Dynamics and drivers of fungal communities in a multipartite ant-plant association

Veronica Barrajon-Santos; Maximilian Nepel; Bela Hausmann; Hermann Voglmayr; Dagmar Woebken; Veronika E Mayer

doi:10.1186/s12915-024-01897-y

Dynamics and drivers of fungal communities in a multipartite ant-plant association

Veronica Barrajon-Santos (Korresp. Autor*in), Maximilian Nepel, Bela Hausmann, Hermann Voglmayr, Dagmar Woebken, Veronika E Mayer (Korresp. Autor*in)

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

Fungi and ants belong to the most important organisms in terrestrial ecosystems on Earth. In nutrient-poor niches of tropical rainforests, they have developed steady ecological relationships as a successful survival strategy. In tropical ant-plant mutualisms worldwide, where resident ants provide the host plants with defense and nutrients in exchange for shelter and food, fungi are regularly found in the ant nesting space, inhabiting ant-made dark-colored piles (“patches”). Unlike the extensively investigated fungus-growing insects, where the fungi serve as the primary food source, the purpose of this ant-fungi association is less clear. To decipher the roles of fungi in these structures within ant nests, it is crucial to first understand the dynamics and drivers that influence fungal patch communities during ant colony development.

Originalsprache	Englisch
Aufsatznummer	112
Seitenumfang	15
Fachzeitschrift	BMC Biology
Jahrgang	22
Ausgabenummer	1
DOIs	https://doi.org/10.1186/s12915-024-01897-y
Publikationsstatus	Veröffentlicht - 2024

ÖFOS 2012

106026 Ökosystemforschung
106022 Mikrobiologie

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

Zugriff auf Dokument

10.1186/s12915-024-01897-yLizenz: CC BY 4.0

https://phaidra.univie.ac.at/o:2068472Lizenz: CC BY 4.0

Andere Dateien und Links

Verknüpfung zur Publikation in Scopus

Nährstoff-Recycling in Pilzgärten baumlebender Ameisen
Mayer, V.
1/02/19 → 31/01/23
Projekt: Forschungsförderung

Zitationsweisen

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title = "Dynamics and drivers of fungal communities in a multipartite ant-plant association",

abstract = "Background: Fungi and ants belong to the most important organisms in terrestrial ecosystems on Earth. In nutrient-poor niches of tropical rainforests, they have developed steady ecological relationships as a successful survival strategy. In tropical ant-plant mutualisms worldwide, where resident ants provide the host plants with defense and nutrients in exchange for shelter and food, fungi are regularly found in the ant nesting space, inhabiting ant-made dark-colored piles (“patches”). Unlike the extensively investigated fungus-growing insects, where the fungi serve as the primary food source, the purpose of this ant-fungi association is less clear. To decipher the roles of fungi in these structures within ant nests, it is crucial to first understand the dynamics and drivers that influence fungal patch communities during ant colony development. Results: In this study, we investigated how the ant colony age and the ant-plant species affect the fungal community in the patches. As model we selected one of the most common mutualisms in the Tropics of America, the Azteca-Cecropia complex. By amplicon sequencing of the internal transcribed spacer 2 (ITS2) region, we analyzed the patch fungal communities of 93 Azteca spp. colonies inhabiting Cecropia spp. trees. Our study demonstrates that the fungal diversity in patches increases as the ant colony grows and that a change in the prevalent fungal taxa occurs between initial and established patches. In addition, the ant species significantly influences the composition of the fungal community in established ant colonies, rather than the host plant species. Conclusions: The fungal patch communities become more complex as the ant colony develops, due to an acquisition of fungi from the environment and a substrate diversification. Our results suggest a successional progression of the fungal communities in the patches during ant colony growth and place the ant colony as the main driver shaping such communities. The findings of this study demonstrate the unexpectedly complex nature of ant-plant mutualisms in tropical regions at a micro scale.",

keywords = "ant-plant mutualism, fungal communities, Azteca, Cecropia, Insect-fungus interactions, Tropical ecosystems, community dynamics, ant-made patches, Fungal communities, Community dynamics, Ant-made patches, Ant-plant mutualism",

author = "Veronica Barrajon-Santos and Maximilian Nepel and Bela Hausmann and Hermann Voglmayr and Dagmar Woebken and Mayer, {Veronika E}",

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doi = "10.1186/s12915-024-01897-y",

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journal = "BMC Biology",

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T1 - Dynamics and drivers of fungal communities in a multipartite ant-plant association

