The impact of fungi on soil protist communities in European cereal croplands

Florine Degrune; Kenneth Dumack; Masahiro Ryo; Gina Garland; Sana Romdhane; Aurélien Saghaï; Samiran Banerjee; Anna Edlinger; Chantal Herzog; David S. Pescador; Pablo García-Palacios; Anna Maria Fiore-Donno; Michael Bonkowski; Sara Hallin; Marcel G.A. van der Heijden; Fernando T. Maestre; Laurent Philippot; Michael Glemnitz; Klaus Sieling; Matthias C. Rillig

doi:10.1111/1462-2920.16673

The impact of fungi on soil protist communities in European cereal croplands

Florine Degrune^*, Kenneth Dumack, Masahiro Ryo, Gina Garland, Sana Romdhane, Aurélien Saghaï, Samiran Banerjee, Anna Edlinger, Chantal Herzog, David S. Pescador, Pablo García-Palacios, Anna Maria Fiore-Donno, Michael Bonkowski, Sara Hallin, Marcel G.A. van der Heijden, Fernando T. Maestre, Laurent Philippot, Michael Glemnitz, Klaus Sieling, Matthias C. Rillig^*

^*Corresponding author for this work

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

1 Scopus citations

Abstract

Protists, a crucial part of the soil food web, are increasingly acknowledged as significant influencers of nutrient cycling and plant performance in farmlands. While topographical and climatic factors are often considered to drive microbial communities on a continental scale, higher trophic levels like heterotrophic protists also rely on their food sources. In this context, bacterivores have received more attention than fungivores. Our study explored the connection between the community composition of protists (specifically Rhizaria and Cercozoa) and fungi across 156 cereal fields in Europe, spanning a latitudinal gradient of 3000 km. We employed a machine-learning approach to measure the significance of fungal communities in comparison to bacterial communities, soil abiotic factors, and climate as determinants of the Cercozoa community composition. Our findings indicate that climatic variables and fungal communities are the primary drivers of cercozoan communities, accounting for 70% of their community composition. Structural equation modelling (SEM) unveiled indirect climatic effects on the cercozoan communities through a change in the composition of the fungal communities. Our data also imply that fungivory might be more prevalent among protists than generally believed. This study uncovers a hidden facet of the soil food web, suggesting that the benefits of microbial diversity could be more effectively integrated into sustainable agriculture practices.

Original language	English (US)
Article number	e16673
Journal	Environmental microbiology
Volume	26
Issue number	7
DOIs	https://doi.org/10.1111/1462-2920.16673
State	Published - Jul 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Environmental Microbiology published by John Wiley & Sons Ltd.

ASJC Scopus subject areas

Microbiology
Ecology, Evolution, Behavior and Systematics

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Degrune, F., Dumack, K., Ryo, M., Garland, G., Romdhane, S., Saghaï, A., Banerjee, S., Edlinger, A., Herzog, C., Pescador, D. S., García-Palacios, P., Fiore-Donno, A. M., Bonkowski, M., Hallin, S., van der Heijden, M. G. A., Maestre, F. T., Philippot, L., Glemnitz, M., Sieling, K., & Rillig, M. C. (2024). The impact of fungi on soil protist communities in European cereal croplands. Environmental microbiology, 26(7), Article e16673. https://doi.org/10.1111/1462-2920.16673

@article{60ddb3fa16fe4546ba25e6ed06ebaf05,

title = "The impact of fungi on soil protist communities in European cereal croplands",

abstract = "Protists, a crucial part of the soil food web, are increasingly acknowledged as significant influencers of nutrient cycling and plant performance in farmlands. While topographical and climatic factors are often considered to drive microbial communities on a continental scale, higher trophic levels like heterotrophic protists also rely on their food sources. In this context, bacterivores have received more attention than fungivores. Our study explored the connection between the community composition of protists (specifically Rhizaria and Cercozoa) and fungi across 156 cereal fields in Europe, spanning a latitudinal gradient of 3000 km. We employed a machine-learning approach to measure the significance of fungal communities in comparison to bacterial communities, soil abiotic factors, and climate as determinants of the Cercozoa community composition. Our findings indicate that climatic variables and fungal communities are the primary drivers of cercozoan communities, accounting for 70\% of their community composition. Structural equation modelling (SEM) unveiled indirect climatic effects on the cercozoan communities through a change in the composition of the fungal communities. Our data also imply that fungivory might be more prevalent among protists than generally believed. This study uncovers a hidden facet of the soil food web, suggesting that the benefits of microbial diversity could be more effectively integrated into sustainable agriculture practices.",

