Global gene flow releases invasive plants from environmental constraints on genetic diversity

Annabel L. Smith; Trevor R. Hodkinson; Jesus Villellas; Jane A. Catford; Anna Mária Csergő; Simone P. Blomberg; Elizabeth E. Crone; Johan Ehrlén; Maria B. Garcia; Anna Liisa Laine; Deborah A. Roach; Roberto Salguero-Gómez; Glenda M. Wardle; Dylan Z. Childs; Bret D. Elderd; Alain Finn; Sergi Munné-Bosch; Maude E.A. Baudraz; Judit Bódis; Francis Q. Brearley; Anna Bucharova; Christina M. Caruso; Richard P. Duncan; John M. Dwyer; Ben Gooden; Ronny Groenteman; Liv Norunn Hamre; Aveliina Helm; Ruth Kelly; Lauri Laanisto; Michele Lonati; Joslin L. Moore; Melanie Morales; Siri Lie Olsen; Meelis Pärtel; William K. Petry; Satu Ramula; Pil U. Rasmussen; Simone Ravetto Enri; Anna Roeder; Christiane Roscher; Marjo Saastamoinen; Ayco J.M. Tack; Joachim Paul Töpper; Gregory E. Vose; Elizabeth M. Wandrag; Astrid Wingler; Yvonne M. Buckley

doi:10.1073/pnas.1915848117

Global gene flow releases invasive plants from environmental constraints on genetic diversity

Annabel L. Smith
, Trevor R. Hodkinson
, Jesus Villellas
, Jane A. Catford
, Anna Mária Csergő
, Simone P. Blomberg
, Elizabeth E. Crone
, Johan Ehrlén
, Maria B. Garcia
, Anna Liisa Laine
, Deborah A. Roach
, Roberto Salguero-Gómez
, Glenda M. Wardle
, Dylan Z. Childs
, Bret D. Elderd
, Alain Finn
, Sergi Munné-Bosch
, Maude E.A. Baudraz
, Judit Bódis
, Francis Q. Brearley

Anna Bucharova, Christina M. Caruso, Richard P. Duncan, John M. Dwyer, Ben Gooden, Ronny Groenteman, Liv Norunn Hamre, Aveliina Helm, Ruth Kelly, Lauri Laanisto, Michele Lonati, Joslin L. Moore, Melanie Morales, Siri Lie Olsen, Meelis Pärtel, William K. Petry, Satu Ramula, Pil U. Rasmussen, Simone Ravetto Enri, Anna Roeder, Christiane Roscher, Marjo Saastamoinen, Ayco J.M. Tack, Joachim Paul Töpper, Gregory E. Vose, Elizabeth M. Wandrag, Astrid Wingler, Yvonne M. Buckley

School of Biological, Earth and Environmental Sciences

Trinity College Dublin
University of Queensland
Museo Nacional de Ciencias Naturales–Consejo Superior de Investigaciones Científicas (MNCN-CSIC)
King's College London
Hungarian University of Agriculture and Life Sciences
Tufts University
Stockholm University
Pyrenean Institute of Ecology (CSIC)
University of Zurich
University of Helsinki
University of Virginia
University of Oxford
The University of Sydney
University of Sheffield
Louisiana State University
University of Barcelona
University of Pannonia
Manchester Metropolitan University
University of Tübingen
University of Münster
University of Guelph
University of Canberra
CSIRO
University of Wollongong
Manaaki Whenua - Landcare Research
Western Norway University of Applied Sciences
University of Tartu
Estonian University of Life Sciences
University of Turin
Monash University
University of the Balearic Islands
Norwegian Institute for Nature Research
Princeton University
University of Turku
National Research Centre for the Working Environment
Helmholtz Centre for Environmental Research
German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig
University of California at Irvine
University of New England

Research output: Contribution to journal › Article › peer-review

Abstract

When plants establish outside their native range, their ability to adapt to the new environment is influenced by both demography and dispersal. However, the relative importance of these two factors is poorly understood. To quantify the influence of demography and dispersal on patterns of genetic diversity underlying adaptation, we used data from a globally distributed demographic research network comprising 35 native and 18 nonnative populations of Plantago lanceolata. Species-specific simulation experiments showed that dispersal would dilute demographic influences on genetic diversity at local scales. Populations in the native European range had strong spatial genetic structure associated with geographic distance and precipitation seasonality. In contrast, nonnative populations had weaker spatial genetic structure that was not associated with environmental gradients but with higher within-population genetic diversity. Our findings show that dispersal caused by repeated, long-distance, human-mediated introductions has allowed invasive plant populations to overcome environmental constraints on genetic diversity, even without strong demographic changes. The impact of invasive plants may, therefore, increase with repeated introductions, highlighting the need to constrain future introductions of species even if they already exist in an area.

