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Biodiversity data discovery

Scientists find that air quality monitoring stations are collecting urgently needed biodiversity data
Katie Hill - Editor-in-Chief, My Green Pod
View of wildflowers and grasses over Crantock Beach, Newquay, Cornwall on a bright June day

An international team of researchers has discovered that thousands of ambient air quality monitoring stations around the world are unwittingly recording more than just atmospheric pollutants and dust: they are also likely collecting biodiversity data in the form of environmental DNA (eDNA).

Until now it was thought that the infrastructure for monitoring biodiversity at national and global scales does not exist.

Until now, no one had considered that these air quality monitoring stations could be collecting and storing eDNA data on birds, bees, ticks, fungi, insects, plants and mammals across the globe as a byproduct of their regular function.

But it is exactly what’s needed to monitor biodiversity at a scale that’s never been possible before.

‘The potential of this cannot be overstated. It could be an absolute gamechanger for tracking and monitoring biodiversity.

‘Almost every country has some kind of air pollution monitoring system or network, either government owned or private, and in many cases both. This could solve a global problem of how to measure biodiversity at a massive scale.’

Queen Mary University of London, first author of the paper

Historic records of eDNA

According to the World Wildlife Fund’s Living Planet Report, there has been a 60% decline in wildlife populations since 1970.

As well as tracking biodiversity across the planet, these air quality stations could potentially tap into the decades of historic eDNA biodiversity data on filters squirrelled away for years.

Governments, scientists and environmental agencies around the world have called for large-scale, standard methods of tracking biodiversity in real time – but it has been an impossible task – with no standardised approach and no deployed infrastructure proposed, until now.

‘One of the single biggest issues facing the planet today is the accelerating loss of biodiversity. This could be a treasure trove of biodiversity data. What we found by analysing filters from these monitoring stations is astonishing. In just two locations, we found eDNA evidence for more than 180 different plants and animals.’

York University of Toronto, an expert in airborne eDNA and corresponding author of the paper

Realising the potential

The discovery that these air monitoring stations could be collecting eDNA is even more surprising because they may have been quietly doing this all along.

It wasn’t until researchers, including Clare and Littlefair, proved it’s possible to determine which species are present using eDNA sampled from air, that scientists at the UK’s National Physical Laboratory (NPL), who operate the national air quality sampling grids, realised the potential of what they already had.

Dr James Allerton and Dr Andrew Brown at NPL contacted Littlefair and Clare wondering if the UK’s national air quality monitoring network was collecting eDNA during normal operation.

Together, the unlikely new collaborators have their first answer: a resounding yes.

‘We were routinely collecting particulate matter looking to measure pollutants in air but when we saw the work of Clare and Littlefair, we realised maybe we were sitting on something much more valuable’, says Dr James Allerton.
The team set up a test at an air quality station in London outside a large urban park, collecting samples for an hour, a day and a week, and compared them with eight-month-old samples from a public station in Scotland.

At Queen Mary University of London, Littlefair handled the samples, while Clare and grad student Nina Garrett analysed the data at York.

‘We were surprised by the diversity of life we were able to survey with one approach, almost unheard in this field of science. In these two locations, we simultaneously detected the eDNA of 34 bird and 24 mammal species, a wide variety of insects, crops, pathogenic fungus, lovely wildflowers, ornamental garden plants and grasses’, says Clare of the Faculty of Science.

‘We found species of interest, such as hedgehogs, along with badgers, deer, dormice, little owls, smooth newts, songbirds and 80 different kinds of woodland trees and plants – oak, linden, ash, pine – it was all there collected on these tiny filters. It’s unbelievably exciting.’

It represents a mechanism to measure biodiversity on land in a standardised repeatable way across entire countries continually every day, every week at thousands of locations.

‘The beauty of the idea is we are making use of something that already exists. If networks of air samplers around the world are all collecting similar material – just as a part of their regular functioning – it’s an incredible resource.’

Network operator NPL

The team is now trying to preserve as many samples as possible with eDNA in mind.

‘We do not yet know the true value of these samples, but as they are collected, they could provide an unprecedented view of our natural world. The scale of repeated samples could give us the elusive biodiversity time series data and the ability to measure terrestrial species dynamics in a high-resolution form never considered for biodiversity monitoring before’, says Clare.

‘It will require a global effort to collect and evaluate these samples, but this is an extraordinary opportunity to take advantage of a pre-existing, global infrastructure that has been collecting standardised eDNA data for decades and until now, we simply haven’t realised the resource existed.’

Queen Mary University of London, first author of the paper

The paper, Air-quality networks collect environmental DNA with the potential to measure biodiversity at continental scales,/em>, was published on 05 June 2023 in the journal Current Biology.

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