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2. The Evolution of Ecological Diversity in Acidobacteria

Author

Sikorski, Johannes, Baumgartner, Vanessa, Birkhofer, Klaus, Boeddinghaus, Runa S, Bunk, Boyke, Fischer, Markus; https://orcid.org/0000-0002-5589-5900, Fösel, Bärbel U, Friedrich, Michael W, Göker, Markus, Hölzel, Norbert, Huang, Sixing, Huber, Katharina J, Kandeler, Ellen, Klaus, Valentin H; https://orcid.org/0000-0002-7469-6800, Kleinebecker, Till; https://orcid.org/0000-0003-1121-2861, Marhan, Sven, von Mering, Christian; https://orcid.org/0000-0001-7734-9102, Oelmann, Yvonne; https://orcid.org/0000-0003-3513-6568, Prati, Daniel, Regan, Kathleen M, Richter-Heitmann, Tim, Rodrigues, João F Matias, Schmitt, Barbara, Schöning, Ingo, Schrumpf, Marion, Schurig, Elisabeth, Solly, Emily F; https://orcid.org/0000-0002-3157-1805, Wolters, Volkmar, Overmann, Jörg, Sikorski, Johannes, Baumgartner, Vanessa, Birkhofer, Klaus, Boeddinghaus, Runa S, Bunk, Boyke, Fischer, Markus; https://orcid.org/0000-0002-5589-5900, Fösel, Bärbel U, Friedrich, Michael W, Göker, Markus, Hölzel, Norbert, Huang, Sixing, Huber, Katharina J, Kandeler, Ellen, Klaus, Valentin H; https://orcid.org/0000-0002-7469-6800, Kleinebecker, Till; https://orcid.org/0000-0003-1121-2861, Marhan, Sven, von Mering, Christian; https://orcid.org/0000-0001-7734-9102, Oelmann, Yvonne; https://orcid.org/0000-0003-3513-6568, Prati, Daniel, Regan, Kathleen M, Richter-Heitmann, Tim, Rodrigues, João F Matias, Schmitt, Barbara, Schöning, Ingo, Schrumpf, Marion, Schurig, Elisabeth, Solly, Emily F; https://orcid.org/0000-0002-3157-1805, Wolters, Volkmar, and Overmann, Jörg

Abstract

Acidobacteria occur in a large variety of ecosystems worldwide and are particularly abundant and highly diverse in soils. In spite of their diversity, only few species have been characterized to date which makes Acidobacteria one of the most poorly understood phyla among the domain Bacteria. We used a culture-independent niche modeling approach to elucidate ecological adaptations and their evolution for 4,154 operational taxonomic units (OTUs) of Acidobacteria across 150 different, comprehensively characterized grassland soils in Germany. Using the relative abundances of their 16S rRNA gene transcripts, the responses of active OTUs along gradients of 41 environmental variables were modeled using hierarchical logistic regression (HOF), which allowed to determine values for optimum activity for each variable (niche optima). By linking 16S rRNA transcripts to the phylogeny of full 16S rRNA gene sequences, we could trace the evolution of the different ecological adaptations during the diversification of Acidobacteria. This approach revealed a pronounced ecological diversification even among acidobacterial sister clades. Although the evolution of habitat adaptation was mainly cladogenic, it was disrupted by recurrent events of convergent evolution that resulted in frequent habitat switching within individual clades. Our findings indicate that the high diversity of soil acidobacterial communities is largely sustained by differential habitat adaptation even at the level of closely related species. A comparison of niche optima of individual OTUs with the phenotypic properties of their cultivated representatives showed that our niche modeling approach (1) correctly predicts those physiological properties that have been determined for cultivated species of Acidobacteria but (2) also provides ample information on ecological adaptations that cannot be inferred from standard taxonomic descriptions of bacterial isolates. These novel information on specific adaptations of not-yet

