Rhizocore Leads Innovative Project to Tackle Agricultural Pollution with Fungi Bio-Filters

Rhizocore Technologies Ltd has secured a £1 million Defra grant to advance a fungi-based bio-filtration system designed to mitigate agricultural water pollution.

In collaboration with The James Hutton Institute, Harper Adams University, and Cheshire Wildlife Trust, this initiative aims to deliver scalable, nature-based solutions for improving water quality.

This project is funded by the Department for Environment Food & Rural Affairs’ (Defra) Farming Innovation Programme Nutrient Management Competition, and delivered in partnership with Innovate UK.

Addressing a Critical Challenge

Water pollution in the UK has become an increasingly important issue over the past few years, particularly regarding the number of sewage release events during times of high rainfall. However, it is agricultural runoff which is the largest single contributor to river pollution levels, responsible for 40% of water pollution in England.

Runoff from agricultural fields carry nitrates and phosphates from fertilisers that wash off fields during rains. When these nutrients run into rivers and streams, they can cause significant environmental damage, leading to algal blooms, oxygen depletion, and the degradation of aquatic ecosystems.

A Low Cost, Nature-Based Solution

This groundbreaking project leverages the natural capabilities of native British saprotrophic fungi, which thrive in nutrient-rich environments and possess the ability to absorb and store these pollutants. By developing modular filtration units filled with these fungi, the project aims to intercept pollutants at various points on farms, effectively preventing them from entering watercourses.

A Circular Economy Approach

The captured nutrients will be recycled as slow-release organic fertilisers, promoting sustainable agriculture and contributing to a circular economy. This innovative approach not only mitigates the environmental impact of agriculture but also enhances the overall sustainability of farming practices.

Key Project Outcomes

• Cost-effective and Easy-to-Use Solutions: The project will deliver practical and affordable filtration units that are easy to install and maintain on farms.

  • Enhanced Water Quality: By effectively capturing and neutralising pollutants, the project will significantly improve the quality of freshwater environments.

• Sustainable Agriculture: The recycling of captured nutrients as organic fertilisers will promote sustainable farming practices and reduce reliance on synthetic fertilisers.

• Valuable Knowledge Base: The project will generate a comprehensive database of fungal species and strains suitable for pollutant removal, providing valuable insights for future applications.