Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests

Frédéric Mahé; Colomban De Vargas; David Bass; Lucas Czech; Alexandros Stamatakis; Enrique Lara; David Singer; Jordan Mayor; John Bunge; Sarah Sernaker; Tobias Siemensmeyer; Isabelle Trautmann; Sarah Romac; Cédric Berney; Alexey Kozlov; Edward A.D. Mitchell; Christophe V.W. Seppey; Elianne Egge; Guillaume Lentendu; Rainer Wirth; Gabriel Trueba; Micah Dunthorn

doi:10.1038/s41559-017-0091

Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests

Frédéric Mahé, Colomban De Vargas, David Bass, Lucas Czech, Alexandros Stamatakis, Enrique Lara, David Singer, Jordan Mayor, John Bunge, Sarah Sernaker, Tobias Siemensmeyer, Isabelle Trautmann, Sarah Romac, Cédric Berney, Alexey Kozlov, Edward A.D. Mitchell, Christophe V.W. Seppey, Elianne Egge, Guillaume Lentendu, Rainer WirthGabriel Trueba, Micah Dunthorn

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Resumen

High animal and plant richness in tropical rainforest communities has long intrigued naturalists. It is unknown if similar hyperdiversity patterns are reflected at the microbial scale with unicellular eukaryotes (protists). Here we show, using environmental metabarcoding of soil samples and a phylogeny-aware cleaning step, that protist communities in Neotropical rainforests are hyperdiverse and dominated by the parasitic Apicomplexa, which infect arthropods and other animals. These host-specific parasites potentially contribute to the high animal diversity in the forests by reducing population growth in a density-dependent manner. By contrast, too few operational taxonomic units (OTUs) of Oomycota were found to broadly drive high tropical tree diversity in a host-specific manner under the Janzen-Connell model. Extremely high OTU diversity and high heterogeneity between samples within the same forests suggest that protists, not arthropods, are the most diverse eukaryotes in tropical rainforests. Our data show that protists play a large role in tropical terrestrial ecosystems long viewed as being dominated by macroorganisms.

Idioma original	Inglés
Número de artículo	0091
Publicación	Nature Ecology and Evolution
Volumen	1
N.º	4
DOI	https://doi.org/10.1038/s41559-017-0091
Estado	Publicada - 20 mar. 2017

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Mahé, F., De Vargas, C., Bass, D., Czech, L., Stamatakis, A., Lara, E., Singer, D., Mayor, J., Bunge, J., Sernaker, S., Siemensmeyer, T., Trautmann, I., Romac, S., Berney, C., Kozlov, A., Mitchell, E. A. D., Seppey, C. V. W., Egge, E., Lentendu, G., ... Dunthorn, M. (2017). Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests. Nature Ecology and Evolution, 1(4), Artículo 0091. https://doi.org/10.1038/s41559-017-0091

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title = "Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests",

abstract = "High animal and plant richness in tropical rainforest communities has long intrigued naturalists. It is unknown if similar hyperdiversity patterns are reflected at the microbial scale with unicellular eukaryotes (protists). Here we show, using environmental metabarcoding of soil samples and a phylogeny-aware cleaning step, that protist communities in Neotropical rainforests are hyperdiverse and dominated by the parasitic Apicomplexa, which infect arthropods and other animals. These host-specific parasites potentially contribute to the high animal diversity in the forests by reducing population growth in a density-dependent manner. By contrast, too few operational taxonomic units (OTUs) of Oomycota were found to broadly drive high tropical tree diversity in a host-specific manner under the Janzen-Connell model. Extremely high OTU diversity and high heterogeneity between samples within the same forests suggest that protists, not arthropods, are the most diverse eukaryotes in tropical rainforests. Our data show that protists play a large role in tropical terrestrial ecosystems long viewed as being dominated by macroorganisms.",

author = "Fr{\'e}d{\'e}ric Mah{\'e} and {De Vargas}, Colomban and David Bass and Lucas Czech and Alexandros Stamatakis and Enrique Lara and David Singer and Jordan Mayor and John Bunge and Sarah Sernaker and Tobias Siemensmeyer and Isabelle Trautmann and Sarah Romac and C{\'e}dric Berney and Alexey Kozlov and Mitchell, {Edward A.D.} and Seppey, {Christophe V.W.} and Elianne Egge and Guillaume Lentendu and Rainer Wirth and Gabriel Trueba and Micah Dunthorn",