Published
2022

3. The Evolution of Ecological Diversity in Acidobacteria

Author

Sikorski, Johannes, primary, Baumgartner, Vanessa, additional, Birkhofer, Klaus, additional, Boeddinghaus, Runa S., additional, Bunk, Boyke, additional, Fischer, Markus, additional, Fösel, Bärbel U., additional, Friedrich, Michael W., additional, Göker, Markus, additional, Hölzel, Norbert, additional, Huang, Sixing, additional, Huber, Katharina J., additional, Kandeler, Ellen, additional, Klaus, Valentin H., additional, Kleinebecker, Till, additional, Marhan, Sven, additional, von Mering, Christian, additional, Oelmann, Yvonne, additional, Prati, Daniel, additional, Regan, Kathleen M., additional, Richter-Heitmann, Tim, additional, Rodrigues, João F. Matias, additional, Schmitt, Barbara, additional, Schöning, Ingo, additional, Schrumpf, Marion, additional, Schurig, Elisabeth, additional, Solly, Emily F., additional, Wolters, Volkmar, additional, and Overmann, Jörg, additional

Published
2022
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4. Degradation of biological macromolecules supports uncultured microbial populations in Guaymas Basin hydrothermal sediments

Author

Pérez Castro, Sherlynette, Borton, Mikayla A., Regan, Kathleen M., Hrabe de Angelis, Isabella, Wrighton, Kelly C., Teske, Andreas P., Strous, Marc, Ruff, S. Emil, Pérez Castro, Sherlynette, Borton, Mikayla A., Regan, Kathleen M., Hrabe de Angelis, Isabella, Wrighton, Kelly C., Teske, Andreas P., Strous, Marc, and Ruff, S. Emil

Abstract

© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Castro, S. P., Borton, M. A., Regan, K., de Angelis, I. H., Wrighton, K. C., Teske, A. P., Strous, M., & Ruff, S. E. Degradation of biological macromolecules supports uncultured microbial populations in Guaymas Basin hydrothermal sediments. Isme Journal. (2021), https://doi.org/10.1038/s41396-021-01026-5., Hydrothermal sediments contain large numbers of uncultured heterotrophic microbial lineages. Here, we amended Guaymas Basin sediments with proteins, polysaccharides, nucleic acids or lipids under different redox conditions and cultivated heterotrophic thermophiles with the genomic potential for macromolecule degradation. We reconstructed 20 metagenome-assembled genomes (MAGs) of uncultured lineages affiliating with known archaeal and bacterial phyla, including endospore-forming Bacilli and candidate phylum Marinisomatota. One Marinisomatota MAG had 35 different glycoside hydrolases often in multiple copies, seven extracellular CAZymes, six polysaccharide lyases, and multiple sugar transporters. This population has the potential to degrade a broad spectrum of polysaccharides including chitin, cellulose, pectin, alginate, chondroitin, and carrageenan. We also describe thermophiles affiliating with the genera Thermosyntropha, Thermovirga, and Kosmotoga with the capability to make a living on nucleic acids, lipids, or multiple macromolecule classes, respectively. Several populations seemed to lack extracellular enzyme machinery and thus likely scavenged oligo- or monomers (e.g., MAGs affiliating with Archaeoglobus) or metabolic products like hydrogen (e.g., MAGs affiliating with Thermodesulfobacterium or Desulforudaceae). The growth of methanogens or the production of methane was not observed in any condition, indicating that the tested macromolecules are not degraded into substrates for methanogenesis in hydrothermal sediments. We provide new insights into the niches, and genomes of microorganisms that actively degrade abundant necromass macromolecules under oxic, sulfate-reducing, and fermentative thermophilic conditions. These findings improve our understanding of the carbon flow across trophic levels and indicate how primary produced biomass sustains complex and productive ecosystems., We are grateful to the captain and crew of the R/V Atlantis AT37-06 as well as the crew of the human occupied vehicle Alvin for their tireless support. Sampling at Guaymas Basin was supported by NSF (OCE-1357238).

