New study set to throw new light on oak heart-rot

by | Jun 16, 2020 | Featured Slider, Latest, News

Research has begun this summer to better understand heart-rot, a condition in older oak trees.

Heart-rot is common in oak trees aged 200 years and over. It is almost universal by the time trees reach 400 years old, but how and why it occurs is a subject which has only just begun to be explored.

Now mycologist Richard Wright has started a three and a half year KESS 2 PhD research project under the Action Oak initiative, which is supported by European Social Funds (ESF), supervised by Professor Lynne Boddy at Cardiff University and supported by the Royal Forestry Society (RFS).

Richard says: “Despite its name, heart-rot can be highly beneficial for some tree species.  For oaks it can help them adapt and reach great ages by releasing nutrients for continued growth and adjustments in the trees structure, but heart rot is also at the centre of the richness of the forest ecology. Without it many birds and mammals would not be able to find the holes and conditions to nest, and the complex fungal food chain that supports a huge diversity of insects that so many rely on as a food source would be cut short.

“We do know the common causal agents of heart-rot and their processes, we will be expanding on this knowledge and looking at the interactions, succession, and diversity of these decay communities, in particular the spatial relationships and territories of heart-rot fungi in 3D. To be involved in this sort of pioneering fungal ecology is an aspect of mycology that I find really exciting – looking into the hearts of trees and understanding the essential roles fungi play in forest ecosystems.”

Oak heart-rot is often not visible to the human eye for many decades. Richard’s field work will look at oak trees primarily aged 150 years and over in Wales. He will be collaborating with a colleague carrying out similar research in England. He hopes to be taking samples this summer (subject to COVID-19 restrictions) before beginning analysis, DNA sequencing and developing a 3D model of heart-rot progression within a trunk.