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Running off the road: roadside non-native plants invading mountain vegetation

Research output: Contribution to journalA1: Web of Science-articleResearchpeer-review

Authors

  • Keith L. McDougall
  • Jonas Lembrechts
  • Lisa J. Rew
  • Sylvia Haider
  • Lohengrin A. Cavieres
  • Christoph Kueffer
  • Bridgett J. Naylor
  • Martin A. Nunez
  • Anibal Pauchard
  • Tim Seipel
  • Karina L. Speziale
  • Genevieve T. Wright
  • Jake M. Alexander

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Details

Original languageEnglish
JournalBiological Invasions
ISSN1387-3547
Publication statusPublished - 2018

Abstract

Prevention is regarded as a cost-effective management action to avoid unwanted impacts of nonnative species. However, targeted prevention can be difficult if little is known about the traits of successfully invading non-native species or habitat characteristics that make native vegetation more resistant to invasion. Here, we surveyed mountain roads in seven regions worldwide, to investigate whether different
species traits are beneficial during primary invasion (i.e. spread of non-native species along roadside dispersal corridors) and secondary invasion (i.e. percolation from roadsides into natural adjacent vegetation), and to determine if particular habitat
characteristics increase biotic resistance to invasion. We found primary invasion up mountain roads tends to be by longer lived, non-ruderal species without seed dispersal traits. For secondary invasion, we demonstrate that both traits of the non-native species and attributes of the receiving natural vegetation contribute to the extent of invasion. Non-native species that invade natural adjacent vegetation tend to be shade and moisture tolerant. Furthermore, non-native species invasion was greater when the receiving vegetation was similarly rich in native species. Our results show how mountain roads define which nonnative species are successful; first by favouring certain traits in mountain roadsides (the key dispersal pathway to the top), and secondly by requiring a different set of traits when species invade the natural adjacent
vegetation. While patterns in species traits were observed at a global level, regional abiotic and biotic variables largely generated region-specific levels of response, suggesting that management should be regionally driven.
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  • McDougall_etal_2018_BioInvas

    Final published version, 905 KB, PDF document

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