Exotic tree species have consistently lower herbivore load in a cross-Atlantic tree biodiversity experiment

Sylvie Berthelot; Jürgen Bauhus; Carsten F. Dormann; Dominique Gravel; Christian Messier; Charles A. Nock; Alain Paquette; Peter B. Reich; Jochen Fründ

doi:10.1002/ecy.4070

Exotic tree species have consistently lower herbivore load in a cross-Atlantic tree biodiversity experiment

Sylvie Berthelot, Jürgen Bauhus, Carsten F. Dormann, Dominique Gravel, Christian Messier, Charles A. Nock, Alain Paquette, Peter B. Reich, Jochen Fründ

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Abstract

It is commonly expected that exotic plants experience reduced herbivory, but experimental evidence for such enemy release is still controversial. One reason for conflicting results might be that community context has rarely been accounted for, although the surrounding plant diversity may moderate enemy release. Here, we tested the effects of focal tree origin and surrounding tree diversity on herbivore abundance and leaf damage in a cross-Atlantic tree-diversity experiment in Canada and Germany. We evaluated six European tree species paired with six North American congeners in both their native and exotic range, expecting lower herbivory for the exotic tree species in each pair at each site. Such reciprocal experiments have long been called for, but have not been realized thus far. In addition to a thorough evaluation of overall enemy release effects, we tested whether enemy release effects changed with the surrounding tree diversity. Herbivore abundance was indeed consistently lower on exotics across all six tree genera (12 comparisons). This effect of exotic status was independent of the continent, phylogenetic relatedness, and surrounding tree diversity. In contrast, leaf damage associated with generalist leaf chewers was consistently higher on North American tree species. Interestingly, several species of European weevils were the most abundant leaf chewers on both continents and the dominant herbivores at the Canadian site. Thus, most observed leaf damage is likely to reflect the effect of generalist herbivores that feed heavily on plant species with which they have not evolved. At the German site, sap suckers were the dominant herbivores and showed a pattern consistent with enemy release. Taken together, the consistently lower herbivory on exotics on both continents is not purely a pattern of enemy release in the strictest sense, but to some degree additionally reflects the susceptibility of native plants to invasive herbivores. In conclusion, our cross-Atlantic study is consistent with the idea that nonnative trees have generally reduced herbivory, regardless of tree community diversity and species identity, but for different reasons depending on the dominant herbivore guild.

Original language	English (US)
Article number	e4070
Journal	Ecology
Volume	104
Issue number	7
DOIs	https://doi.org/10.1002/ecy.4070
State	Published - Jul 2023

Bibliographical note

Funding Information:
We thank Michael Scherer-Lorenzen and Simon Bilodeau-Gauthier, who established and maintained the IDENT-Freiburg experiment together with Jürgen Bauhus and Charles A. Nock. We thank Jonathan Brassard, Justine Fontaine-Topaloff, and Leon Thoma, who helped with data collection in IDENT-Auclair and Deena Shrestha, who helped with data collection in IDENT-Freiburg. The establishment and maintenance of IDENT-Freiburg and IDENT-Auclair would not have been possible without the help of numerous students, technicians, and volunteers. This work was supported by a grant from the Baden-Württemberg Stiftung (Elite program for postdocs, 1.16101.17) to Jochen Fründ. We also thank the United States National Science Foundation Biological Integration Institutes grant no. NSF-DBI-2021898 and an NSERC discovery grant to Christian Messier for support. We thank two anonymous reviewers for their helpful comments. Open Access funding enabled and organized by Projekt DEAL.

Funding Information:
We thank Michael Scherer‐Lorenzen and Simon Bilodeau‐Gauthier, who established and maintained the IDENT‐Freiburg experiment together with Jürgen Bauhus and Charles A. Nock. We thank Jonathan Brassard, Justine Fontaine‐Topaloff, and Leon Thoma, who helped with data collection in IDENT‐Auclair and Deena Shrestha, who helped with data collection in IDENT‐Freiburg. The establishment and maintenance of IDENT‐Freiburg and IDENT‐Auclair would not have been possible without the help of numerous students, technicians, and volunteers. This work was supported by a grant from the Baden‐Württemberg Stiftung (Elite program for postdocs, 1.16101.17) to Jochen Fründ. We also thank the United States National Science Foundation Biological Integration Institutes grant no. NSF‐DBI‐2021898 and an NSERC discovery grant to Christian Messier for support. We thank two anonymous reviewers for their helpful comments. Open Access funding enabled and organized by Projekt DEAL.

Publisher Copyright:
© 2023 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.

Keywords

arthropods
associational effects
enemy release
exotic
herbivores
herbivory
IDENT
insects
native
tree diversity

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.

