Replanting lost woodlands cuts risk of extreme flooding

Pioneering research will for the first time monitor how the creation of England’s biggest new native woodland could help stave off the worst effects of climate change, such as flooding.

Over the course of the next 20 years or more, a team of scientists will be monitoring the site at Snaizeholme, near Hawes in North Yorkshire – one of the wettest places in Yorkshire with 200cm of rainfall a year.

The monitoring – by a research team from the University of Leeds and University of York – will include rainfall, soil properties and streamflow and track changes over time. This will help the scientists understand how the flood mitigation benefits of new woodlands develop as the trees grow.

Already on site, they are using specialist equipment such as soil moisture and temperature sensors, weather stations and state of the art “lightning detectors” to measure extreme weather events.

The results of this research have the potential to help communities adapt to the impacts of climate change by increasing the understanding of how trees can reduce flooding risk, capture and store carbon, and provide vital habitat for nature recovery across UK uplands.

Professor Dominick Spracklen, from the School of Earth and Environment at Leeds and one of the lead scientists in the project, said, “Restoring habitats across a whole valley has the potential to deliver big benefits for people, nature and climate. We have used a computer model to calculate that restoring the valley would reduce downstream flooding during a 1-in-50-year storm event by nearly 10%.

“To check that our predictions are correct, we are now installing special equipment to monitor soil and vegetation properties, rainfall and river flow. This will allow us to understand how the flood reduction benefits of the project grow as the native woodlands mature.”

Another key focus will be investigating how establishing new trees alters the properties of soil.

Francesca Darvill, a doctoral researcher at Leeds who is involved in the project, said, “We still know relatively little about how soil carbon changes after tree planting. Most previous studies lack information about how much soil carbon was present before trees were planted, making it difficult to know how soil carbon has changed.

“At Snaizeholme, we are making detailed measurements of the variability of soil properties across the site before the trees are planted. In years to come this will allow us to better understand how the trees have altered the soils. Crucially it will provide better information on how much carbon new woodland soils help to lock up.”

Swathes of woodland
Many centuries ago, the glacial valley at Snaizeholme would have been covered with swathes of woodland stretching across the landscape but now the 561-hectare site is almost devoid of trees. It’s a stark situation repeated across the Yorkshire Dales National Park, where total tree cover is less than 5% and ancient woodlands only make up 1% of that cover.

It’s a unique and complex piece of conservation work due to the range of habitats and species, the topography and elevation. Tree planting will exist alongside huge restoration projects, including 113 hectares (279 acres) of blanket bog/deep peat, approximately 100 hectares (247 acres) of limestone pavement and over 77.4 hectares (191 acres) of open valley bottom following Snaizeholme Beck.

The Woodland Trust is overseeing planting on the site and work started earlier this year. The Trust is planning to plant almost 291 hectares (719 acres) with native tree saplings. The careful approach to planting will see different densities of trees planted across the site to create groves, glades and open woodlands that gently transition into and connect with the other habitats, all delivered without the use plastic tree guards or herbicides.

It will create one of the largest contiguous new native woodlands in England.

Dr. John Crawford, Conservation Evidence Officer for the Woodland Trust, said, “We know mature woodlands deliver a range of important benefits: they provide a home for nature, lock away carbon to fight climate change, and slow the flow of water helping to reduce downstream flooding.

“Less is known about new woodlands. Working together with world-leading researchers will allow us to take detailed measurements of how biodiversity and ecosystem functions change as the trees grow and the woodlands mature. The research has the power to be a game changer when it comes to how such a new site can combat the extreme effects of climate change.”

 

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