Phenotypic differentiation among native, expansive and introduced populations influences invasion success

Article

Lazaro-Lobo, Adrian, Moles, Angela T., Fried, Guillaume, Verloove, Filip, Campos, Juan Antonio, Herrera, Mercedes, Goni, Elena, Bioret, Frederic, Buffa, Gabriella, Fantinato, Edy, Sentinella, Alexander, Zalucki, Myron P., Mayfield, Margaret, Smith, Tobias, Catling, Alexandra, Zalucki, Jacinta M., Lucardi, Rima D., Shoemaker, Cory M., Mason, David S. and Ervin, Gary N.. 2021. "Phenotypic differentiation among native, expansive and introduced populations influences invasion success ." Journal of Biogeography. 48 (11), pp. 2907-2918. https://doi.org/10.1111/jbi.14252
Article Title

Phenotypic differentiation among native, expansive and introduced populations influences invasion success

ERA Journal ID3269
Article CategoryArticle
AuthorsLazaro-Lobo, Adrian, Moles, Angela T., Fried, Guillaume, Verloove, Filip, Campos, Juan Antonio, Herrera, Mercedes, Goni, Elena, Bioret, Frederic, Buffa, Gabriella, Fantinato, Edy, Sentinella, Alexander, Zalucki, Myron P., Mayfield, Margaret, Smith, Tobias, Catling, Alexandra, Zalucki, Jacinta M., Lucardi, Rima D., Shoemaker, Cory M., Mason, David S. and Ervin, Gary N.
Journal TitleJournal of Biogeography
Journal Citation48 (11), pp. 2907-2918
Number of Pages12
YearNov 2021
PublisherJohn Wiley & Sons
Place of PublicationUnited Kingdom
ISSN0305-0270
1365-2699
Digital Object Identifier (DOI)https://doi.org/10.1111/jbi.14252
Web Address (URL)https://onlinelibrary.wiley.com/doi/full/10.1111/jbi.14252
Abstract

Aim: Humans influence species distributions by modifying the environment and by dispersing species beyond their natural ranges. Populations of species that have established in disjunct regions of the world may exhibit trait differentiation from native populations due to founder effects and adaptations to selection pressures in each distributional region. We compared multiple native, expansive and introduced populations of a single species across the world, considering the influence of environmental stressors and transgenerational effects.

Location: United States Gulf and Atlantic coasts, United States interior, European Atlantic and Mediterranean coasts, east coast of Australia.

Taxon: Baccharis halimifolia L. (eastern baccharis).

Methods: We monitored seed germination, seedling emergence, survival and early growth in a common garden experiment, conducted with over 18,200 seeds from 80 populations. We also evaluated the influence of environmental stress and maternal traits on progeny performance.

Results: Introduced European Atlantic populations had faster germination and early growth than native populations. However, this was not the case for the more recently naturalized European Mediterranean populations. Introduced Australian populations grew faster than native populations in non-saline environments but had lower survival in saline conditions commonly encountered in the native range. Similarly, expansive inland US populations germinated faster than coastal native populations in non-saline environments but grew and germinated more slowly in saline environments. Maternal inflorescence and plant size were positively related with seed germination and seedling survival, whereas flower abundance was positively correlated with seedling early growth and survival. However, maternal traits explained a much lower fraction of the total variation in early demographic stages of B. halimifolia than did distributional range.

Main conclusions: Phenotypic differentiation could allow B. halimifolia to adapt to different biotic and abiotic selection pressures found in each distributional range, potentially contributing to its success in introduced and expansive ranges.

KeywordsBaccharis halimifolia; common garden experiment; distributional ranges; founder effects; introduced species; local adaptations; maternal traits; selection pressure
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Byline AffiliationsMississippi State University, United States
University of New South Wales
ANSES, France
Meise Botanic Garden, Belgium
University of the Basque Country, Spain
University of Western Brittany, France
University Ca’ Foscari of Venice, Italy
University of Queensland
Griffith University
Department of Agriculture, United States
Slippery Rock University, United States
University of Florida, United States
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