A new version of this entry is available:

Loading...
Thumbnail Image
Article
2021

Seed dispersal by wind decreases when plants are water‐stressed, potentially counteracting species coexistence and niche evolution

Abstract (English)

Hydrology is a major environmental factor determining plant fitness, and hydrological niche segregation (HNS) has been widely used to explain species coexistence. Nevertheless, the distribution of plant species along hydrological gradients does not only depend on their hydrological niches but also depend on their seed dispersal, with dispersal either weakening or reinforcing the effects of HNS on coexistence. However, it is poorly understood how seed dispersal responds to hydrological conditions. To close this gap, we conducted a common‐garden experiment exposing five wind‐dispersed plant species (Bellis perennis, Chenopodium album, Crepis sancta, Hypochaeris glabra, and Hypochaeris radicata) to different hydrological conditions. We quantified the effects of hydrological conditions on seed production and dispersal traits, and simulated seed dispersal distances with a mechanistic dispersal model. We found species‐specific responses of seed production, seed dispersal traits, and predicted dispersal distances to hydrological conditions. Despite these species‐specific responses, there was a general positive relationship between seed production and dispersal distance: Plants growing in favorable hydrological conditions not only produce more seeds but also disperse them over longer distances. This arises mostly because plants growing in favorable environments grow taller and thus disperse their seeds over longer distances. We postulate that the positive relationship between seed production and dispersal may reduce the concentration of each species to the environments favorable for it, thus counteracting species coexistence. Moreover, the resulting asymmetrical gene flow from favorable to stressful habitats may slow down the microevolution of hydrological niches, causing evolutionary niche conservatism. Accounting for context‐dependent seed dispersal should thus improve ecological and evolutionary models for the spatial dynamics of plant populations and communities.

File is subject to an embargo until

This is a correction to:

A correction to this entry is available:

This is a new version of:

Notes

Publication license

Publication series

Published in

Ecology and evolution, 11 (2021), 22, 16239-16249. https://doi.org/10.1002/ece3.8305. ISSN: 2045-7758
Faculty
Institute

Examination date

Supervisor

Edition / version

Citation

DOI

ISSN

ISBN

Language
English

Publisher

Publisher place

Classification (DDC)
580 Plants

Original object

Standardized keywords (GND)

BibTeX

@article{Zhu2021, url = {https://hohpublica.uni-hohenheim.de/handle/123456789/16890}, doi = {10.1002/ece3.8305}, author = {Zhu, Jinlei and Lukić, Nataša and Rajtschan, Verena et al.}, title = {Seed dispersal by wind decreases when plants are water‐stressed, potentially counteracting species coexistence and niche evolution}, journal = {Ecology and evolution}, year = {2021}, }