AU - Barrajon-Santos, Veronica

AU - Nepel, Maximilian

AU - Hausmann, Bela

AU - Voglmayr, Hermann

AU - Woebken, Dagmar

AU - Mayer, Veronika E

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024

Y1 - 2024

N2 - Background: Fungi and ants belong to the most important organisms in terrestrial ecosystems on Earth. In nutrient-poor niches of tropical rainforests, they have developed steady ecological relationships as a successful survival strategy. In tropical ant-plant mutualisms worldwide, where resident ants provide the host plants with defense and nutrients in exchange for shelter and food, fungi are regularly found in the ant nesting space, inhabiting ant-made dark-colored piles (“patches”). Unlike the extensively investigated fungus-growing insects, where the fungi serve as the primary food source, the purpose of this ant-fungi association is less clear. To decipher the roles of fungi in these structures within ant nests, it is crucial to first understand the dynamics and drivers that influence fungal patch communities during ant colony development. Results: In this study, we investigated how the ant colony age and the ant-plant species affect the fungal community in the patches. As model we selected one of the most common mutualisms in the Tropics of America, the Azteca-Cecropia complex. By amplicon sequencing of the internal transcribed spacer 2 (ITS2) region, we analyzed the patch fungal communities of 93 Azteca spp. colonies inhabiting Cecropia spp. trees. Our study demonstrates that the fungal diversity in patches increases as the ant colony grows and that a change in the prevalent fungal taxa occurs between initial and established patches. In addition, the ant species significantly influences the composition of the fungal community in established ant colonies, rather than the host plant species. Conclusions: The fungal patch communities become more complex as the ant colony develops, due to an acquisition of fungi from the environment and a substrate diversification. Our results suggest a successional progression of the fungal communities in the patches during ant colony growth and place the ant colony as the main driver shaping such communities. The findings of this study demonstrate the unexpectedly complex nature of ant-plant mutualisms in tropical regions at a micro scale.

AB - Background: Fungi and ants belong to the most important organisms in terrestrial ecosystems on Earth. In nutrient-poor niches of tropical rainforests, they have developed steady ecological relationships as a successful survival strategy. In tropical ant-plant mutualisms worldwide, where resident ants provide the host plants with defense and nutrients in exchange for shelter and food, fungi are regularly found in the ant nesting space, inhabiting ant-made dark-colored piles (“patches”). Unlike the extensively investigated fungus-growing insects, where the fungi serve as the primary food source, the purpose of this ant-fungi association is less clear. To decipher the roles of fungi in these structures within ant nests, it is crucial to first understand the dynamics and drivers that influence fungal patch communities during ant colony development. Results: In this study, we investigated how the ant colony age and the ant-plant species affect the fungal community in the patches. As model we selected one of the most common mutualisms in the Tropics of America, the Azteca-Cecropia complex. By amplicon sequencing of the internal transcribed spacer 2 (ITS2) region, we analyzed the patch fungal communities of 93 Azteca spp. colonies inhabiting Cecropia spp. trees. Our study demonstrates that the fungal diversity in patches increases as the ant colony grows and that a change in the prevalent fungal taxa occurs between initial and established patches. In addition, the ant species significantly influences the composition of the fungal community in established ant colonies, rather than the host plant species. Conclusions: The fungal patch communities become more complex as the ant colony develops, due to an acquisition of fungi from the environment and a substrate diversification. Our results suggest a successional progression of the fungal communities in the patches during ant colony growth and place the ant colony as the main driver shaping such communities. The findings of this study demonstrate the unexpectedly complex nature of ant-plant mutualisms in tropical regions at a micro scale.

KW - ant-plant mutualism

KW - fungal communities

KW - Azteca

KW - Cecropia

KW - Insect-fungus interactions

KW - Tropical ecosystems

KW - community dynamics

KW - ant-made patches

KW - Fungal communities

KW - Community dynamics

KW - Ant-made patches

KW - Ant-plant mutualism

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DO - 10.1186/s12915-024-01897-y

M3 - Article

C2 - 38745290

SN - 1741-7007

VL - 22

JO - BMC Biology

JF - BMC Biology

IS - 1

M1 - 112

ER -

Dynamics and drivers of fungal communities in a multipartite ant-plant association

Abstract

ÖFOS 2012

UN SDGs

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

Nährstoff-Recycling in Pilzgärten baumlebender Ameisen

Zitationsweisen