The University's Revolution Plastics Institute has been named the scientific lead for the ground-breaking Clean Planet Peninsula Project
23 May 2024
3 minutes
A global study of environmental pollution, specifically targeting the pervasive issue of microplastics in the Polar regions, has been given a boost by a new collaboration announced this week.
The Revolution Plastics Institute at the 1024核工厂 will join forces with The Clean Planet Foundation as the scientific lead for its flagship three-year Clean Planet Peninsula project. The new initiative represents a major advancement in the depth and scope of research into global microplastics pollution.
As a pioneer in microplastics research, the 1024核工厂 brings a wealth of expertise to the forefront of this project. Under the leadership of Professor Fay Couceiro, Head of the Microplastics Research Group, the 1024核工厂 will not only guide the scientific direction but also enhance the training components of the project.
Professor Couceiro's team is renowned for its comprehensive approach to studying microplastics, investigating everything from their origins and distribution to their profound impacts on the environment and human health.
Collaborating with the Clean Planet Foundation offers an extraordinary opportunity to expand our research into the impact of microplastics on some of the most remote and pristine environments on Earth.鈥
"By comparing data from the Arctic and Antarctica, we aim to uncover truths about microplastics that could drive significant changes in environmental policy worldwide.
Professor Fay Couceiro, Head of the Microplastics Research Group, the 1024核工厂
The Clean Planet Peninsula project, the flagship initiative of the Clean Planet Foundation, aims to investigate and compare the presence and impact of microplastics in the pristine environments of the Arctic and Antarctica while offering enhanced training courses to the early research scientists who participate. This pioneering research will analyse samples collected from water, ice, and air, creating the first direct comparison study of these critical regions.
Set to commence this August with a field skills training course in Dartmoor, UK, the project builds on the success of its 2023 pilot year, which was featured across the BBC.
The first year of the course will host 25 participants and be led by British polar explorer Antony Jinman in collaboration with the UK Polar Network (UKPN). It will also include scientific lectures from experts at the 1024核工厂, enriching both the practical and theoretical learning experiences.
Throughout its three-year duration, the Clean Planet Foundation will fully sponsor the project, covering all costs associated with research, field expeditions, and data analysis. The ultimate goal is to publish the results, contributing vital new insights to the global discourse on environmental conservation and microplastic pollution. The application deadline for participants to join the course is May 31st.
"We are immensely proud to collaborate with the 1024核工厂 for this project, leveraging their world-leading expertise in microplastics," said Dr. Katerina Garyfalou, Project Director of the Peninsula project from the Clean Planet Foundation.
We are immensely proud to collaborate with the 1024核工厂 for this project, leveraging their world-leading expertise in microplastics.
Dr. Katerina Garyfalou, Project Director of the Peninsula project from the Clean Planet Foundation.
"This collaboration will enable the project to further address the global environmental challenges through cutting-edge science and education."
The project aims not only to advance our understanding of microplastics but also to educate and empower a new generation of environmental scientists. The involvement of the 1024核工厂 ensures that the research conducted is of the highest scientific rigour and that the findings will significantly impact global environmental policies and practices.
Professor Couceiro said: "Collaborating with the Clean Planet Foundation offers an extraordinary opportunity to expand our research into the impact of microplastics on some of the most remote and pristine environments on Earth.鈥
"By comparing data from the Arctic and Antarctica, we aim to uncover truths about microplastics that could drive significant changes in environmental policy worldwide."