Invasion impacts and dynamics of a European-wide introduced species

Phillip J. Haubrock; Danish A. Ahmed; Ross N. Cuthbert; Rachel Stubbington; Sami Domisch; Jaime R.G. Marquez; Ayah Beidas; Giuseppe Amatulli; Jens Kiesel; Longzhu Q. Shen; Ismael Soto; David G. Angeler; Núria Bonada; Miguel Cañedo-Argüelles; Zoltán Csabai; Thibault Datry; Elvira de Eyto; Alain Dohet; Emma Drohan; Judy England; Maria J. Feio; Marie A.E. Forio; Peter Goethals; Wolfram Graf; Jani Heino; Emma J. Hudgins; Sonja C. Jähnig; Richard K. Johnson; Aitor Larrañaga; Patrick Leitner; Lionel L'Hoste; Marie Helene Lizee; Anthony Maire; Jes J. Rasmussen; Ralf B. Schäfer; Astrid Schmidt-Kloiber; Rudy Vannevel; Gábor Várbíró; Peter Wiberg-Larsen; Peter Haase

doi:10.1111/gcb.16207

Invasion impacts and dynamics of a European-wide introduced species

Phillip J. Haubrock, Danish A. Ahmed, Ross N. Cuthbert, Rachel Stubbington, Sami Domisch, Jaime R.G. Marquez, Ayah Beidas, Giuseppe Amatulli, Jens Kiesel, Longzhu Q. Shen, Ismael Soto, David G. Angeler, Núria Bonada, Miguel Cañedo-Argüelles, Zoltán Csabai, Thibault Datry, Elvira de Eyto, Alain Dohet, Emma Drohan, Judy EnglandMaria J. Feio, Marie A.E. Forio, Peter Goethals, Wolfram Graf, Jani Heino, Emma J. Hudgins, Sonja C. Jähnig, Richard K. Johnson, Aitor Larrañaga, Patrick Leitner, Lionel L'Hoste, Marie Helene Lizee, Anthony Maire, Jes J. Rasmussen, Ralf B. Schäfer, Astrid Schmidt-Kloiber, Rudy Vannevel, Gábor Várbíró, Peter Wiberg-Larsen, Peter Haase

Gulf University for Science and Technology

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

47 Scopus citations

Abstract

Globalization has led to the introduction of thousands of alien species worldwide. With growing impacts by invasive species, understanding the invasion process remains critical for predicting adverse effects and informing efficient management. Theoretically, invasion dynamics have been assumed to follow an “invasion curve” (S-shaped curve of available area invaded over time), but this dynamic has lacked empirical testing using large-scale data and neglects to consider invader abundances. We propose an “impact curve” describing the impacts generated by invasive species over time based on cumulative abundances. To test this curve's large-scale applicability, we used the data-rich New Zealand mud snail Potamopyrgus antipodarum, one of the most damaging freshwater invaders that has invaded almost all of Europe. Using long-term (1979–2020) abundance and environmental data collected across 306 European sites, we observed that P. antipodarum abundance generally increased through time, with slower population growth at higher latitudes and with lower runoff depth. Fifty-nine percent of these populations followed the impact curve, characterized by first occurrence, exponential growth, then long-term saturation. This behaviour is consistent with boom-bust dynamics, as saturation occurs due to a rapid decline in abundance over time. Across sites, we estimated that impact peaked approximately two decades after first detection, but the rate of progression along the invasion process was influenced by local abiotic conditions. The S-shaped impact curve may be common among many invasive species that undergo complex invasion dynamics. This provides a potentially unifying approach to advance understanding of large-scale invasion dynamics and could inform timely management actions to mitigate impacts on ecosystems and economies.

Original language	English
Pages (from-to)	4620-4632
Number of pages	13
Journal	Global Change Biology
Volume	28
Issue number	15
DOIs	https://doi.org/10.1111/gcb.16207
State	Published - Aug 2022

Keywords

biological invasion
long-term time series
Potamopyrgus antipodarum
rapid response/early detection
temporal modelling

Funding Agency

Kuwait Foundation for the Advancement of Sciences

UN SDGs

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

Access to Document

10.1111/gcb.16207

Cite this

Haubrock, P. J., Ahmed, D. A., Cuthbert, R. N., Stubbington, R., Domisch, S., Marquez, J. R. G., Beidas, A., Amatulli, G., Kiesel, J., Shen, L. Q., Soto, I., Angeler, D. G., Bonada, N., Cañedo-Argüelles, M., Csabai, Z., Datry, T., de Eyto, E., Dohet, A., Drohan, E., ... Haase, P. (2022). Invasion impacts and dynamics of a European-wide introduced species. Global Change Biology, 28(15), 4620-4632. https://doi.org/10.1111/gcb.16207

