The pollen virome of wild plants and its association with variation in floral traits and land use

Fetters, Andrea M.; Cantalupo, Paul G.; Wei, Na; Robles, Maria Teresa Sáenz; Stanley, Aiden M.; Stephens, Jessica D.; Pipas, James M.; Ashman, Tia-Lynn

The pollen virome of wild plants and its association with variation in floral traits and land use

Andrea M. Fetters (), Paul G. Cantalupo, Na Wei, Maria Teresa Sáenz Robles, Aiden M. Stanley, Jessica D. Stephens, James M. Pipas and Tia-Lynn Ashman ()
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Andrea M. Fetters: University of Pittsburgh
Paul G. Cantalupo: University of Pittsburgh
Na Wei: University of Pittsburgh
Maria Teresa Sáenz Robles: University of Pittsburgh
Aiden M. Stanley: University of Pittsburgh
Jessica D. Stephens: University of Pittsburgh
James M. Pipas: University of Pittsburgh
Tia-Lynn Ashman: University of Pittsburgh

Nature Communications, 2022, vol. 13, issue 1, 1-11

Abstract: Abstract Pollen is a unique vehicle for viral spread. Pollen-associated viruses hitchhike on or within pollen grains and are transported to other plants by pollinators. They are deposited on flowers and have a direct pathway into the plant and next generation via seeds. To discover the diversity of pollen-associated viruses and identify contributing landscape and floral features, we perform a species-level metagenomic survey of pollen from wild, visually asymptomatic plants, located in one of four regions in the United States of America varying in land use. We identify many known and novel pollen-associated viruses, half belonging to the Bromoviridae, Partitiviridae, and Secoviridae viral families, but many families are represented. Across the regions, species harbor more viruses when surrounded by less natural and more human-modified environments than the reverse, but we note that other region-level differences may also covary with this. When examining the novel connection between virus richness and floral traits, we find that species with multiple, bilaterally symmetric flowers and smaller, spikier pollen harbored more viruses than those with opposite traits. The association of viral diversity with floral traits highlights the need to incorporate plant-pollinator interactions as a driver of pollen-associated virus transport into the study of plant-viral interactions.

Date: 2022
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DOI: 10.1038/s41467-022-28143-9

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