Sidebar navigation
- A generation marked
- A life-saving solution in the palm of your hand
- A new way of understanding the Universe
- A question of science
- Airborne microplastics can be found even in the worlds most remote places
- Algorithms for wind
- Amateur sleuths muscle up the science of discovery
- Are we close to the greatest discovery since penicillin
- Better Public services
- Brexit: Why EU Investment Doesnt Mean A Vote for the EU
- Britains burning question
- Building intelligence into systems allows them to make the right decision
- Call of the Wild
- Can research ethics survive a pandemic
- Children in limbo
- Complementary methods of astronomy help to discover patterns in the Universe
- Computing helps children make sense of the world and helps clinicians save lives
- Control systems are integrating renewable energy with the power grid
- Crime fighters go wild
- Diversity straining on its leash
- Dont stop moving
- Driving us closer to greener transport
- Ecology - a brand new economy
- Float to live
- From rags to environmental riches
- Fukushima
- Gravestones helping preservation
- Growing solutions for greener manufacturing
- Help smokers kick the habit
- How virtual reality could help cut crime
- Independence and violence
- Life saving NEWS
- Messages from time
- Microplastics in our homes
- Model of Light
- New Facial Palsy treatment
- New field of astrophysics is answering questions about the origins of the Universe
- New memory techniques
- New tactic in the battle against breast cancer
- Past mapped for the present
- Space technology helping earthlings to survive
- Taking a closer look at an often misunderstood material
- The Timeline Technique
- The buck stops on a shop shelf near you
- The devils in the details of the deep blue sea
- The world is our oyster
- There is something in the water
- Plumbing new depths of sustainable behaviour
- Quantum physics is powering the new tech revolution
- Revealing the secrets of the start of the Universe
- Shop til you drop
- Showing how a low carbon economy can flourish
- Transparency in global food production
- Understanding people to design better prosthetic hands and arms
- Using maths to help tackle climate change
- Virtual Reality pain management
- What does social media mean for our politics
- Why Game Theory could be the key
Microplastics are everywhere - yet little is known about their impact
Could microplastics be impacting our health?
Prof Fay Couceiro, Professor of Environmental Pollution in the School of Civil Engineering and Surveying, writes on the widespread presence of airborne microplastics and their potential impact on human health.
Microplastics in air, what are they? What is known about them? Are they a danger to our health? These are just some of the questions I am trying to answer at the 黑料入口. So let鈥檚 start at the beginning:
What are airborne microplastics?
Microplastics are defined as any plastic below 5mm in size. They are separated into 2 types, primary and secondary microplastics.
Primary microplastics are below 5mm when they enter the environment, such as nurdles and those found in face scrubs and toothpastes. Secondary microplastics are larger than 5mm when they enter the environment but, over time, degrade into smaller pieces, such as fragments of plastic bags and bottles.
Airborne plastics are much smaller particles that are light enough to be carried in the air. Most airborne microplastics are below 1mm in length and are categorised by shape as fibres (long and thin) and non-fibres.
Although very little data exists, what we know so far is that the concentration of microplastics indoors is much higher than the concentration outdoors. Some studies have shown that it is 60 times higher than outdoors, while other research points to an even higher concentration!
Fay Couceiro, Professor of Environmental Pollution
What is known about them?
Unfortunately not that much, but we do know that airborne microplastics are found everywhere. They have been found in every place that has been sampled so far. It is not just cities that are affected. Airborne microplastics have been found in remote mountain ranges, the arctic and even sea spray.
Most research on microplastics has focussed on plastics in water. Airborne microplastics is a relatively new but rapidly growing area of research. Those studies that have examined microplastics in the air have been undertaken outdoors. In the UK, however, 90% of our time is spent indoors. Most of the air we breathe is therefore indoor air, yet very little research has taken place on microplastics indoors.
That is why the University has begun research in this area. We are measuring microplastics in different indoor environments, looking at the type, size and shape of the plastics found. Although very little data exists, what we know so far is that the concentration of microplastics indoors is much higher than the concentration outdoors. Some studies have shown that it is 60 times higher than outdoors, while other research points to an even higher concentration!
Are they a danger to our health?
We simply don鈥檛 know yet. Airborne microplastics research is in its infancy and there are many factors to consider. That is what we are doing now 鈦犫 devising studies to see if there is an impact on human health.
Some studies have looked at the impacts of microfibers (natural and plastic) on human health in working conditions with very high concentrations of airborne fibres, such as fabric manufacturing and carpet laying. In such jobs, a detrimental effect on lung health has been shown due to microfiber inhalation. What we are unsure of is whether there is an effect at normal levels, not just the very high concentrations encountered by people working in these industries.
We know that particles (any particles, not just plastics) longer than 10碌m are unlikely to get past our upper airways, particles below 2.5碌m can get deep into our lungs, and particles less than 1碌m can breach cell walls. To give context, the average width of a human hair is 75碌m so, at the smallest range we are looking at, 1/100th of the width of a hair. Unfortunately due to difficulties in measuring, most studies have only measured microplastics 10碌m and above.
To enhance our research, the University has purchased a specialist microscope that can reveal tiny pieces of plastic below 1 micrometre in size. This will enable us to identify microplastics at the size range which is most likely to impact our health, such as those with the ability to enter the bloodstream.
While there is currently no evidence for negative health impacts in our homes, we are working with the 黑料入口 Hospitals NHS Trust to investigate the presence of microplastics in the lungs of chronic obstructive pulmonary disease (COPD) and asthma patients.
Fay Couceiro, Professor of Environmental Pollution
While there is currently no evidence for negative health impacts in our homes, we are working with the 黑料入口 Hospitals NHS Trust to investigate the presence of microplastics in the lungs of chronic obstructive pulmonary disease (COPD) and asthma patients. Ultimately, this research may help alert patients of risk factors or triggers for their condition. For example, avoiding places that have recently been carpeted where there may be a high number of fibres in the air, ensuring adequate ventilation when hoovering or when there is a lot of activity within carpeted areas.
Learn more about the studies we're undertaking in our Microplastics Research Group.