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The Revised Classification of Eukaryotes (vol 59, pg 429, 2012)

2013, Adl, Sina M., Simpson, Alastair G. B., Lane, Christopher E., Lukes, Julius, Bass, David, Bowser, Samuel S., Brown, Matthew W., Burki, Fabien, Dunthorn, Micah, Hampl, Vladimir, Heiss, Aaron, Hoppenrath, M., Lara, Enrique, le Gall, Line, Lynn, Denis H., McManus, Hilary, Mitchell, Edward, Mozley-Stanridge, Sharon E., Parfrey, Laura Wegener, Pawlowski, Jan, Rueckert, Sonja, Shadwick, Laura, Schoch, Conrad L., Smirnov, Alexey, Spiegel, Frederick W.

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Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests

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

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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CBOL Protist Working Group: Barcoding Eukaryotic Richness beyond the Animal, Plant, and Fungal Kingdoms

, Pawlowski, Jan, Audic, Stéphane, Adl, Sina, Bass, David, Belbahri, Lassaâd, Berney, Cédric, Bowser, Samuel S., Cepicka, Ivan, Decelle, Johan, Dunthorn, Micah, Fiore-Donno, Anna Maria, Gile, Gillian H., Holzmann, Maria, Jahn, Regine, Jirků, Miloslav, Keeling, Patrick J., Kostka, Martin, Kudryavtsev, Alexander, Lara, Enrique, Lukeš, Julius, Mann, David G., Mitchell, Edward, Nitsche, Frank, Romeralo, Maria, Saunders, Gary W., Simpson, Alastair G. B., Smirnov, Alexey V., Spouge, John L., Stern,Rowena F., Stoeck, Thorsten, Zimmermann, Jonas, Schindel, David, de Vargas, Colomban

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CBOL Protist Working Group: Barcoding Eukaryotic Richness beyond the Animal, Plant, and Fungal Kingdoms

2012, Pawlowski, Jan, Audic, Stephane, Adl, Sina M., Bass, David, Belbahri, Lassaâd, Berney, Cedric, Bowser, Samuel S., Cepicka, Ivan, Decelle, Johan, Dunthorn, Micah, Fiore-Donno, Anna Maria, Gile, Gillian H., Holzmann, Maria, Jahn, Regine, Jirku, Miloslav, Keeling, Patrick J., Kostka, Martin, Kudryavtsev, Alexander, Lara, Enrique, Lukes, Julius, Mann, David G., Mitchell, Edward, Nitsche, Frank, Romeralo, Maria, Saunders, Gary W., Simpson, Alastair G. B., Smirnov, Alexey V., Spouge, John L., Stern, Rowena F., Stoeck, Thorsten, Zimmermann, Jonas, Schindel, David, de Vargas, Colomban

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Soil protistology rebooted: 30 fundamental questions to start with

, Geisen, Stefan, Mitchell, Edward, Wilkinson, David M, Adl, Sina, Bonkowski, Michael, Brown, Matthew W, Fiore-Donno, Anna Maria, Heger, Thierry, Jassey, Vincent E.J, Krashevska, Valentyna, Lahr, Daniel J.G, Marcisz, Katarzyna, Mulot, Matthieu, Payne, Richard, Singer, David, Anderson, Roger O, Charman, Dan J, Ekelund, Flemming, Griffiths, Bryan S, Rønn, Regin, Smirnov, Alexey, Bass, David, Belbahri, Lassaâd, Berney, Cédric, Blandenier, Quentin, Blandenier, Quentin, Chatzinotas, Antonis, Clarholm, Marianne, Dunthorn, Micah, Feest, Alan, Fernández, Leonardo D, Foissner, Wilhelm, Fournier, Bertrand, Gentekaki, Eleni, Hájek, Michal, Helder, Johannes, Jousset, Alexandre, Koller, Robert, Kumar, Santosh, La Terza, Antonietta, Lamentowicz, Mariusz, Mazei, Yuri, Santos, Susana S, Seppey, Christophe V.W, Spiegel, Frederick W, Walochnik, Julia, Winding, Anne, Lara, Enrique

