# Effects of wetting events on mass timber surface microbial communities and VOC emissions: implications for building operation and occupant well-being

**Authors:** Gwynne Á. Mhuireach, Susan Collins, Leslie Dietz, Patrick Finn Horve, Aurélie Laguerre, Dale Northcutt, Jason Stenson, Kevin Van Den Wymelenberg, Elliott Gall, Mark Fretz

PMC · DOI: 10.3389/frmbi.2025.1395519 · Frontiers in Microbiomes · 2025-04-09

## TL;DR

This study explores how wetting affects microbial growth and VOC emissions from mass timber, comparing coated and uncoated materials to understand implications for building health.

## Contribution

The study provides new insights into how wetting events influence microbial communities and VOC emissions from coated and uncoated CLT blocks.

## Key findings

- VOC emissions increased after microbial inoculation and during wetting periods.
- Uncoated CLT emitted terpenes, while coated CLT emitted VOCs linked to coatings and solvents.
- Bacteria dominated microbial communities, with surface type influencing composition during wetting.

## Abstract

Humans have used wood as a construction material throughout history. Currently, mass timber products, such as cross-laminated timber (CLT), are becoming more popular as a structural material, since they are renewable and have a lower carbon footprint than concrete or steel. Nonetheless, some building types, such as healthcare, veterinary, and food manufacturing, avoid using structural mass timber due to concerns about microbial growth in the event of wetting. One solution is to use protective coatings on mass timber products to increase moisture resistance, although the coatings themselves may generate concerns about volatile organic compound (VOC) emissions. Natural uncoated wood also produces VOCs, some of which may have intrinsic antimicrobial effects.

In this study, we inoculated coated and uncoated cross- laminated timber (CLT) blocks with a mock microbial community and isolated each block within individual sealed microcosms. We characterized VOCs and surface microbial communities from the CLT blocks before, during, and after wetting periods of varying durations. VOC concentration and emission rate were analyzed with chromatography-mass spectrometry (GC-MS), while microbial community abundance, diversity, and composition were analyzed through qPCR and shotgun metagenomics.

VOC emissions were elevated immediately after inoculation, then decreased through the remainder of the experiment, except for a plateau during the wetting period. VOCs from uncoated CLT blocks were primarily terpenes, while coated blocks emitted VOCs associated with coatings, plastics, and industrial solvents, as well as terpenes. One VOC—acetoin (3-hydroxy, 2-butanone)—was present at high levels across all samples immediately after microbial inoculation. Bacteria comprised 99.54% of the identified microbial sequences. The plastic control microcosm (not containing a CLT block) had higher abundance of viable bacteria for the majority of the study, but there was no difference in abundance between coated and uncoated blocks. Prior to wetting periods, microbial composition was driven primarily by sampling day, whereas surface type played a larger role during and after wetting periods.

## Linked entities

- **Chemicals:** acetoin (PubChem CID 179), 3-hydroxy, 2-butanone (PubChem CID 179)

## Full-text entities

- **Chemicals:** VOCs (-), carbon (MESH:D002244), VOC (MESH:D055549), terpenes (MESH:D013729), 3-hydroxy, 2-butanone (MESH:D000093)
- **Species:** Bacteria Latreille et al. 1825 (Bacteria stick insect, genus) [taxon 629395], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12993639/full.md

## References

93 references — full list in the complete paper: https://tomesphere.com/paper/PMC12993639/full.md

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Source: https://tomesphere.com/paper/PMC12993639