Tree bark as a substrate for mycelium-bound composites with two Ganoderma species

Bark is currently considered as a by-product of the wood industry and is mostly incinerated for energy, left in forests, or used as a mulch layer in gardens, parks, and forests to help prevent soil from drying out. However, considering that bark makes up about 10-20% of the tree volume, there is a considerable amount of material that can be exploited and should be investigated in terms of a resource-efficient bio-economy. One way to use bark as a raw material for innovative products could be as a substrate within mycelium-bound composite materials. However, since one of the natural functions of bark is to inhibit microbial infestation of the trees, it was unclear whether bark could be utilized in this manner. Therefore, we investigate in this study the possibilities of producing such composites by evaluating the performance of several bark-fungus combinations. Three different barks (from Douglas fir, Scots pine and European birch) and two species of fungi ( Ganoderma sessile and Ganoderma adspersum ) were selected for the experiments. Mycelium growth rates were evaluated with a newly developed method using fungal "growth tubes". In addition, composites were prepared for performance tests from pure bark and 1:1 mixtures of bark and beech wood sawdust. Composites made of mixed bark and beech wood were mostly well overgrown with a thick layer of mycelium on the surface, supporting higher compression strengths. The mycelium layer on the composites made with tree bark only was considerably thinner, resulting in lower compression strength. Water absorption potential was found to be highly dependent on the mycelium layer on the composite surfaces, which has substantial hydrophobic properties. Overall, although the required incubation times tend to be longer than for other commonly used substrates, our experiments demonstrate that bark clearly represents a potential co-substrate for the production of mycelium-bound composites. Nevertheless, further studies with different fungi and barks are required to identify mixtures for specific applications that require shorter incubation times.