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New 12 Mile Essex Pipeline to Help Protect Water Supplies is Complete

Essex Pipeline Project Completed, Boosting Water Resilience

A 19.5km (12-mile) water pipeline between Layer-de-la-Haye and Langford has been completed! This pipeline will help protect water supplies and the environment in Essex.

The project’s first installations were completed in May 2023, river and road crossings were completed, archaeological explorations were carried out, and final route adjustments were made to ensure any environmental impact was minimised. The pipeline passed the halfway milestone in October last year, and now all pipe laying has been completed.

Essex and Suffolk Water are investing £20m in the pipeline to increase resilience to supplies for more than 370,000 customers in Essex. This new pipeline will help ensure water can be more easily moved between the company’s raw water reservoirs to be treated and distributed across the Essex area.

The Essex pipeline will be capable of carrying up to 50 million litres of water a day.

Project Manager at Essex & Suffolk Water, Daniel Wilson said:

“This is an exciting scheme for Essex, which will help to support customers’ supplies and also protect the environment by enabling even better management of our county’s raw water resources.”

Fascinating Archaeological Discoveries Along the Essex Pipeline Route

Earlier last year in June 2023, the pipe dig revealed Roman and Bronze Age settlements when various coins, pottery and animal bones were found during archaeological works. These settlements date back 3,000 years.

The pottery found can be linked to regions in France, meaning Essex was likely to have been involved in international trade.

Unearthed artefacts found near Colchester include Roman coins and pottery from the Iron and Bronze Ages.

Small roman coin held in a hand
Roman Coin found near Abberton

The remains of several structures, along with large deposits of oyster shell and industrial residue were uncovered at the site. The archaeological work was taken place in collaboration with Essex County Council and Colchester City Council and was completed with Stantec and Oxford Archaeology.

The Roman Emperor Valentinian I, who reigned from 364 to 375 AD, is thought to be depicted on one of the coins found.

Large rectangular enclosures with distinct crop markings are among the other signs of farmsteads and settlements discovered by the Oxford Archaeology team.

Tim Haines, senior archaeologist from engineering and design consultancy firm Stantec told the BBC the discoveries “are a lot more interesting to me than things like Stonehenge – this is how people are actually using their landscape over time”. Mr Haines also said:

“We forget how much trade there was across the North Sea, … On the Essex coast, you’ve got all of these little estuaries so people would be trading from the continent up and down them – it’s a very dynamic, very international landscape.”

From 2022 archaeologists started researching the history of the pipeline’s route, but digging only started in early 2024.

All of the finds were logged, photographer and evidenced before construction of the pipeline was allowed to continue.“It’s always fascinating to learn about the history we uncover,” said Daniel Wilson of Essex and Suffolk Water to the BBC.

Read more about the archaeological finds on the BBC here Essex pipeline dig reveals Roman and Bronze Age settlements – BBC News and listen to a podcast on the discovery here.

What’s Next for the Essex Pipeline?

The pipe will be capable of carrying up to 50 million litres of water a day to be treated at the company’s water treatment works at Langford.

The pipeline will help to connect and balance the way the water company uses its raw water resources in the Layer-de-la-Haye and Langford areas.

In spring 2025 the pipeline is expected to be in use, where more than 370,000 of Essex Suffolk and Water customers will benefit from the pipeline’s increased supply resilience.

Ariel view of Layer to Langford Pipeline ready to be laid
Layer to Langford Pipeline

 

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Pressures

The topics below represent the pressures that many waterbodies in the Combined Essex catchment face. They have been divided into six main categories, but it is quite often that these categories can overlap as pressures relate to each other.

Diffuse pollution occurs as water moves across the land or through the ground and picks pollutants. These pollutants can come from a variety of places, including urban and field run off. The pollutants that enter the river can range from sediment to toxins to excess nutrients, meaning that diffuse pollution can cause a whole range of different issues. The variety in these pressure groups means that it is something that can be quite difficult to tackle. It requires groups of people, business and stakeholders to work together in order to solve this problem.

Fish should be able to travel up and down a river freely, allowing them to move and breed in the most suitable habitats for them. It is important that fish populations do not become isolated, as this makes them more susceptible to disease and puts pressure on their survival. Unfortunately, there are often many barriers along rivers that prevent fish from being able to migrate up and down stream. Where barriers have been identified, they will be seen as a ‘pressure’ on a waterbody. Thankfully, there are many solutions now that can be put in place to aid fish passage, even over large barriers.

The flow in a river can vary greatly throughout the year as rainfall and run off can have an effect. This is a natural process. It is when flow is impacted by non-natural processes that it can cause problems. Sometimes, water can be intercepted or removed from a system; this will reduce the flow, therefore changing the habitat conditions. Some species are happy in high energy rivers. This means that when flow is reduced, these species will no longer survive. The opposite of this can occur when excess water is entering a river, for example through increased runoff. Low energy systems then become high energy and displace the species that live there.

A species that is not meant to be found in a particular area is known as an invasive species. Invasive species can be from a different habitat or a different country altogether. Most of the invasive species that we find on our rivers have come from other countries – plants that people have imported for their gardens or animals that have been released for food or by animal rights activists. Control of invasive species requires a lot of time and effort. We are fortunate that we do have a range of methods to manage most of the invasive species that cause havoc on our rivers, but there are still some which we are still struggling to control.

Many of our rivers have been heavily modified over the years as rivers have been used for a wide range of purposes. Physical modification is one of the biggest factors that causes our rivers to be unhealthy. The issues that it can cause range from reducing habitat, preventing migration of mobile species, and even have an effect on the water quality. Where structures and modifications are no longer in use or necessary, they should be removed to allow the river to regain its natural state. Unfortunately, this action is not always taken which means that many of our rivers are over straightened and contain redundant structures. It is possible to return a lot of our rivers to their natural state, through one off projects, but in other cases it is not possible as the river has been changed to protect assets or manage flooding. It is recognised that some modifications cannot be removed without having severe negative impacts both socially and economically.

This is pollution that comes from a single identifiable source. The pollution entering the river could include a whole range of pollutants. Some point source pollution is known about and licences, for example sewage treatment works. Other sources are not licensed, and therefore work needs to be done with landowners to fix the problems that are allowing the pollution to enter the river. Point source pollution is more easily controlled than diffuse pollution as it often only takes one management approach to solve the issue.