Published
2021

5. Stochastic Dispersal Rather Than Deterministic Selection Explains the Spatio-Temporal Distribution of Soil Bacteria in a Temperate Grassland

Author

Richter-Heitmann, Tim, Hofner, Benjamin, Krah, Franz-Sebastian, Sikorski, Johannes, Wüst, Pia K., Bunk, Boyke, Huang, Sixing, Regan, Kathleen M., Berner, Doreen, Boeddinghaus, Runa S., Marhan, Sven, Prati, Daniel, Kandeler, Ellen, Overmann, Jörg, and Friedrich, Michael W.

Subjects
Medizinische Fakultät, ddc:570, ddc:610, 580 Plants (Botany)
Abstract

Spatial and temporal processes shaping microbial communities are inseparably linked but rarely studied together. By Illumina 16S rRNA sequencing, we monitored soil bacteria in 360 stations on a 100 square meter plot distributed across six intra-annual samplings in a rarely managed, temperate grassland. Using a multi-tiered approach, we tested the extent to which stochastic or deterministic processes influenced the composition of local communities. A combination of phylogenetic turnover analysis and null modeling demonstrated that either homogenization by unlimited stochastic dispersal or scenarios, in which neither stochastic processes nor deterministic forces dominated, explained local assembly processes. Thus, the majority of all sampled communities (82%) was rather homogeneous with no significant changes in abundance-weighted composition. However, we detected strong and uniform taxonomic shifts within just nine samples in early summer. Thus, community snapshots sampled from single points in time or space do not necessarily reflect a representative community state. The potential for change despite the overall homogeneity was further demonstrated when the focus shifted to the rare biosphere. Rare OTU turnover, rather than nestedness, characterized abundance-independent β-diversity. Accordingly, boosted generalized additive models encompassing spatial, temporal and environmental variables revealed strong and highly diverse effects of space on OTU abundance, even within the same genus. This pure spatial effect increased with decreasing OTU abundance and frequency, whereas soil moisture – the most important environmental variable – had an opposite effect by impacting abundant OTUs more than the rare ones. These results indicate that – despite considerable oscillation in space and time – the abundant and resident OTUs provide a community backbone that supports much higher β-diversity of a dynamic rare biosphere. Our findings reveal complex interactions among space, time, and environmental filters within bacterial communities in a long-established temperate grassland.

Published
2020

6. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot

Author

Goldmann, Kezia, Boeddinghaus, Runa S., Klemmer, Sandra, Regan, Kathleen M., Heintz‐Buschart, Anna, Fischer, Markus, Prati, Daniel, Piepho, Hans‐Peter, Berner, Doreen, Marhan, Sven, Kandeler, Ellen, Buscot, François, Wubet, Tesfaye, Goldmann, Kezia, Boeddinghaus, Runa S., Klemmer, Sandra, Regan, Kathleen M., Heintz‐Buschart, Anna, Fischer, Markus, Prati, Daniel, Piepho, Hans‐Peter, Berner, Doreen, Marhan, Sven, Kandeler, Ellen, Buscot, François, and Wubet, Tesfaye