Protists are the most diverse eukaryotes. These microbes are keystone organisms of soil ecosystems and regulate essential processes of soil fertility such as nutrient cycling and plant growth. Despite this, protists have received little scientific attention, especially compared to bacteria, fungi and nematodes in soil studies. Recent methodological advances, particularly in molecular biology techniques, have made the study of soil protists more accessible, and have created a resurgence of interest in soil protistology. This ongoing revolution now enables comprehensive investigations of the structure and functioning of soil protist communities, paving the way to a new era in soil biology. Instead of providing an exhaustive review, we provide a synthesis of research gaps that should be prioritized in future studies of soil protistology to guide this rapidly developing research area. Based on a synthesis of expert opinion we propose 30 key questions covering a broad range of topics including evolution, phylogenetics, functional ecology, macroecology, paleoecology, and methodologies. These questions highlight a diversity of topics that will establish soil protistology as a hub discipline connecting different fundamental and applied fields such as ecology, biogeography, evolution, plant-microbe interactions, agronomy, and conservation biology. We are convinced that soil protistology has the potential to be one of the most exciting frontiers in biology.

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The Revised Classification of Eukaryotes

2012, Adl, Sina M., Simpson, Alastair G. B., Lane, Christopher E., Lukes, Julius, Bass, David, Bowser, Samuel S., Brown, Matthew W., Burki, Fabien, Dunthorn, Micah, Hampl, Vladimir, Heiss, Aaron, Hoppenrath, Mona, Lara, Enrique, le Gall, Line, Lynn, Denis H., McManus, Hilary, Mitchell, Edward, Mozley-Stanridge, Sharon E., Parfrey, Laura Wegener, Pawlowski, Jan, Rueckert, Sonja, Shadwick, Laura, Schoch, Conrad L., Smirnov, Alexey, Spiegel, Frederick W.

This revision of the classification of eukaryotes, which updates that of Adl etal. [J. Eukaryot. Microbiol. 52 (2005) 399], retains an emphasis on the protists and incorporates changes since 2005 that have resolved nodes and branches in phylogenetic trees. Whereas the previous revision was successful in re-introducing name stability to the classification, this revision provides a classification for lineages that were then still unresolved. The supergroups have withstood phylogenetic hypothesis testing with some modifications, but despite some progress, problematic nodes at the base of the eukaryotic tree still remain to be statistically resolved. Looking forward, subsequent transformations to our understanding of the diversity of life will be from the discovery of novel lineages in previously under-sampled areas and from environmental genomic information.

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The Revised Classification of Eukaryotes

, Adl, Sina M., Simpson, Alastair G. B., Lane, Christopher E., Lukeš, Julius, Bass, David, Bowser, Samuel S., Brown, Matthew W., Burki, Fabien, Dunthorn, Micah, Hampl, Vladimir, Heiss, Aaron, Hoppenrath, Mona, Lara, Enrique, le Gall, Line, Lynn, Denis H., McManus, Hilary, Mitchell, Edward, Mozley-Stanridge, Sharon E., Parfrey, Laura W., Pawlowski, Jan, Rueckert, Sonja, Shadwick, Laura, Schoch, Conrad L., Smirnov, Alexey, Spiegel, Frederick W.

This revision of the classification of eukaryotes, which updates that of Adl et al. [J. Eukaryot. Microbiol. 52 (2005) 399], retains an emphasis on the protists and incorporates changes since 2005 that have resolved nodes and branches in phylogenetic trees. Whereas the previous revision was successful in re-introducing name stability to the classification, this revision provides a classification for lineages that were then still unresolved. The supergroups have withstood phylogenetic hypothesis testing with some modifications, but despite some progress, problematic nodes at the base of the eukaryotic tree still remain to be statistically resolved. Looking forward, subsequent transformations to our understanding of the diversity of life will be from the discovery of novel lineages in previously under-sampled areas and from environmental genomic information.