length of rivers and estuaries considered polluted by any of the Environment Act target substances from abandoned metal mines in 2022.  

A length of river or estuary is considered polluted where the concentration of one or more of the 6 target substances (arsenic, cadmium, copper, lead, nickel and zinc) exceeds the relevant Environmental Quality Standard (EQS). EQS concentrations are based on ecotoxicology data and set by government at a level that should prevent harmful environmental impacts. When the concentration of a substance in a water sample is higher than the EQS, adverse impacts on the aquatic ecosystem can be expected. The relevant EQS for each target substance are set out in The Water Framework Directive (Standards and Classification) Directions (England and Wales) 2015

The purpose of calculating this baseline was to enable measurement of the statutory abandoned metal mines target set out in Part 4 of the Environmental Targets (Water) (England) Regulations 2023. This regulation requires that the combined length of English rivers and estuaries polluted by the target substances from abandoned metal mines is, by 31 December 2038, at least 50% lower than the baseline.   

In the Severn Uplands management catchment, the baseline length of polluted rivers for the abandoned metal mines water target is 44km. We will aim to identify the key sources of metal pollution in this management catchment by carrying out detailed monitoring investigations.  

You can find further background and context on the Environment Act abandoned metal mines water target in the national baseline report which should be read together with this report.   

The Severn Uplands management catchment 

The Severn Uplands management catchment (Catchment ID: 3076) covers an area of approximately 2,477km2 and includes the Shropshire Hills National Landscape. Please go to Severn Uplands Management Catchment on the Catchment Data Explorer for an interactive map showing the 4 operational catchments that make up the Severn Uplands management catchment in England. The boundary of the Severn Uplands management catchment and all 4 operational catchments are highlighted in Figure 1. The 3 additional operational catchments highlighted in Figure 1 (Tanat, Cain and Severn Camlad to Trederwen) also make up the Severn Uplands management catchment, but are located in Wales. They have been included in Figure 1 for completeness.

Metal mining in the Severn Uplands management catchment 

There is evidence of lead mining in the Minsterley area of the Shropshire Hills since pre-Roman times. The importance of lead mining grew during the medieval period and had become a major part of the economy of Snailbeach and Minsterley by the late 16th and 18th centuries, respectively. This continued to grow throughout the 17th and 18th centuries, until the 19th century, when the mining activity was at its peak. During the 1870s the Stiperstones area was one of Britain’s main sources of lead. For more information, please visit Shropshire Mines Trust

Figure 1 shows the locations of mineral veins, known mine water discharges, closed mine waste facilities known to be causing serious environmental harm, and recorded areas of abandoned mine wastes (mining spoil) in the Severn Uplands management catchment.  

This information has been gathered from various sources including:

As we can see in Figure 1, most of the historical mining activities in the Severn Upland management catchment were concentrated in the Rea Brook operational catchment. 

Figure 1. Map showing the abandoned metal mines, mineral veins and baseline river monitoring sites in the Severn Uplands management catchment

© Environment Agency

The tables below list the catchments (surface water bodies) directly impacted by abandoned metal mining in the Severn Uplands management catchment. These tables highlight known point sources (mine adits or mine drainage levels) and diffuse sources (mine wastes or spoil) within the catchment. In some cases, the sources may not currently be well defined and are undergoing further continued investigation by the Environment Agency.  

Rea Brook operational catchment: sources of metal pollution 

Table 1 summarises which type of pollution sources from abandoned metal mines have been identified within the catchments (surface water bodies) in the Rea Brook operational catchment. 

Table 1. Summary of metal pollution sources in the Rea Brook operational catchment 

Catchment (Surface water body) Point sources of pollution Diffuse sources of pollution
Minsterley Bk - source to conf Rea Bk Yes Yes
Rea Bk - conf Minsterley Bk to conf Pontesford Bk None identified: sources are upstream Further investigation required
Rea Bk - conf Pontesford Bk to conf R Severn None identified: sources are upstream None identified: sources are upstream

Baseline monitoring 

The objective of the baseline monitoring was to establish the upstream and downstream extent of surface waters polluted by the target substances from abandoned metal mines. We selected the baseline monitoring sites by first completing a desk study to review previous water quality data, maps and reports. We then made initial site visits to collect samples and to assess the suitability of the site for continued sampling. Generally, at least twelve water quality samples were then collected from each monitoring site.  