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

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abstract = "It is commonly expected that exotic plants experience reduced herbivory, but experimental evidence for such enemy release is still controversial. One reason for conflicting results might be that community context has rarely been accounted for, although the surrounding plant diversity may moderate enemy release. Here, we tested the effects of focal tree origin and surrounding tree diversity on herbivore abundance and leaf damage in a cross-Atlantic tree-diversity experiment in Canada and Germany. We evaluated six European tree species paired with six North American congeners in both their native and exotic range, expecting lower herbivory for the exotic tree species in each pair at each site. Such reciprocal experiments have long been called for, but have not been realized thus far. In addition to a thorough evaluation of overall enemy release effects, we tested whether enemy release effects changed with the surrounding tree diversity. Herbivore abundance was indeed consistently lower on exotics across all six tree genera (12 comparisons). This effect of exotic status was independent of the continent, phylogenetic relatedness, and surrounding tree diversity. In contrast, leaf damage associated with generalist leaf chewers was consistently higher on North American tree species. Interestingly, several species of European weevils were the most abundant leaf chewers on both continents and the dominant herbivores at the Canadian site. Thus, most observed leaf damage is likely to reflect the effect of generalist herbivores that feed heavily on plant species with which they have not evolved. At the German site, sap suckers were the dominant herbivores and showed a pattern consistent with enemy release. Taken together, the consistently lower herbivory on exotics on both continents is not purely a pattern of enemy release in the strictest sense, but to some degree additionally reflects the susceptibility of native plants to invasive herbivores. In conclusion, our cross-Atlantic study is consistent with the idea that nonnative trees have generally reduced herbivory, regardless of tree community diversity and species identity, but for different reasons depending on the dominant herbivore guild.",

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N2 - It is commonly expected that exotic plants experience reduced herbivory, but experimental evidence for such enemy release is still controversial. One reason for conflicting results might be that community context has rarely been accounted for, although the surrounding plant diversity may moderate enemy release. Here, we tested the effects of focal tree origin and surrounding tree diversity on herbivore abundance and leaf damage in a cross-Atlantic tree-diversity experiment in Canada and Germany. We evaluated six European tree species paired with six North American congeners in both their native and exotic range, expecting lower herbivory for the exotic tree species in each pair at each site. Such reciprocal experiments have long been called for, but have not been realized thus far. In addition to a thorough evaluation of overall enemy release effects, we tested whether enemy release effects changed with the surrounding tree diversity. Herbivore abundance was indeed consistently lower on exotics across all six tree genera (12 comparisons). This effect of exotic status was independent of the continent, phylogenetic relatedness, and surrounding tree diversity. In contrast, leaf damage associated with generalist leaf chewers was consistently higher on North American tree species. Interestingly, several species of European weevils were the most abundant leaf chewers on both continents and the dominant herbivores at the Canadian site. Thus, most observed leaf damage is likely to reflect the effect of generalist herbivores that feed heavily on plant species with which they have not evolved. At the German site, sap suckers were the dominant herbivores and showed a pattern consistent with enemy release. Taken together, the consistently lower herbivory on exotics on both continents is not purely a pattern of enemy release in the strictest sense, but to some degree additionally reflects the susceptibility of native plants to invasive herbivores. In conclusion, our cross-Atlantic study is consistent with the idea that nonnative trees have generally reduced herbivory, regardless of tree community diversity and species identity, but for different reasons depending on the dominant herbivore guild.

AB - It is commonly expected that exotic plants experience reduced herbivory, but experimental evidence for such enemy release is still controversial. One reason for conflicting results might be that community context has rarely been accounted for, although the surrounding plant diversity may moderate enemy release. Here, we tested the effects of focal tree origin and surrounding tree diversity on herbivore abundance and leaf damage in a cross-Atlantic tree-diversity experiment in Canada and Germany. We evaluated six European tree species paired with six North American congeners in both their native and exotic range, expecting lower herbivory for the exotic tree species in each pair at each site. Such reciprocal experiments have long been called for, but have not been realized thus far. In addition to a thorough evaluation of overall enemy release effects, we tested whether enemy release effects changed with the surrounding tree diversity. Herbivore abundance was indeed consistently lower on exotics across all six tree genera (12 comparisons). This effect of exotic status was independent of the continent, phylogenetic relatedness, and surrounding tree diversity. In contrast, leaf damage associated with generalist leaf chewers was consistently higher on North American tree species. Interestingly, several species of European weevils were the most abundant leaf chewers on both continents and the dominant herbivores at the Canadian site. Thus, most observed leaf damage is likely to reflect the effect of generalist herbivores that feed heavily on plant species with which they have not evolved. At the German site, sap suckers were the dominant herbivores and showed a pattern consistent with enemy release. Taken together, the consistently lower herbivory on exotics on both continents is not purely a pattern of enemy release in the strictest sense, but to some degree additionally reflects the susceptibility of native plants to invasive herbivores. In conclusion, our cross-Atlantic study is consistent with the idea that nonnative trees have generally reduced herbivory, regardless of tree community diversity and species identity, but for different reasons depending on the dominant herbivore guild.

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KW - exotic

KW - herbivores

KW - herbivory

KW - IDENT

KW - insects

KW - native

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Exotic tree species have consistently lower herbivore load in a cross-Atlantic tree biodiversity experiment

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

UN SDGs

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