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Direct Effects of Polyploidization on Floral Scent

Schlager, Elisabeth ; Dötterl, Stefan ; Thompson, John N. ; Friberg, Magne LU and Gross, Karin LU (2025) In Journal of Chemical Ecology 51(5).
Abstract

Polyploidy is an important driver of the evolution and diversification of flowering plants. Several studies have shown that established polyploids differ from diploids in floral morphological traits and that polyploidization directly affects these traits. However, for floral scent, which is key to many plant-pollinator interactions, only a few studies have quantified differences between established cytotypes, and the direct effects of polyploidization on floral scent are not yet known. We compared the floral scent of established polyploids and diploids from a natural mixed-ploidy population of the plant Lithophragma bolanderi (Saxifragaceae), a species pollinated by two highly specialized moth pollinators of the genus Greya... (More)

Polyploidy is an important driver of the evolution and diversification of flowering plants. Several studies have shown that established polyploids differ from diploids in floral morphological traits and that polyploidization directly affects these traits. However, for floral scent, which is key to many plant-pollinator interactions, only a few studies have quantified differences between established cytotypes, and the direct effects of polyploidization on floral scent are not yet known. We compared the floral scent of established polyploids and diploids from a natural mixed-ploidy population of the plant Lithophragma bolanderi (Saxifragaceae), a species pollinated by two highly specialized moth pollinators of the genus Greya (Prodoxidae). We also compared the floral scent of neopolyploids synthetically generated from diploids with the floral scent of the diploid progenitors to quantify the direct effects of polyploidization on floral scent. Established tetraploids had a higher floral scent emission rate, produced more scent compounds, and emitted a relative scent composition that differed from diploids. Neotetraploids differed in the same direction from diploids as established tetraploids from diploids, but to a lesser extent. Together, our results provide novel insights into the ways in which polyploidization reshapes floral scent, thereby potentially altering interactions between plants and pollinators.

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Please use this url to cite or link to this publication:
author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Established polyploids, Floral evolution, Floral scent, Neopolyploids, Polyploidy, Synthetic polyploidization
in
Journal of Chemical Ecology
volume
51
issue
5
article number
89
publisher
Springer
external identifiers
  • scopus:105015432050
  • pmid:40928563
ISSN
0098-0331
DOI
10.1007/s10886-025-01641-y
language
English
LU publication?
yes
id
2b13c1e0-6171-4bf7-a4c8-7d7a3c50ce45
date added to LUP
2025-10-10 11:55:51
date last changed
2025-10-14 11:22:32
@article{2b13c1e0-6171-4bf7-a4c8-7d7a3c50ce45,
  abstract     = {{<p>Polyploidy is an important driver of the evolution and diversification of flowering plants. Several studies have shown that established polyploids differ from diploids in floral morphological traits and that polyploidization directly affects these traits. However, for floral scent, which is key to many plant-pollinator interactions, only a few studies have quantified differences between established cytotypes, and the direct effects of polyploidization on floral scent are not yet known. We compared the floral scent of established polyploids and diploids from a natural mixed-ploidy population of the plant Lithophragma bolanderi (Saxifragaceae), a species pollinated by two highly specialized moth pollinators of the genus Greya (Prodoxidae). We also compared the floral scent of neopolyploids synthetically generated from diploids with the floral scent of the diploid progenitors to quantify the direct effects of polyploidization on floral scent. Established tetraploids had a higher floral scent emission rate, produced more scent compounds, and emitted a relative scent composition that differed from diploids. Neotetraploids differed in the same direction from diploids as established tetraploids from diploids, but to a lesser extent. Together, our results provide novel insights into the ways in which polyploidization reshapes floral scent, thereby potentially altering interactions between plants and pollinators.</p>}},
  author       = {{Schlager, Elisabeth and Dötterl, Stefan and Thompson, John N. and Friberg, Magne and Gross, Karin}},
  issn         = {{0098-0331}},
  keywords     = {{Established polyploids; Floral evolution; Floral scent; Neopolyploids; Polyploidy; Synthetic polyploidization}},
  language     = {{eng}},
  number       = {{5}},
  publisher    = {{Springer}},
  series       = {{Journal of Chemical Ecology}},
  title        = {{Direct Effects of Polyploidization on Floral Scent}},
  url          = {{http://dx.doi.org/10.1007/s10886-025-01641-y}},
  doi          = {{10.1007/s10886-025-01641-y}},
  volume       = {{51}},
  year         = {{2025}},
}