Warning over Flow Country's ticking 'carbon bombs'
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A researcher based in Thurso has warned that drained peat bogs across the Flow Country are among many ticking "carbon bombs" across Europe.
A new study into carbon emissions in relation to damaged peatlands warns that more of the gas could be released into the atmosphere as a result of wildfires.
Peatlands across the world store twice as much carbon as forests, making them globally important in the push to slow down climate change.
New research published in Nature Climate Change has estimated for the first time how degradation, wildfire combustion and post-fire dynamics influence carbon emissions from non-permafrost peatlands across vast areas of the northern hemisphere.
When peatlands are drained, they release carbon back to the atmosphere as carbon dioxide. The study estimated that these emissions are enhanced by as much as 10 per cent when taking wildfire into account.
Using a modelling approach, the researchers found that while northern peatlands as a whole are still sequestering carbon, small increases to the drained area, fire severity or burn area can all switch the system to a net source of greenhouse gases to the atmosphere.
There is already evidence from other studies of climate-induced drying in peatlands, which could contribute to increased fire severity and higher emissions during a wildfire. Current predictions also point to a drastic increase in annual area burned over the coming century in the northern hemisphere, as well as an increase in extreme wildfire weather.
Professor Roxane Andersen, a peatland scientist based at the UHI Environmental Research Institute in Thurso, led an NERC-funded study on the aftermath of the UK’s largest peatland wildfire in 2019, which impacted 6500 ha of blanket bog in the Flow Country of Caithness and Sutherland.
She is a co-author of the study and explains: “There are currently around 25 Mha of drained boreal and temperate peatlands. It may only be about 10 per cent of the total area, but these degraded peatlands have a disproportionate impact on carbon emissions, even more so once we take wildfire processes into account.
"Drained peatlands are not evenly distributed: most of them are in Europe, including approximately 2.3 Mha in the UK. In the context of a changing wildfire regime, these are ticking 'carbon bombs' that may compromise our ability to achieve net zero targets.”
A reduction in the strength of our natural carbon sinks will make it more difficult to remain below critical global climate and emission reduction targets, the study says.
Dr Sophie Wilkinson, a peatland wildfire expert based at the Simon Fraser University at Burnaby, Canada, led the study. She said: “The impacts of drainage and fire have serious consequences for the ability of peatlands to uptake carbon, and together they can cause it to be emitted in large quantities.
"Our study highlights the resilience of pristine peatland ecosystems – even when including emissions associated to wildfire processes under the current typical regime, pristine peatlands remain a net sink of greenhouse gases, albeit a smaller one. But we have also demonstrated unequivocally the vulnerability of peatland ecosystems and their vast carbon stocks to the interactive effects of drainage and a shifting wildfire regime associated with climate change.”
However, the study also highlights opportunities represented through peatland restoration.
Co-author Dr Scott J Davidson, lecturer in ecosystem resilience at the University of Plymouth, said: “Our study adds further evidence to the need to deploy peatland restoration at pace and at scale. It is a cost-effective tool that can help minimise the wider impacts to northern peatland carbon stocks and the associated significant costs to society.”
