Abstract
Plants allow their offspring to escape unfavourable local conditions through seed dispersal. Whether plants use this strategy to escape herbivores is not well understood. Here, we explore how different Taraxacum officinale populations modify seed dispersal in response to root herbivore attack by Melolontha melolontha in the field. Root herbivore attack increases seed dispersal potential through a reduction in seed weight in populations that have evolved under high root herbivore pressure, but not in populations that have evolved under low pressure. This increase in dispersal potential is associated with reduced germination, suggesting that adapted plants trade dispersal for establishment. Analysis of vegetative growth parameters suggests that increased dispersal is not the result of stress flowering. These results suggest that root herbivory selects for genotypes that increase their dispersal ability in response to herbivore attack.
Footnotes
Statement of authorship: ZB, MH and ME designed the study. ZB, CAMR, EHP and CER collected data. MP developed the time-of-flight tube. ZB, EHP, CER, CAMR, MP and ME analysed data. ZB and ME wrote the first draft of the manuscript. All authors contributed to the final version of the manuscript.
Data accessibility statement: All data supporting this study will be stored in the Dryad Digital Repository, and the data DOI will be included in the manuscript.
zoe.bont{at}ips.unibe.ch
marc.pfander{at}ips.unibe.ch
christelle.robert{at}ips.unibe.ch
huberm{at}uni-muenster.de
Erik.poelman{at}wur.nl
C.Raaijmakers{at}nioo.knaw.nl
matthias.erb{at}ips.unibe.ch