Abstract

© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Goldmann, K., Boeddinghaus, R. S., Klemmer, S., Regan, K. M., Heintz-Buschart, A., Fischer, M., Prati, D., Piepho, H., Berner, D., Marhan, S., Kandeler, E., Buscot, F., & Wubet, T. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot. Environmental Microbiology, 22(3),(2020): 873-888, doi:10.1111/1462-2920.14653., Soils provide a heterogeneous environment varying in space and time; consequently, the biodiversity of soil microorganisms also differs spatially and temporally. For soil microbes tightly associated with plant roots, such as arbuscular mycorrhizal fungi (AMF), the diversity of plant partners and seasonal variability in trophic exchanges between the symbionts introduce additional heterogeneity. To clarify the impact of such heterogeneity, we investigated spatiotemporal variation in AMF diversity on a plot scale (10 × 10 m) in a grassland managed at low intensity in southwest Germany. AMF diversity was determined using 18S rDNA pyrosequencing analysis of 360 soil samples taken at six time points within a year. We observed high AMF alpha‐ and beta‐diversity across the plot and at all investigated time points. Relationships were detected between spatiotemporal variation in AMF OTU richness and plant species richness, root biomass, minimal changes in soil texture and pH. The plot was characterized by high AMF turnover rates with a positive spatiotemporal relationship for AMF beta‐diversity. However, environmental variables explained only ≈20% of the variation in AMF communities. This indicates that the observed spatiotemporal richness and community variability of AMF was largely independent of the abiotic environment, but related to plant properties and the cooccurring microbiome., We thank the managers of the three Exploratories, Kirsten Reichel‐Jung, Swen Renner, Katrin Hartwich, Sonja Gockel, Kerstin Wiesner, and Martin Gorke for their work in maintaining the plot and project infrastructure; Christiane Fischer and Simone Pfeiffer for giving support through the central office, Michael Owonibi and Andreas Ostrowski for managing the central data base, and Eduard Linsenmair, Dominik Hessenmöller, Jens Nieschulze, Ernst‐Detlef Schulze, Wolfgang W. Weisser and the late Elisabeth Kalko for their role in setting up the Biodiversity Exploratories project. The work has been funded by the DFG Priority Program 1374 ‘Infrastructure‐Biodiversity‐Exploratories’ (BU 941/22‐1, BU 941/22‐3, KA 1590/8‐2, KA 1590/8‐3). Field work permits were issued by the responsible state environmental office of Baden‐Württemberg (according to § 72 BbgNatSchG). Likewise, we kindly thank Beatrix Schnabel, Melanie Günther and Sigrid Härtling for 454 sequencing in Halle. AHB gratefully acknowledges the support of the German Centre for Integrative Biodiversity Research (iDiv) Halle‐Jena‐Leipzig funded by the German Research Foundation (FZT 118). Authors declare no conflict of interests.

Published
2020

7. Stochastic Dispersal Rather Than Deterministic Selection Explains the Spatio-Temporal Distribution of Soil Bacteria in a Temperate Grassland

Author

Richter-Heitmann, Tim, primary, Hofner, Benjamin, additional, Krah, Franz-Sebastian, additional, Sikorski, Johannes, additional, Wüst, Pia K., additional, Bunk, Boyke, additional, Huang, Sixing, additional, Regan, Kathleen M., additional, Berner, Doreen, additional, Boeddinghaus, Runa S., additional, Marhan, Sven, additional, Prati, Daniel, additional, Kandeler, Ellen, additional, Overmann, Jörg, additional, and Friedrich, Michael W., additional

Published
2020
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9. Functional traits and spatio-temporal structure of a major group of soil protists (Rhizaria: Cercozoa) in a temperate grassland.

Author

Fiore-Donno, Anna Maria, Richter-Heitmann, Tim, Degrune, Florine, Dumack, Kenneth, Regan, Kathleen M., Marhan, Sven, Boeddinghaus, Runa S., Rillig, Matthias C., Friedrich, Michael W., Kandeler, Ellen, Bonkowski, Michael, Fiore-Donno, Anna Maria, Richter-Heitmann, Tim, Degrune, Florine, Dumack, Kenneth, Regan, Kathleen M., Marhan, Sven, Boeddinghaus, Runa S., Rillig, Matthias C., Friedrich, Michael W., Kandeler, Ellen, and Bonkowski, Michael