author = "Florine Degrune and Kenneth Dumack and Masahiro Ryo and Gina Garland and Sana Romdhane and Aur{\'e}lien Sagha{\"i} and Samiran Banerjee and Anna Edlinger and Chantal Herzog and Pescador, \{David S.\} and Pablo Garc{\'i}a-Palacios and Fiore-Donno, \{Anna Maria\} and Michael Bonkowski and Sara Hallin and \{van der Heijden\}, \{Marcel G.A.\} and Maestre, \{Fernando T.\} and Laurent Philippot and Michael Glemnitz and Klaus Sieling and Rillig, \{Matthias C.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Environmental Microbiology published by John Wiley \& Sons Ltd.",

year = "2024",

month = jul,

doi = "10.1111/1462-2920.16673",

language = "English (US)",

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Degrune, F, Dumack, K, Ryo, M, Garland, G, Romdhane, S, Saghaï, A, Banerjee, S, Edlinger, A, Herzog, C, Pescador, DS, García-Palacios, P, Fiore-Donno, AM, Bonkowski, M, Hallin, S, van der Heijden, MGA, Maestre, FT, Philippot, L, Glemnitz, M, Sieling, K & Rillig, MC 2024, 'The impact of fungi on soil protist communities in European cereal croplands', Environmental microbiology, vol. 26, no. 7, e16673. https://doi.org/10.1111/1462-2920.16673

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T1 - The impact of fungi on soil protist communities in European cereal croplands

AU - Degrune, Florine

AU - Dumack, Kenneth

AU - Ryo, Masahiro

AU - Garland, Gina

AU - Romdhane, Sana

AU - Saghaï, Aurélien

AU - Banerjee, Samiran

AU - Edlinger, Anna

AU - Herzog, Chantal

AU - Pescador, David S.

AU - García-Palacios, Pablo

AU - Fiore-Donno, Anna Maria

AU - Bonkowski, Michael

AU - Hallin, Sara

AU - van der Heijden, Marcel G.A.

AU - Maestre, Fernando T.

AU - Philippot, Laurent

AU - Glemnitz, Michael

AU - Sieling, Klaus

AU - Rillig, Matthias C.

PY - 2024/7

Y1 - 2024/7

N2 - Protists, a crucial part of the soil food web, are increasingly acknowledged as significant influencers of nutrient cycling and plant performance in farmlands. While topographical and climatic factors are often considered to drive microbial communities on a continental scale, higher trophic levels like heterotrophic protists also rely on their food sources. In this context, bacterivores have received more attention than fungivores. Our study explored the connection between the community composition of protists (specifically Rhizaria and Cercozoa) and fungi across 156 cereal fields in Europe, spanning a latitudinal gradient of 3000 km. We employed a machine-learning approach to measure the significance of fungal communities in comparison to bacterial communities, soil abiotic factors, and climate as determinants of the Cercozoa community composition. Our findings indicate that climatic variables and fungal communities are the primary drivers of cercozoan communities, accounting for 70% of their community composition. Structural equation modelling (SEM) unveiled indirect climatic effects on the cercozoan communities through a change in the composition of the fungal communities. Our data also imply that fungivory might be more prevalent among protists than generally believed. This study uncovers a hidden facet of the soil food web, suggesting that the benefits of microbial diversity could be more effectively integrated into sustainable agriculture practices.

AB - Protists, a crucial part of the soil food web, are increasingly acknowledged as significant influencers of nutrient cycling and plant performance in farmlands. While topographical and climatic factors are often considered to drive microbial communities on a continental scale, higher trophic levels like heterotrophic protists also rely on their food sources. In this context, bacterivores have received more attention than fungivores. Our study explored the connection between the community composition of protists (specifically Rhizaria and Cercozoa) and fungi across 156 cereal fields in Europe, spanning a latitudinal gradient of 3000 km. We employed a machine-learning approach to measure the significance of fungal communities in comparison to bacterial communities, soil abiotic factors, and climate as determinants of the Cercozoa community composition. Our findings indicate that climatic variables and fungal communities are the primary drivers of cercozoan communities, accounting for 70% of their community composition. Structural equation modelling (SEM) unveiled indirect climatic effects on the cercozoan communities through a change in the composition of the fungal communities. Our data also imply that fungivory might be more prevalent among protists than generally believed. This study uncovers a hidden facet of the soil food web, suggesting that the benefits of microbial diversity could be more effectively integrated into sustainable agriculture practices.

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DO - 10.1111/1462-2920.16673

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SN - 1462-2912

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JO - Environmental microbiology

JF - Environmental microbiology

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ER -

The impact of fungi on soil protist communities in European cereal croplands

Abstract

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