Arthropod acoustic communication is a primary focus at the Patek Lab. Here you can find our acoustically oriented research projects along with sounds and video of spiny lobsters (Palinuridae) and mantis shrimp (Stomatopoda).
The captured launch of a ballistospore.
Pringle, A, S. N. Patek, M. Fischer, J. Stolze, and N. Money. 2005. The captured launch of a ballistospore. Mycologia 97(4): 866-871.
Mycologia 97(4): 866-871
Ballistospore discharge is a feature of 30 000 species of mushrooms, basidiomycete yeasts and pathogenic rusts and smuts. The biomechanics of discharge may involve an abrupt change in the center of mass associated with the coalescence of Buller’s drop and the spore. However this process occurs so rapidly that the launch of the ballistospore has never been visualized. Here we report ultra highspeed video recordings of the earliest events of spore dispersal using the yeast Itersonilia perplexans and the distantly related jelly fungus Auricularia auricula. Images taken at camera speeds of up to 100 000 frames/s demonstrate that ballistospore discharge does involve the coalescence of Buller’s drop and the spore. Recordings of I. perplexans demonstrate that although coalescence may result from the directed collapse of Buller’s drop onto the spore, it also may involve the movement of the spore toward the drop. The release of surface tension at coalescence provides the energy and directional momentum to propel the drop and spore away from the fungus. Analyses show that ballistospores launch into the air at initial accelerations in excess of 10 000 g. There is no known analog of this micromechanical process in animals, plants or bacteria, but the recent development of a surface tension motor may mimic the fungal biology described here.