Within the Severn Uplands management catchment, water quality monitoring was undertaken in one of the 4 operational catchments (Rea Brook). This catchment is highlighted in Figure 1. We did not carry out monitoring in operational catchments where there is either no historical metal mining within the catchment or a combination of current and historical monitoring data shows that waterbodies within these catchments are not polluted by abandoned metal mines. 

In total, 14 monitoring sites were selected across the Severn Uplands management catchment to determine the baseline length of rivers polluted by target substances from abandoned metal mines. The locations of these monitoring sites are shown in Figure 1. 

Water quality data collected between 1 January 2022 and 31 March 2024 have been used to determine and validate the baseline length of rivers and estuaries considered polluted in 2022. The length of rivers polluted by abandoned metal mines fluctuates in response to natural variation in rainfall and river flows. However, this length will not materially change unless remediation measures like mine water treatment schemes or diffuse interventions are installed to decrease inputs of metals. Therefore, data collected after 31 December 2022 are considered to be representative of rivers, provided no new remediation measures had been constructed since 2022. No new remediation measures have been constructed in the Severn Uplands management catchment since 2022. 

Water quality monitoring results 

In the Severn Uplands management catchment, the target substances measured were cadmium, copper, lead, nickel and zinc. We did not undertake testing for arsenic in this management catchment since historical monitoring data and knowledge of the local geology across the catchment indicated that no rivers are polluted by arsenic in this management catchment. 

The baseline water quality data for all monitoring sites are available on the Environment Agency’s public water quality archive.  

For a river water quality sample to be considered polluted, concentrations of one or more of the target substances must exceed the relevant EQS set by government when assessed as an “annual average”. The EQS are set out in The Water Framework Directive (Standards and Classification) Directions (England and Wales) 2015

The EQS are derived using ecotoxicology data and set at a level that should prevent harmful environmental impacts. When the concentration of a substance in a water sample is higher than the EQS, adverse impacts on the aquatic ecosystem can occur, and the sample is considered to be polluted. 

To understand the severity of pollution, we calculated a numeric “pollution level” by dividing the measured concentration of the target substances by the EQS. If the pollution level is greater than 1, the monitoring site is considered polluted by that target substance. Therefore, the higher the numeric pollution level, the greater the likelihood of harm to aquatic life. 

Baseline polluted river length: Severn Uplands management catchment 

Our detailed monitoring across a range of flow conditions between January 2022 and March 2024 shows that in the Severn Uplands management catchment, the baseline length of polluted rivers for the abandoned metal mines target is 44km. 

Figure 2 shows the rivers in the Severn Uplands management catchment that are polluted by target substances from abandoned metal mines. 

Figure 2. The baseline length of rivers polluted by target substances from abandoned metal mines in the Severn Uplands management catchment is 44km

© Environment Agency

Table 2 shows the river length (in km) that are polluted by each of the target substances within the Severn Uplands management catchment. In general, the most polluted rivers are impacted by more than one target substance. 

Table 2. River length (in km) polluted by each of the target substances within the Severn Uplands management catchment 

Target substance Polluted river length (km) Pollution level: less than 3 times Pollution level: 3 to 5 times Pollution level: greater than 5 times
Cadmium (Cd) 43 21 4 18
Lead (Pb) 18 14 0 4
Nickel (Ni) 3 1 2 0
Zinc (Zn) 34 11 4 19
Copper (Cu) 1 1 0 0

Rivers polluted by abandoned metal mines: Severn Uplands management catchment 

Rea Brook operational catchment: baseline polluted rivers  

Minsterley Brook is polluted in its headwaters by cadmium, however after the input of a mine water discharge known as Wood Adit at Gravels, the watercourse is polluted along its length for cadmium, lead and zinc down to the confluence with Rea Brook. 

Hogstow Brook is polluted along its length by cadmium, lead and zinc from its source at the outflow of the Boat Level mine drainage tunnel. Further metal polluted inputs enter the watercourse from Snailbeach. 

After the confluence of Rea Brook and Minsterley Brook, Rea Brook is still polluted at the sampling point at Hook-a-Gate Bridge near Bayston Hill. However, Rea Brook is not polluted, when assessed as an annual average, approximately 8km downstream of Hook-a-Gate Bridge at Coleham in the centre of Shrewsbury. 

Figure 3 shows the baseline polluted rivers in this operational catchment. 

Figure 3. The baseline length of rivers polluted by target substances from abandoned metal mines in the Rea Brook operational catchment is 44km

© Environment Agency

It should be noted that due to close proximity of some of the sampling points to each other, some of the sampling point markers on this map (blue squares) may overlap.