Factsheet: Climate change and forests
How do woodlands and forests affect the climate?
Factsheet: Peatlands, forestry and climate change
This factsheet explains how forestry affects the carbon stored in peat and the role forest-to-bog restoration can play in reducing carbon emissions.
Factsheet: Climate change and biodiversity
More biodiverse woodlands are better able to resist or adapt to threats, such as climate change. This enhanced resilience supports the continuity of woodlands and the ecosystem services they provide. Biodiversity is the variation at different levels of biological organisation - the genes within a species; the species within a community; and the diversity between communities and ecosystems.
Factsheet: Climate change, flooding and forests
Many parts of the UK are periodically affected by flooding and the frequency of floods is expected to increase due to climate change. Tree planting and forest management can alter flood flows, although the extent of this depends on many factors. Here we describe the latest understanding of how forestry can help.
Historic Urban Tree Canopy Cover of Great Britain
A study of historic and current urban tree canopy cover in Great Britain using aerial imagery.
Forestry Facts and Figures 2020
This booklet contains a summary of statistics about woodland and forestry.
Species diversification - which species should we use?
This paper stresses that future use of ‘alternative’ species for diversification should be contingent on rigorous biological risk assessment, results from forestry scale trials, and the establishment of sustainable British seed sources.
ESCom 2020 workshop: Scotland's National Ecological Network - progress and practicalities
Summary of a workshop for researchers, policy makers and practitioners to discuss the progress and practicalities of developing a National Ecological Network in Scotland. Embedded in this approach to more sustainable land use is the need to take stock of progress towards regional and national ecological networks to increase resilience into the future.
Forest damage by deer depends on cross‐scale interactions between climate, deer density and landscape structure
This journal paper investigates the factors that drive deer damage to woodlands using the National Forest Inventory sample square data. We found that the likelihood of damage to trees depends on cross-scale interactions between climate, deer density and landscape structure. The complex interactive effects uncovered are difficult to interpret. We therefore provide an interactive Deer Damage Tool for practitioners to visualize how afforestation is likely to influence the probability of deer damage in different forests and regions across Britain.
A sequential multi-level framework to improve habitat suitability modelling
We provide a sequential framework for improved multi-scale habitat suitability modelling or species distribution modelling. We apply it to the lesser horseshoe bat in Britain to demonstrate its improved accuracy and ecological inference.