The reason that dry rot is often so devastating is because of its ability to travel long distances as it searches for more and more timber to remove moisture from
I was recently watching a well know property renovation programme on TV a few weeks ago where the Presenter had identified what looked to be dry rot on the ground floor of semi-detached three bedroom residential property. Although, I agree that what he was looking at did appear to be dry rot, his description included, ‘feeding off concrete’ which is completely inaccurate as well as some of his terminology being confusing and wide of the mark. TV programmes should be mindful of the information that they provide, as it is possible, dare I say likely, (just by the nature of the amount of viewers), that someone will act on what they are being told which could result in loss/damage. In order to identify if or where dry rot may be present, it is useful to understand the conditions that dry rot needs to grow and thrive.
Dry rot is a living fungus which will continue to grow by feeding off timber, which it will completely destroy be removing all of its moisture. Without being too technical, there are four primary stages in the dry rot lifecycle. The first stage is Spores. The spores are constantly present in the atmosphere however are only activated in certain conditions, which include timber and moisture. For dry rot to thrive it’s ideal environment will include timber with a moisture content of between 22% and 25% warm humid temperatures of between 240 and 300, poorly ventilated areas and dark concealed spaces. This is why dry rot will often spread undetected in basement, floor voids, roof voids, behind plasterboard in timber stud walls and the like. As the spores start to become more concentrated they develop into small white strands known as Hyphae, which look a little like small white cob-webs. These are reasonably easy to identify and a good indication of dry rot.
As the hyphae feeds off the timber it will extract further moisture from the timber as it continues to grow and become more concentrated in volume to a point where the hyphae mass develops into the next stage of the dry rot cycle, know as Mycelium. Visible large white mycelium strands can travel large distances in search of more timber and as previously stated can travel across non-timber surfaces in order to find new timber. In suitable conditions, mycelium will continue to exist and grow at a considerable rate within a building. Fungi prefers dark and damp areas with little or no air movement, therefore where these conditions change and threaten the fungus; its natural response is to create a Fruiting Body (Sporophore), and this is the final stage of the dry rot lifecycle. Visually the fruiting body can take a number of forms, however will generally appear in ‘mushroom like’ form. The fruiting body is the fungi's response to a threat to its survival and its reaction is to throw out spores into the air which can be transferred to other vulnerable areas within the building, which allows them to germinate and create a new attack of dry rot, thus restarting the dry rot life cycle right from the very beginning.
The dry rot lifecycle described above demonstrates how the fungus can spread so quickly and how much damage that can be caused if left undetected. It is possible to treat dry rot however this requires specialist knowledge and something that should not be attempted ‘on the cheap’. If all traces of dry rot are not dealt with then all that will happen is the fungus will continue to grow and spread and start to affect any new timber that may have been installed. The steps below provide an indication of remedial works to deal with dry rot, however please bear in mind that this is indicative only and specialist advice should be sought in all situations:
1. Deal with the moisture source
2. Brush down any exposed masonry to remove visible surface fungal growth
3. Deep-drill masonry at regular centres and irrigate with fungicidal wall solution
4. Sterilise all exposed masonry surfaces with fungicidal wall solution
5. Remove all affected timber including a minimum of 1m past the last identifiable location
6. Dispose all affected timber from site
7. Provide new treated and primed timber where previously removed
8. Spray all new and adjacent timbers including cut ends with fungicidal spray
9. Re-plaster where required using a cement and sand render mix
10. Ensure adequate ventilation is used
Dry Rot is easy to misdiagnose and I would always recommend that you engage the services of a professional such as a Building Surveyor for advice and guidance. The short video below provides a good example of dry rot occurring in a residential dwelling and is well worth look. Many thanks to Bryan Hindle who has provided his kind permission for use of the video. Please also take a look at Bryan's excellent article on the following link
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