Original language	English
Pages (from-to)	4218-4227
Number of pages	10
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	117
Issue number	8
DOIs	https://doi.org/10.1073/pnas.1915848117
Publication status	Published - 25 Feb 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 15 Life on Land

Keywords

Adaptation
Demography
Global change
Plant invasion
Population genetics

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10.1073/pnas.1915848117

Cite this

Smith, A. L., Hodkinson, T. R., Villellas, J., Catford, J. A., Csergő, A. M., Blomberg, S. P., Crone, E. E., Ehrlén, J., Garcia, M. B., Laine, A. L., Roach, D. A., Salguero-Gómez, R., Wardle, G. M., Childs, D. Z., Elderd, B. D., Finn, A., Munné-Bosch, S., Baudraz, M. E. A., Bódis, J., ... Buckley, Y. M. (2020). Global gene flow releases invasive plants from environmental constraints on genetic diversity. Proceedings of the National Academy of Sciences of the United States of America, 117(8), 4218-4227. https://doi.org/10.1073/pnas.1915848117

@article{ebc69539b4b14aabbdefa33b9fa98df1,

title = "Global gene flow releases invasive plants from environmental constraints on genetic diversity",

abstract = "When plants establish outside their native range, their ability to adapt to the new environment is influenced by both demography and dispersal. However, the relative importance of these two factors is poorly understood. To quantify the influence of demography and dispersal on patterns of genetic diversity underlying adaptation, we used data from a globally distributed demographic research network comprising 35 native and 18 nonnative populations of Plantago lanceolata. Species-specific simulation experiments showed that dispersal would dilute demographic influences on genetic diversity at local scales. Populations in the native European range had strong spatial genetic structure associated with geographic distance and precipitation seasonality. In contrast, nonnative populations had weaker spatial genetic structure that was not associated with environmental gradients but with higher within-population genetic diversity. Our findings show that dispersal caused by repeated, long-distance, human-mediated introductions has allowed invasive plant populations to overcome environmental constraints on genetic diversity, even without strong demographic changes. The impact of invasive plants may, therefore, increase with repeated introductions, highlighting the need to constrain future introductions of species even if they already exist in an area.",

keywords = "Adaptation, Demography, Global change, Plant invasion, Population genetics",

author = "Smith, \{Annabel L.\} and Hodkinson, \{Trevor R.\} and Jesus Villellas and Catford, \{Jane A.\} and Cserg{\H o}, \{Anna M{\'a}ria\} and Blomberg, \{Simone P.\} and Crone, \{Elizabeth E.\} and Johan Ehrl{\'e}n and Garcia, \{Maria B.\} and Laine, \{Anna Liisa\} and Roach, \{Deborah A.\} and Roberto Salguero-G{\'o}mez and Wardle, \{Glenda M.\} and Childs, \{Dylan Z.\} and Elderd, \{Bret D.\} and Alain Finn and Sergi Munn{\'e}-Bosch and Baudraz, \{Maude E.A.\} and Judit B{\'o}dis and Brearley, \{Francis Q.\} and Anna Bucharova and Caruso, \{Christina M.\} and Duncan, \{Richard P.\} and Dwyer, \{John M.\} and Ben Gooden and Ronny Groenteman and Hamre, \{Liv Norunn\} and Aveliina Helm and Ruth Kelly and Lauri Laanisto and Michele Lonati and Moore, \{Joslin L.\} and Melanie Morales and Olsen, \{Siri Lie\} and Meelis P{\"a}rtel and Petry, \{William K.\} and Satu Ramula and Rasmussen, \{Pil U.\} and Enri, \{Simone Ravetto\} and Anna Roeder and Christiane Roscher and Marjo Saastamoinen and Tack, \{Ayco J.M.\} and T{\"o}pper, \{Joachim Paul\} and Vose, \{Gregory E.\} and Wandrag, \{Elizabeth M.\} and Astrid Wingler and Buckley, \{Yvonne M.\}",

year = "2020",

month = feb,

day = "25",

doi = "10.1073/pnas.1915848117",

language = "English",

volume = "117",

pages = "4218--4227",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "8",

}

Smith, AL, Hodkinson, TR, Villellas, J, Catford, JA, Csergő, AM, Blomberg, SP, Crone, EE, Ehrlén, J, Garcia, MB, Laine, AL, Roach, DA, Salguero-Gómez, R, Wardle, GM, Childs, DZ, Elderd, BD, Finn, A, Munné-Bosch, S, Baudraz, MEA, Bódis, J, Brearley, FQ, Bucharova, A, Caruso, CM, Duncan, RP, Dwyer, JM, Gooden, B, Groenteman, R, Hamre, LN, Helm, A, Kelly, R, Laanisto, L, Lonati, M, Moore, JL, Morales, M, Olsen, SL, Pärtel, M, Petry, WK, Ramula, S, Rasmussen, PU, Enri, SR, Roeder, A, Roscher, C, Saastamoinen, M, Tack, AJM, Töpper, JP, Vose, GE, Wandrag, EM, Wingler, A & Buckley, YM 2020, 'Global gene flow releases invasive plants from environmental constraints on genetic diversity', Proceedings of the National Academy of Sciences of the United States of America, vol. 117, no. 8, pp. 4218-4227. https://doi.org/10.1073/pnas.1915848117

TY - JOUR

T1 - Global gene flow releases invasive plants from environmental constraints on genetic diversity

AU - Smith, Annabel L.

