# Seed Traits and Salt Tolerance Contribute to the Range Expansion of Plantago coronopus Along Winter‐Salted Roads in Central Europe

**Authors:** Henrietta Bak, Réka Fekete, Zsombor Miholcsa, Jenő Nagy, Sándor Jordán, Péter István Molnár, Attila Molnár V., Eszter Ruprecht

PMC · DOI: 10.1002/ece3.72406 · Ecology and Evolution · 2025-11-17

## TL;DR

The plant Plantago coronopus spreads along salted roads in Europe due to its salt tolerance and unique seed traits that aid dispersal.

## Contribution

The study reveals how seed dimorphism and salt tolerance enable Plantago coronopus to thrive and spread along winter-salted roads.

## Key findings

- P. coronopus has small seeds with low wind dispersal ability, aiding roadside spread.
- Small seeds of P. coronopus show higher reproductive potential in salted soil.
- P. coronopus is found almost exclusively along motorways in Hungary.

## Abstract

Due to the expansion of road networks and the use of de‐icing salt, numerous salt‐tolerant plant species spread along roadsides worldwide. One of the most striking examples is a coastal halophyte, 
Plantago coronopus
, which has been dispersing along road networks in Europe. Our aim was to investigate the role of seed dimorphism, seed traits of the two seed types (morphology, germination rate, wind dispersal ability), and salt tolerance in the successful roadside spread of 
P. coronopus
. We compared the seed traits, salt tolerance, and the distribution along roadsides in Hungary of 
P. coronopus
 to four species of the Plantago genus native to Central Europe. We found that the native 
P. lanceolata
 was the most widespread along roadsides in Hungary, while 
P. coronopus
 was the third. Interestingly, 
P. coronopus
 was found almost exclusively along motorways. 
P. coronopus
 had almost twice as many large seeds as small seeds. Small seeds of this species had the lowest terminal velocity compared to the other species, which may contribute to the successful dispersal by wind and air currents caused by cars. Seeds of all the species germinated at 0.4% salt concentration, but with a reduced rate (except 
P. major
). Specimens from small seeds had higher shoot weight than those from large seeds and proved to have a higher reproductive potential even in salted soil. Our results show that seed dimorphism, through different dispersal capacity and germination success of the two seed types, as well as through different reproductive potential and salt tolerance of specimens developed from the two seed types, may contribute to the current rapid spread of 
P. coronopus
 along motorways in Hungary and Europe, and to its persistence under disturbed, spatially and temporally heterogeneous conditions.

Our aim was to investigate the role of seed dimorphism and seed traits in the successful roadside spread of 
P. coronopus
, and to compare its salt tolerance to other species of the Plantago genus native to Central Europe. Our results show that winter‐salted roadsides are suitable habitats for 
P. coronopus
 and other salt‐tolerant Plantago species. Seed dimorphism of 
P. coronopus
 contributes to its successful dispersal and adaptation to heterogeneous roadside conditions.

## Linked entities

- **Species:** Plantago coronopus (taxon 101996)

## Full-text entities

- **Chemicals:** Salt (MESH:D012492)
- **Species:** Plantago coronopus (species) [taxon 101996]

## Full text

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## Figures

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## References

125 references — full list in the complete paper: https://tomesphere.com/paper/PMC12622980/full.md

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Source: https://tomesphere.com/paper/PMC12622980