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Mahé, F, De Vargas, C, Bass, D, Czech, L, Stamatakis, A, Lara, E, Singer, D, Mayor, J, Bunge, J, Sernaker, S, Siemensmeyer, T, Trautmann, I, Romac, S, Berney, C, Kozlov, A, Mitchell, EAD, Seppey, CVW, Egge, E, Lentendu, G, Wirth, R, Trueba, G & Dunthorn, M 2017, 'Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests', Nature Ecology and Evolution, vol. 1, n.º 4, 0091. https://doi.org/10.1038/s41559-017-0091

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T1 - Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests

AU - Mahé, Frédéric

AU - De Vargas, Colomban

AU - Bass, David

AU - Czech, Lucas

AU - Stamatakis, Alexandros

AU - Lara, Enrique

AU - Singer, David

AU - Mayor, Jordan

AU - Bunge, John

AU - Sernaker, Sarah

AU - Siemensmeyer, Tobias

AU - Trautmann, Isabelle

AU - Romac, Sarah

AU - Berney, Cédric

AU - Kozlov, Alexey

AU - Mitchell, Edward A.D.

AU - Seppey, Christophe V.W.

AU - Egge, Elianne

AU - Lentendu, Guillaume

AU - Wirth, Rainer

AU - Trueba, Gabriel

AU - Dunthorn, Micah

PY - 2017/3/20

Y1 - 2017/3/20

N2 - High animal and plant richness in tropical rainforest communities has long intrigued naturalists. It is unknown if similar hyperdiversity patterns are reflected at the microbial scale with unicellular eukaryotes (protists). Here we show, using environmental metabarcoding of soil samples and a phylogeny-aware cleaning step, that protist communities in Neotropical rainforests are hyperdiverse and dominated by the parasitic Apicomplexa, which infect arthropods and other animals. These host-specific parasites potentially contribute to the high animal diversity in the forests by reducing population growth in a density-dependent manner. By contrast, too few operational taxonomic units (OTUs) of Oomycota were found to broadly drive high tropical tree diversity in a host-specific manner under the Janzen-Connell model. Extremely high OTU diversity and high heterogeneity between samples within the same forests suggest that protists, not arthropods, are the most diverse eukaryotes in tropical rainforests. Our data show that protists play a large role in tropical terrestrial ecosystems long viewed as being dominated by macroorganisms.

AB - High animal and plant richness in tropical rainforest communities has long intrigued naturalists. It is unknown if similar hyperdiversity patterns are reflected at the microbial scale with unicellular eukaryotes (protists). Here we show, using environmental metabarcoding of soil samples and a phylogeny-aware cleaning step, that protist communities in Neotropical rainforests are hyperdiverse and dominated by the parasitic Apicomplexa, which infect arthropods and other animals. These host-specific parasites potentially contribute to the high animal diversity in the forests by reducing population growth in a density-dependent manner. By contrast, too few operational taxonomic units (OTUs) of Oomycota were found to broadly drive high tropical tree diversity in a host-specific manner under the Janzen-Connell model. Extremely high OTU diversity and high heterogeneity between samples within the same forests suggest that protists, not arthropods, are the most diverse eukaryotes in tropical rainforests. Our data show that protists play a large role in tropical terrestrial ecosystems long viewed as being dominated by macroorganisms.

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U2 - 10.1038/s41559-017-0091

DO - 10.1038/s41559-017-0091

M3 - Artículo

C2 - 28812652

AN - SCOPUS:85017566076

SN - 2397-334X

VL - 1

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

IS - 4

M1 - 0091

ER -

Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests

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