Plant geographic distribution influences chemical defenses in native and introduced Plantago lanceolata populations

Abstract Plants growing outside their native range may be confronted by new regimes of herbivory, but how this affects plant chemical defense profiles has rarely been studied. Using Plantago lanceolata as a model species, we investigated whether introduced populations show significant differences fr...

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Veröffentlicht in:	Functional ecology 2023-06
Hauptverfasser:	Medina-van Berkum, Pamela, Schmöckel, Eric, Bischoff, Armin, Carrasco-Farias, Natalia, Catford, Jane, Feldmann, Reinart, Groten, Karin, Henry, Hugh, Bucharova, Anna Lampei, Hänniger, Sabine, Luong, Justin, Meis, Julia, Oetama, Vincensius S.P., Pärtel, Meelis, Power, Sally, Villellas, Jesus, Welk, Erik, Wingler, Astrid, Rothe, Beate, Gershenzon, Jonathan, Reichelt, Michael, Roscher, Christiane, Unsicker, Sybille
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Schlagworte:	Environmental Sciences
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creator	Medina-van Berkum, Pamela Schmöckel, Eric Bischoff, Armin Carrasco-Farias, Natalia Catford, Jane Feldmann, Reinart Groten, Karin Henry, Hugh Bucharova, Anna Lampei Hänniger, Sabine Luong, Justin Meis, Julia Oetama, Vincensius S.P. Pärtel, Meelis Power, Sally Villellas, Jesus Welk, Erik Wingler, Astrid Rothe, Beate Gershenzon, Jonathan Reichelt, Michael Roscher, Christiane Unsicker, Sybille
description	Abstract Plants growing outside their native range may be confronted by new regimes of herbivory, but how this affects plant chemical defense profiles has rarely been studied. Using Plantago lanceolata as a model species, we investigated whether introduced populations show significant differences from native populations in several growth and chemical defense traits. Plantago lanceolata (ribwort plantain) is an herbaceous plant species native to Europe and Western Asia that has been introduced to numerous countries worldwide. We sampled seeds from nine native and ten introduced populations that covered a broad geographic and environmental range and performed a common garden experiment in a greenhouse, in which we infested half of the plants in each population with caterpillars of the generalist herbivore Spodoptera littoralis . We then measured size-related and resource-allocation traits as well as the levels of constitutive and induced chemical defense compounds in roots and shoots of P. lanceolata . When we considered the environmental characteristics of the site of origin, our results revealed that populations from introduced ranges were characterized by an increase of chemical defense compounds without compromising plant biomass. The concentrations of iridoid glycosides and verbascoside, the major anti-herbivore defense compounds of P. lanceolata , were higher in introduced populations than in native populations. In addition, introduced populations exhibited greater rates of herbivore-induced volatile organic compound emission and diversity, and similar chemical diversity based on untargeted analyses of leaf methanol extracts. In general, the geographic origin of the populations had a significant influence on morphological and chemical plant traits, suggesting that P. lanceolata populations are not only adapted to different environments in their native range, but also in their introduced range.
doi_str_mv	10.1101/2023.06.05.543708
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Using Plantago lanceolata as a model species, we investigated whether introduced populations show significant differences from native populations in several growth and chemical defense traits. Plantago lanceolata (ribwort plantain) is an herbaceous plant species native to Europe and Western Asia that has been introduced to numerous countries worldwide. We sampled seeds from nine native and ten introduced populations that covered a broad geographic and environmental range and performed a common garden experiment in a greenhouse, in which we infested half of the plants in each population with caterpillars of the generalist herbivore Spodoptera littoralis . We then measured size-related and resource-allocation traits as well as the levels of constitutive and induced chemical defense compounds in roots and shoots of P. lanceolata . When we considered the environmental characteristics of the site of origin, our results revealed that populations from introduced ranges were characterized by an increase of chemical defense compounds without compromising plant biomass. The concentrations of iridoid glycosides and verbascoside, the major anti-herbivore defense compounds of P. lanceolata , were higher in introduced populations than in native populations. In addition, introduced populations exhibited greater rates of herbivore-induced volatile organic compound emission and diversity, and similar chemical diversity based on untargeted analyses of leaf methanol extracts. 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When we considered the environmental characteristics of the site of origin, our results revealed that populations from introduced ranges were characterized by an increase of chemical defense compounds without compromising plant biomass. The concentrations of iridoid glycosides and verbascoside, the major anti-herbivore defense compounds of P. lanceolata , were higher in introduced populations than in native populations. In addition, introduced populations exhibited greater rates of herbivore-induced volatile organic compound emission and diversity, and similar chemical diversity based on untargeted analyses of leaf methanol extracts. 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title	Plant geographic distribution influences chemical defenses in native and introduced Plantago lanceolata populations
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