4.8 Article

The hypothermic nature of fungi

Publisher

NATL ACAD SCIENCES
DOI: 10.1073/pnas.2221996120

Keywords

fungal thermoregulation; fungal hypothermia; mushroom; fungal evapotranspiration; infrared thermography

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Fungi, including mushrooms, molds, and yeasts, have a characteristic cold temperature due to evaporative cooling, as confirmed by infrared thermography. The hypothermic state is observed throughout the fungal colonies and can even be detected in the mycelium of mushrooms. The evapotranspiration of fungi, which make up 2% of Earth's biomass, may contribute to cooler temperatures in local environments.
Fungi play essential roles in global health, ecology, and economy, but their thermal biology is relatively unexplored. Mushrooms, the fruiting body of mycelium, were previously noticed to be colder than surrounding air through evaporative cooling. Here, we confirm those observations using infrared thermography and report that this hypothermic state is also observed in mold and yeast colonies. The relatively colder temperature of yeasts and molds is also mediated via evaporative cooling and associated with the accumulation of condensed water droplets on plate lids above colonies. The colonies appear coldest at their center and the surrounding agar appears warmest near the colony edges. The analysis of cultivated Pleurotus ostreatus mushrooms revealed that the hypothermic feature of mushrooms can be observed throughout the whole fruiting process and at the level of mycelium. The mushroom's hymenium was coldest, and different areas of the mushroom appear to dissipate heat differently. We also constructed a mushroom-based air-cooling prototype system capable of passively reducing the temperature of a semiclosed compartment by approximately 10 & DEG;C in 25 min. These findings suggest that the fungal kingdom is characteristically cold. Since fungi make up approximately 2% of Earth's biomass, their evapotranspiration may contribute to cooler temperatures in local environments.

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