BacterioFiles 325 - Moisture Mobilizes Mycelium Multiples

Mushroom spore print

This episode: Figuring out how mushrooms launch their spores out using a trick of water surface tension!

Download Episode (6.7 MB, 7.3 minutes)

Show notes:
Microbe of the episode: Carrot torradovirus 1

News item

Video of artificial "spore" launching

Journal Paper:
Liu F, Chavez RL, Patek SN, Pringle A, Feng JJ, Chen C-H. 2017. Asymmetric drop coalescence launches fungal ballistospores with directionality. J R Soc Interface 14:20170083.

Other interesting stories:

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Virus infects both plant and fungus (paper)

Gut interactions between bacteria and salt - also this

Bacteria can transform toxic metals into less harmful forms (paper)

Microbes generating electricity from swine wastewater

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Episode outline:

• Background: Fungi spread by very small spores
• When not just growing and spreading out
• Sometimes airborne or waterborne or carried on animal
• But to promote max spread, have ways to make spores go farther
• Mushroom hunters make spore prints to help ID mushrooms
• Put cap on paper and see shape and color of spores released onto paper
• Much more intricate and spread out than simple shape of gills
• Because mushrooms actually launch spores out from gills
• Use trick of surface tension from water droplets accumulated on spores
• What’s new: Now, scientists publishing in the Journal of the Royal Society Interface have worked out more about how this trick works!
• Spores launch pretty fast, ~2 mph
• But too light to go far, just fall out of cap, then picked up by airflow
• Important though, cos otherwise spores might stick to gills
• Works this way: spore attached to pedestal (sterigma) on gill
• Kind of semi-sphere shape
• Film of water forms on flatter side of spore
• Condensed from water vapor in the air
• Mannitol and such secreted to pull water out of air, hygroscopic
• Droplet called Buller’s drop forms at base of spore, near pedestal
• Observed by Reginald Buller over 100 years ago
• When droplet merges with film of water, surface tension causes water to spring forward
• Away from pedestal
• Pulls spore along with it
• But this model doesn’t quite explain the behavior
• Methods: Calculated model to describe physical behavior of launching
• Then tested model using artificial “spores” made of Styrofoam
• Much bigger and easier to see/measure than actual spores
• Spores too small even for high-speed camera to show launch details
• Link to movie of launch process
• Applications and implications: Nanotechnology: propulsion, self-cleaning
• What do I think: Amazing simple aspect of liquid physics accomplishes task of propulsion
• Don't need mechanics other than shape
• And chemistry for producing drops with right properties
• Very effective and consistent in its accuracy
• Fungi doing nanotech for a while now