How far and how fast can mushroom spores fly? Physical limits on ballistospore size and discharge distance in the Basidiomycota

Active discharge of basidiospores in most species of Basidiomycota is powered by the rapid movement of a droplet of fluid, called Buller’s drop, over the spore surface. This paper is concerned with the operation of the launch mechanism in species with the largest and smallest ballistospores. Aleurod...

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Veröffentlicht in:	Fungal biology 2010-08, Vol.114 (8), p.669-675
Hauptverfasser:	Fischer, Mark W.F., Stolze-Rybczynski, Jessica L., Cui, Yunluan, Money, Nicholas P.
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Sprache:	eng
Schlagworte:	Adaptive significance Agaricales - chemistry Agaricales - cytology Basidiocarps Basidiome Basidiomycota - chemistry Basidiomycota - cytology Basidiospore Biomechanics Cell Size Hyphodontia Microscopy, Video Models, Biological Models, Theoretical Spore discharge Spores, Fungal - chemistry Spores, Fungal - cytology
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description	Active discharge of basidiospores in most species of Basidiomycota is powered by the rapid movement of a droplet of fluid, called Buller’s drop, over the spore surface. This paper is concerned with the operation of the launch mechanism in species with the largest and smallest ballistospores. Aleurodiscus gigasporus (Russulales) produces the largest basidiospores on record. The maximum dimensions of the spores, 34 × 28 μm, correspond to a volume of 14 pL and to an estimated mass of 17 ng. The smallest recorded basidiospores are produced by Hyphodontia latitans (Hymenochaetales). Minimum spore dimensions in this species, 3.5 × 0.5 μm, correspond to a volume of 0.5 fL and mass of 0.6 pg. Neither species has been studied using high-speed video microscopy, but this technique was used to examine ballistospore discharge in species with spores of similar sizes (slightly smaller than A. gigasporus and slightly larger than those of H. latitans). Extrapolation of velocity measurements from these fungi provided estimates of discharge distances ranging from a maximum of almost 2 mm in A. gigasporus to a minimum of 4 μm in H. latitans. These are, respectively, the longest and shortest predicted discharge distances for ballistospores. Limitations to the distances traveled by basidiospores are discussed in relation to the mechanics of the discharge process and the types of fruit-bodies from which the spores are released.
doi_str_mv	10.1016/j.funbio.2010.06.002
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Physical limits on ballistospore size and discharge distance in the Basidiomycota</title><title>Fungal biology</title><addtitle>Fungal Biol</addtitle><description>Active discharge of basidiospores in most species of Basidiomycota is powered by the rapid movement of a droplet of fluid, called Buller’s drop, over the spore surface. This paper is concerned with the operation of the launch mechanism in species with the largest and smallest ballistospores. Aleurodiscus gigasporus (Russulales) produces the largest basidiospores on record. The maximum dimensions of the spores, 34 × 28 μm, correspond to a volume of 14 pL and to an estimated mass of 17 ng. The smallest recorded basidiospores are produced by Hyphodontia latitans (Hymenochaetales). Minimum spore dimensions in this species, 3.5 × 0.5 μm, correspond to a volume of 0.5 fL and mass of 0.6 pg. 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subjects	Adaptive significance Agaricales - chemistry Agaricales - cytology Basidiocarps Basidiome Basidiomycota - chemistry Basidiomycota - cytology Basidiospore Biomechanics Cell Size Hyphodontia Microscopy, Video Models, Biological Models, Theoretical Spore discharge Spores, Fungal - chemistry Spores, Fungal - cytology
title	How far and how fast can mushroom spores fly? Physical limits on ballistospore size and discharge distance in the Basidiomycota
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