Giving recipient communities a greater head start and including productive species boosts early resistance to invasion

Questions Giving a time advance to restored native plant species has recently been considered a promising way to improve their persistence and reduce invasion success (i.e., through priority effects). However, little is known about the influence of the elapsed time between seeding and invasion and i...

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Published in:Applied vegetation science 2020-07, Vol.23 (3), p.340-352
Main Authors: Hess, Manon Célia Morgane, Buisson, Elise, Fontes, Hugo, Bacon, Léo, Sabatier, Florent, Mesléard, François, Marrs, Rob
Format: Article
Language:English
Subjects:
Ambrosia artemisiifolia
assembly
Biodiversity and Ecology
Biomass
biotic resistance
Bothriochloa barbinodis
coexistence
Composition
Cortaderia selloana
Density
Emergence
Environmental Engineering
Environmental Sciences
Global Changes
Herbivores
historical contingencies
Indigenous plants
Indigenous species
Introduced species
Invasive species
Monoculture
multistate models
Plant species
Polyculture
priority effects
restoration
Revegetation
Seeding
Seedlings
Seeds
Species composition
Success
Survival
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Summary:Questions Giving a time advance to restored native plant species has recently been considered a promising way to improve their persistence and reduce invasion success (i.e., through priority effects). However, little is known about the influence of the elapsed time between seeding and invasion and its interaction with other characteristics such as species composition and density, despite the fact that it could substantially help developing effective management strategies. Methods In a pot experiment, we simulated invasion by three major invasive species (Ambrosia artemisiifolia, Bothriochloa barbinodis, and Cortaderia selloana) in soil covered with recipient communities differing in species composition (one, three or nine species), density (700 or 2,778 seeds/m2), and time advance (established one or five months previously). We assessed early invasion success by measuring seedling emergence and survival over six months. Results Early invasion success was mainly explained by recipient community's time advance and composition (or their interaction), while density had limited influence. Polycultures (three or nine species) showed generally greater invasion resistance, most likely due to high above‐ground biomass essentially produced by two species. Species composition interacted with time advance in two ways: (a) Bothriochloa barbinodis seedling emergence was impacted by composition only in communities having five months of advance, suggesting that the contribution of species composition to invasion resistance varies according to the age of the community, and (b) Ambrosia artemisiifolia and Cortaderia selloana survival was affected by time advance in polycultures only, which produced much more biomass than monocultures, implying that a greater head start provides a competitive advantage only if it allows a sufficient increase in biomass production. Conclusions Implementing revegetation as soon as site clearance work is over, as well as establishing productive native species may help reduce invasion success. How much of an advantage recipient community time advance represents depends on biomass production. Understanding the determinants of an early robust invasion resistance is a fundamental step in designing resistant restored plant communities. Here, we show that early invasion resistance is enhanced when elapsed time between seeding and invasion increases. How much of an advantage extending elapsed time represents depends on biomass production of the recipi
ISSN:1402-2001
1654-109X
DOI:10.1111/avsc.12502