@article{23a0280ae3974843bbec05b40a3ef144,

title = "Invasion impacts and dynamics of a European-wide introduced species",

abstract = "Globalization has led to the introduction of thousands of alien species worldwide. With growing impacts by invasive species, understanding the invasion process remains critical for predicting adverse effects and informing efficient management. Theoretically, invasion dynamics have been assumed to follow an “invasion curve” (S-shaped curve of available area invaded over time), but this dynamic has lacked empirical testing using large-scale data and neglects to consider invader abundances. We propose an “impact curve” describing the impacts generated by invasive species over time based on cumulative abundances. To test this curve's large-scale applicability, we used the data-rich New Zealand mud snail Potamopyrgus antipodarum, one of the most damaging freshwater invaders that has invaded almost all of Europe. Using long-term (1979–2020) abundance and environmental data collected across 306 European sites, we observed that P. antipodarum abundance generally increased through time, with slower population growth at higher latitudes and with lower runoff depth. Fifty-nine percent of these populations followed the impact curve, characterized by first occurrence, exponential growth, then long-term saturation. This behaviour is consistent with boom-bust dynamics, as saturation occurs due to a rapid decline in abundance over time. Across sites, we estimated that impact peaked approximately two decades after first detection, but the rate of progression along the invasion process was influenced by local abiotic conditions. The S-shaped impact curve may be common among many invasive species that undergo complex invasion dynamics. This provides a potentially unifying approach to advance understanding of large-scale invasion dynamics and could inform timely management actions to mitigate impacts on ecosystems and economies.",

keywords = "biological invasion, long-term time series, Potamopyrgus antipodarum, rapid response/early detection, temporal modelling",

author = "Haubrock, {Phillip J.} and Ahmed, {Danish A.} and Cuthbert, {Ross N.} and Rachel Stubbington and Sami Domisch and Marquez, {Jaime R.G.} and Ayah Beidas and Giuseppe Amatulli and Jens Kiesel and Shen, {Longzhu Q.} and Ismael Soto and Angeler, {David G.} and N{\'u}ria Bonada and Miguel Ca{\~n}edo-Arg{\"u}elles and Zolt{\'a}n Csabai and Thibault Datry and {de Eyto}, Elvira and Alain Dohet and Emma Drohan and Judy England and Feio, {Maria J.} and Forio, {Marie A.E.} and Peter Goethals and Wolfram Graf and Jani Heino and Hudgins, {Emma J.} and J{\"a}hnig, {Sonja C.} and Johnson, {Richard K.} and Aitor Larra{\~n}aga and Patrick Leitner and Lionel L'Hoste and Lizee, {Marie Helene} and Anthony Maire and Rasmussen, {Jes J.} and Sch{\"a}fer, {Ralf B.} and Astrid Schmidt-Kloiber and Rudy Vannevel and G{\'a}bor V{\'a}rb{\'i}r{\'o} and Peter Wiberg-Larsen and Peter Haase",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Global Change Biology published by John Wiley & Sons Ltd.",

year = "2022",

month = aug,

doi = "10.1111/gcb.16207",

language = "English",

volume = "28",

pages = "4620--4632",

journal = "Global Change Biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "15",

}

Haubrock, PJ, Ahmed, DA, Cuthbert, RN, Stubbington, R, Domisch, S, Marquez, JRG, Beidas, A, Amatulli, G, Kiesel, J, Shen, LQ, Soto, I, Angeler, DG, Bonada, N, Cañedo-Argüelles, M, Csabai, Z, Datry, T, de Eyto, E, Dohet, A, Drohan, E, England, J, Feio, MJ, Forio, MAE, Goethals, P, Graf, W, Heino, J, Hudgins, EJ, Jähnig, SC, Johnson, RK, Larrañaga, A, Leitner, P, L'Hoste, L, Lizee, MH, Maire, A, Rasmussen, JJ, Schäfer, RB, Schmidt-Kloiber, A, Vannevel, R, Várbíró, G, Wiberg-Larsen, P & Haase, P 2022, 'Invasion impacts and dynamics of a European-wide introduced species', Global Change Biology, vol. 28, no. 15, pp. 4620-4632. https://doi.org/10.1111/gcb.16207

TY - JOUR

T1 - Invasion impacts and dynamics of a European-wide introduced species

AU - Haubrock, Phillip J.

AU - Ahmed, Danish A.

AU - Cuthbert, Ross N.

AU - Stubbington, Rachel

AU - Domisch, Sami

AU - Marquez, Jaime R.G.