Abstract

© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Fiore-Donno, A. M., Richter-Heitmann, T., Degrune, F., Dumack, K., Regan, K. M., Marhan, S., Boeddinghaus, R. S., Rillig, M. C., Friedrich, M. W., Kandeler, E., & Bonkowski, M. Functional traits and spatio-temporal structure of a major group of soil protists (Rhizaria: Cercozoa) in a temperate grassland. Frontiers in Microbiology, 10, (2019): 1332, doi:10.3389/fmicb.2019.01332., Soil protists are increasingly appreciated as essential components of soil foodwebs; however, there is a dearth of information on the factors structuring their communities. Here we investigate the importance of different biotic and abiotic factors as key drivers of spatial and seasonal distribution of protistan communities. We conducted an intensive survey of a 10 m2 grassland plot in Germany, focusing on a major group of protists, the Cercozoa. From 177 soil samples, collected from April to November, we obtained 694 Operational Taxonomy Units representing >6 million Illumina reads. All major cercozoan taxonomic and functional groups were present, dominated by the small flagellates of the Glissomonadida. We found evidence of environmental selection structuring the cercozoan communities both spatially and seasonally. Spatial analyses indicated that communities were correlated within a range of 3.5 m. Seasonal variations in the abundance of bacterivores and bacteria, followed by that of omnivores suggested a dynamic prey-predator succession. The most influential edaphic properties were moisture and clay content, which differentially affected each functional group. Our study is based on an intense sampling of protists at a small scale, thus providing a detailed description of the biodiversity of different taxa/functional groups and the ecological processes involved in shaping their distribution., This work was partly supported by the DFG Priority Program 1374 “Infrastructure-Biodiversity-Exploratories.” Funding to AMF-D and MB was provided by BO 1907/18-1; funding to EK, SM, KMR, and RSB was provided by KA 1590/8-2 and KA 1590/8-3; funding to FD and MCR was provided by the BiodivERsA grant “Digging Deeper.” We are grateful to the Swiss National Science Foundation Grant 316030 150817 for funding the MiSeq instrument at the University of Geneva (CH).

Published
2019

10. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot

Author

Goldmann, Kezia, primary, Boeddinghaus, Runa S., additional, Klemmer, Sandra, additional, Regan, Kathleen M., additional, Heintz‐Buschart, Anna, additional, Fischer, Markus, additional, Prati, Daniel, additional, Piepho, Hans‐Peter, additional, Berner, Doreen, additional, Marhan, Sven, additional, Kandeler, Ellen, additional, Buscot, François, additional, and Wubet, Tesfaye, additional

Published
2019
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11. Functional Traits and Spatio-Temporal Structure of a Major Group of Soil Protists (Rhizaria: Cercozoa) in a Temperate Grassland

Author

Fiore-Donno, Anna Maria, primary, Richter-Heitmann, Tim, additional, Degrune, Florine, additional, Dumack, Kenneth, additional, Regan, Kathleen M., additional, Marhan, Sven, additional, Boeddinghaus, Runa S., additional, Rillig, Matthias C., additional, Friedrich, Michael W., additional, Kandeler, Ellen, additional, and Bonkowski, Michael, additional

Published
2019
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12. Environmental selection and spatiotemporal structure of a major group of soil protists (Rhizaria: Cercozoa) in a temperate grassland

Author

Fiore-Donno, Anna Maria, primary, Richter-Heitmann, Tim, additional, Degrune, Florine, additional, Dumack, Kenneth, additional, Regan, Kathleen M., additional, Mahran, Sven, additional, Boeddinghaus, Runa S., additional, Rillig, Matthias C., additional, Friedrich, Michael W., additional, Kandeler, Ellen, additional, and Bonkowski, Michael, additional

Published
2019
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14. Spatial Interaction of Archaeal Ammonia-Oxidizers and Nitrite-Oxidizing Bacteria in an Unfertilized Grassland Soil

Author

Stempfhuber, Barbara, primary, Richter-Heitmann, Tim, additional, Regan, Kathleen M., additional, Kölbl, Angelika, additional, Wüst, Pia K., additional, Marhan, Sven, additional, Sikorski, Johannes, additional, Overmann, Jörg, additional, Friedrich, Michael W., additional, Kandeler, Ellen, additional, and Schloter, Michael, additional

Published
2016
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15. Corrigendum to “Seasonal controls on grassland microbial biogeography: are they governed by plants, abiotic properties or both?” [Soil Biology and Biochemistry 71 (April 2014), 21–30]

Author

Regan, Kathleen M., primary, Nunan, Naoise, additional, Boeddinghaus, Runa S., additional, Baumgartner, Vanessa, additional, Berner, Doreen, additional, Boch, Steffen, additional, Oelmann, Yvonne, additional, Overmann, Joerg, additional, Prati, Daniel, additional, Schloter, Michael, additional, Schmitt, Barbara, additional, Sorkau, Elisabeth, additional, Steffens, Markus, additional, Kandeler, Ellen, additional, and Marhan, Sven, additional

Published
2015
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16. Seasonal controls on grassland microbial biogeography: Are they governed by plants, abiotic properties or both?

