Saturday, October 5, 2024

Anti-disease forest fungi thrive when they can hear their neighbors: a lesson in diversity

 

There is such value in diversity.

We can take a lesson from a new bit of science that suggests that life performs better when surrounded by its community.

This study found that certain fungi grow faster—many times faster—in an environment that includes sound, even if the species itself does not make sounds.

In the soil, if you were to insert a sensitive microphone, you would pick up the rustle of ants, the scuffling of scurrying beetles, the whisper of larvae, the swooshing of earthworms on their liquid missions and the motion of all the other critters that normally occupy a healthy underground environment.

Fungi don’t have ears, but from this study, clearly they can sense the presence of other creatures by the impacts of their movements, and you could anthropomorphize that they appreciate the company. They certainly behave as if they do.

This particular study was published in the journal Biology Letters. It was reviewed in the New York Times here. 

Wrote Times writer Veronique Greenwood: “Playing sound to Trichoderma harzianum, a green microscopic fungus that defends tree roots from pathogens, led to growth rates seven times as fast as those of fungus grown in the sound of silence. If the laboratory findings can be replicated in nature, then sound could be an unexpected new tool for improving the health of forests, encouraging beneficial microbes to take root and thrive.”

In this case, the researchers just played white noise for the green fungi, and saw dramatic increases in growth compared to the fungi grown in silence.

And here’s a leap.

A totally other piece of science, from the 13 September 2024 issue of Science magazine, expressed concern that the survival of Asian forest trees that contain anti-cancer properties is threatened. People are going into the forest and harvesting the trees to rarity and endangered status.

“Without these trees, cancer patients will lose access to a vital treatment,” wrote authors Gao Chen, Xiang-Hai Cai, Jia Tang, Guillaume Chomicki and Susanne Renner.

In Hawai’i, we have seen the impacts of loss of diversity. If you lose a pollinating bird species, you risk losing the plants they pollinate, and then the insect and fungal communities that rely on those plants. Round and round it goes.

Back to the fungus study, researchers aren’t sure how the fungi are sensing the sound.

“The mechanism responsible for this phenomenon may be fungal mechanoreceptor stimulation and/or potentially a piezoelectric effect; however, further research is required to confirm this hypothesis,” wrote authors Jake M. Robinson, Amy Annells, Christian Cando-Dumancela and Martin F. Breed.

But it was clear that in the presence of sound—all other things being equal—this little green fungus, Trichoderma harzianum, produces lots more biomass and also produces more spores, than in silence.

And they give back to their forest community. These little life forms colonize tree roots, and then protect the trees from disease and rot-causing fungi. They’re so good at it that they’re used as a natural fungicide—applied to leaves, seeds and the soil around valued plants.

Nature’s message is that a diverse community is a far healthier, more productive one.

© Jan TenBruggencate 2024

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