AU - Beidas, Ayah

AU - Amatulli, Giuseppe

AU - Kiesel, Jens

AU - Shen, Longzhu Q.

AU - Soto, Ismael

AU - Angeler, David G.

AU - Bonada, Núria

AU - Cañedo-Argüelles, Miguel

AU - Csabai, Zoltán

AU - Datry, Thibault

AU - de Eyto, Elvira

AU - Dohet, Alain

AU - Drohan, Emma

AU - England, Judy

AU - Feio, Maria J.

AU - Forio, Marie A.E.

AU - Goethals, Peter

AU - Graf, Wolfram

AU - Heino, Jani

AU - Hudgins, Emma J.

AU - Jähnig, Sonja C.

AU - Johnson, Richard K.

AU - Larrañaga, Aitor

AU - Leitner, Patrick

AU - L'Hoste, Lionel

AU - Lizee, Marie Helene

AU - Maire, Anthony

AU - Rasmussen, Jes J.

AU - Schäfer, Ralf B.

AU - Schmidt-Kloiber, Astrid

AU - Vannevel, Rudy

AU - Várbíró, Gábor

AU - Wiberg-Larsen, Peter

AU - Haase, Peter

PY - 2022/8

Y1 - 2022/8

N2 - Globalization has led to the introduction of thousands of alien species worldwide. With growing impacts by invasive species, understanding the invasion process remains critical for predicting adverse effects and informing efficient management. Theoretically, invasion dynamics have been assumed to follow an “invasion curve” (S-shaped curve of available area invaded over time), but this dynamic has lacked empirical testing using large-scale data and neglects to consider invader abundances. We propose an “impact curve” describing the impacts generated by invasive species over time based on cumulative abundances. To test this curve's large-scale applicability, we used the data-rich New Zealand mud snail Potamopyrgus antipodarum, one of the most damaging freshwater invaders that has invaded almost all of Europe. Using long-term (1979–2020) abundance and environmental data collected across 306 European sites, we observed that P. antipodarum abundance generally increased through time, with slower population growth at higher latitudes and with lower runoff depth. Fifty-nine percent of these populations followed the impact curve, characterized by first occurrence, exponential growth, then long-term saturation. This behaviour is consistent with boom-bust dynamics, as saturation occurs due to a rapid decline in abundance over time. Across sites, we estimated that impact peaked approximately two decades after first detection, but the rate of progression along the invasion process was influenced by local abiotic conditions. The S-shaped impact curve may be common among many invasive species that undergo complex invasion dynamics. This provides a potentially unifying approach to advance understanding of large-scale invasion dynamics and could inform timely management actions to mitigate impacts on ecosystems and economies.

AB - Globalization has led to the introduction of thousands of alien species worldwide. With growing impacts by invasive species, understanding the invasion process remains critical for predicting adverse effects and informing efficient management. Theoretically, invasion dynamics have been assumed to follow an “invasion curve” (S-shaped curve of available area invaded over time), but this dynamic has lacked empirical testing using large-scale data and neglects to consider invader abundances. We propose an “impact curve” describing the impacts generated by invasive species over time based on cumulative abundances. To test this curve's large-scale applicability, we used the data-rich New Zealand mud snail Potamopyrgus antipodarum, one of the most damaging freshwater invaders that has invaded almost all of Europe. Using long-term (1979–2020) abundance and environmental data collected across 306 European sites, we observed that P. antipodarum abundance generally increased through time, with slower population growth at higher latitudes and with lower runoff depth. Fifty-nine percent of these populations followed the impact curve, characterized by first occurrence, exponential growth, then long-term saturation. This behaviour is consistent with boom-bust dynamics, as saturation occurs due to a rapid decline in abundance over time. Across sites, we estimated that impact peaked approximately two decades after first detection, but the rate of progression along the invasion process was influenced by local abiotic conditions. The S-shaped impact curve may be common among many invasive species that undergo complex invasion dynamics. This provides a potentially unifying approach to advance understanding of large-scale invasion dynamics and could inform timely management actions to mitigate impacts on ecosystems and economies.

KW - biological invasion

KW - long-term time series

KW - Potamopyrgus antipodarum

KW - rapid response/early detection

KW - temporal modelling

UR - http://www.scopus.com/inward/record.url?scp=85132607815&partnerID=8YFLogxK

U2 - 10.1111/gcb.16207

DO - 10.1111/gcb.16207

M3 - Article

C2 - 35570183

AN - SCOPUS:85132607815

SN - 1354-1013

VL - 28

SP - 4620

EP - 4632

JO - Global Change Biology

JF - Global Change Biology

IS - 15

ER -

Invasion impacts and dynamics of a European-wide introduced species

Abstract

Keywords

Funding Agency

UN SDGs

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