AU - Hodkinson, Trevor R.

AU - Villellas, Jesus

AU - Catford, Jane A.

AU - Csergő, Anna Mária

AU - Blomberg, Simone P.

AU - Crone, Elizabeth E.

AU - Ehrlén, Johan

AU - Garcia, Maria B.

AU - Laine, Anna Liisa

AU - Roach, Deborah A.

AU - Salguero-Gómez, Roberto

AU - Wardle, Glenda M.

AU - Childs, Dylan Z.

AU - Elderd, Bret D.

AU - Finn, Alain

AU - Munné-Bosch, Sergi

AU - Baudraz, Maude E.A.

AU - Bódis, Judit

AU - Brearley, Francis Q.

AU - Bucharova, Anna

AU - Caruso, Christina M.

AU - Duncan, Richard P.

AU - Dwyer, John M.

AU - Gooden, Ben

AU - Groenteman, Ronny

AU - Hamre, Liv Norunn

AU - Helm, Aveliina

AU - Kelly, Ruth

AU - Laanisto, Lauri

AU - Lonati, Michele

AU - Moore, Joslin L.

AU - Morales, Melanie

AU - Olsen, Siri Lie

AU - Pärtel, Meelis

AU - Petry, William K.

AU - Ramula, Satu

AU - Rasmussen, Pil U.

AU - Enri, Simone Ravetto

AU - Roeder, Anna

AU - Roscher, Christiane

AU - Saastamoinen, Marjo

AU - Tack, Ayco J.M.

AU - Töpper, Joachim Paul

AU - Vose, Gregory E.

AU - Wandrag, Elizabeth M.

AU - Wingler, Astrid

AU - Buckley, Yvonne M.

PY - 2020/2/25

Y1 - 2020/2/25

N2 - When plants establish outside their native range, their ability to adapt to the new environment is influenced by both demography and dispersal. However, the relative importance of these two factors is poorly understood. To quantify the influence of demography and dispersal on patterns of genetic diversity underlying adaptation, we used data from a globally distributed demographic research network comprising 35 native and 18 nonnative populations of Plantago lanceolata. Species-specific simulation experiments showed that dispersal would dilute demographic influences on genetic diversity at local scales. Populations in the native European range had strong spatial genetic structure associated with geographic distance and precipitation seasonality. In contrast, nonnative populations had weaker spatial genetic structure that was not associated with environmental gradients but with higher within-population genetic diversity. Our findings show that dispersal caused by repeated, long-distance, human-mediated introductions has allowed invasive plant populations to overcome environmental constraints on genetic diversity, even without strong demographic changes. The impact of invasive plants may, therefore, increase with repeated introductions, highlighting the need to constrain future introductions of species even if they already exist in an area.

AB - When plants establish outside their native range, their ability to adapt to the new environment is influenced by both demography and dispersal. However, the relative importance of these two factors is poorly understood. To quantify the influence of demography and dispersal on patterns of genetic diversity underlying adaptation, we used data from a globally distributed demographic research network comprising 35 native and 18 nonnative populations of Plantago lanceolata. Species-specific simulation experiments showed that dispersal would dilute demographic influences on genetic diversity at local scales. Populations in the native European range had strong spatial genetic structure associated with geographic distance and precipitation seasonality. In contrast, nonnative populations had weaker spatial genetic structure that was not associated with environmental gradients but with higher within-population genetic diversity. Our findings show that dispersal caused by repeated, long-distance, human-mediated introductions has allowed invasive plant populations to overcome environmental constraints on genetic diversity, even without strong demographic changes. The impact of invasive plants may, therefore, increase with repeated introductions, highlighting the need to constrain future introductions of species even if they already exist in an area.

KW - Adaptation

KW - Demography

KW - Global change

KW - Plant invasion

KW - Population genetics

UR - https://www.scopus.com/pages/publications/85080063522

U2 - 10.1073/pnas.1915848117

DO - 10.1073/pnas.1915848117

M3 - Article

C2 - 32034102

AN - SCOPUS:85080063522

SN - 0027-8424

VL - 117

SP - 4218

EP - 4227

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 8

ER -

Global gene flow releases invasive plants from environmental constraints on genetic diversity

Abstract

UN SDGs

Keywords

Access to Document

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