Author

Regan, Kathleen M., primary, Nunan, Naoise, additional, Boeddinghaus, Runa S., additional, Baumgartner, Vanessa, additional, Berner, Doreen, additional, Boch, Steffen, additional, Oelmann, Yvonne, additional, Overmann, Joerg, additional, Prati, Daniel, additional, Schloter, Michael, additional, Schmitt, Barbara, additional, Sorkau, Elisabeth, additional, Steffens, Markus, additional, Kandeler, Ellen, additional, and Marhan, Sven, additional

Published
2014
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18. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot.

Author

Goldmann K, Boeddinghaus RS, Klemmer S, Regan KM, Heintz-Buschart A, Fischer M, Prati D, Piepho HP, Berner D, Marhan S, Kandeler E, Buscot F, and Wubet T

Subjects
Biomass, Germany, Mycorrhizae genetics, Plant Roots microbiology, Plants microbiology, RNA, Ribosomal, 18S genetics, Seasons, Soil chemistry, Biodiversity, Grassland, Mycorrhizae physiology, Soil Microbiology
Abstract

Soils provide a heterogeneous environment varying in space and time; consequently, the biodiversity of soil microorganisms also differs spatially and temporally. For soil microbes tightly associated with plant roots, such as arbuscular mycorrhizal fungi (AMF), the diversity of plant partners and seasonal variability in trophic exchanges between the symbionts introduce additional heterogeneity. To clarify the impact of such heterogeneity, we investigated spatiotemporal variation in AMF diversity on a plot scale (10 × 10 m) in a grassland managed at low intensity in southwest Germany. AMF diversity was determined using 18S rDNA pyrosequencing analysis of 360 soil samples taken at six time points within a year. We observed high AMF alpha- and beta-diversity across the plot and at all investigated time points. Relationships were detected between spatiotemporal variation in AMF OTU richness and plant species richness, root biomass, minimal changes in soil texture and pH. The plot was characterized by high AMF turnover rates with a positive spatiotemporal relationship for AMF beta-diversity. However, environmental variables explained only ≈20% of the variation in AMF communities. This indicates that the observed spatiotemporal richness and community variability of AMF was largely independent of the abiotic environment, but related to plant properties and the cooccurring microbiome., (© 2019 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2020
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19. Innovations: child & adolescent psychiatry: use of collaborative problem solving to reduce seclusion and restraint in child and adolescent inpatient units.

Author

Greene RW, Ablon JS, Hassuk B, Regan KM, and Martin A

Subjects
Adolescent, Aggression psychology, Behavioral Symptoms psychology, Child, Cooperative Behavior, Humans, Patient Isolation statistics & numerical data, Patient Isolation trends, Problem Solving, Restraint, Physical standards, Restraint, Physical statistics & numerical data, Violence prevention & control, Behavioral Symptoms prevention & control, Cognitive Behavioral Therapy methods, Hospitalization, Mental Disorders psychology, Mental Disorders therapy
Abstract

The authors describe "collaborative problem solving," a cognitive-behavioral approach for working with aggressive children and adolescents. The model conceptualizes aggressive behavior as the byproduct of lagging cognitive skills in the domains of flexibility, frustration tolerance, and problem solving. The goal is to train staff to assess specific cognitive skills that may be contributing to challenging behavior and to teach children new skills through collaborative problem solving. The authors present results from an inpatient unit that dramatically reduced rates of seclusion and restraint.

Published
2006
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