‘Sneezing’ plants: pathogen transport via jumping-droplet condensation | Zendy

Saurabh Nath | Zendy; S. Farzad Ahmadi | Zendy; Hope A. Gruszewski | Zendy; Stuti Budhiraja | Zendy; Caitlin Bisbano | Zendy; Sunghwan Jung | Zendy; David G. Schmale | Zendy; Jonathan B. Boreyko | Zendy

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‘Sneezing’ plants: pathogen transport via jumping-droplet condensation

Author(s) -

Saurabh Nath,

S. Farzad Ahmadi,

Hope A. Gruszewski,

Stuti Budhiraja,

Caitlin Bisbano,

Sunghwan Jung,

David G. Schmale,

Jonathan B. Boreyko

Publication year - 2019

Publication title -

journal of the royal society interface

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.655

H-Index - 139

eISSN - 1742-5689

pISSN - 1742-5662

DOI - 10.1098/rsif.2019.0243

Subject(s) - urediniospore , coalescence (physics) , biology , rust (programming language) , jumping , condensation , botany , agronomy , meteorology , spore , physics , physiology , astrobiology , computer science , programming language

We show that condensation growing on wheat leaves infected with the leaf rust fungus,Puccinia triticina , is capable of spontaneously launching urediniospores off the plant. This surprising liberation mechanism is enabled by the superhydrophobicity of wheat leaves, which promotes a jumping-droplet mode of condensation powered by the surface energy released from coalescence events. We found that urediniospores often adhere to the self-propelled condensate, resulting in liberation rates of approximately 10 cm−2 h−1 for leaves infected with rust. Urediniospores were catapulted up to 5 mm from the leaf’s surface, a distance sufficient to clear the laminar boundary layer for subsequent dispersal even in gentle winds.

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