Your search keyword '"Silke Langenheder"' showing total 51 results

1. Infection strategies of different chytrids in a diatom spring bloom

Author

Ingrid Sassenhagen, Silke Langenheder, and Eva S. Lindström

Subjects

Aquatic Science

Published

2023

2. Carbon dioxide reduction by photosynthesis undetectable even during phytoplankton blooms in two lakes

Author

Karla Münzner, Silke Langenheder, Gesa A. Weyhenmeyer, Bianka Csitári, and Eva S. Lindström

Abstract

Lakes located in the boreal region are generally supersaturated with carbon dioxide (CO2), which emerges from inflowing inorganic carbon from the surrounding watershed and from mineralization of allochthonous organic carbon. While these CO2 sources gained a lot of attention, processes that reduce the amount of CO2 have been less studied. We therefore examined the CO2 reduction capacity during times of phytoplankton blooms. We investigated partial pressure of CO2 (pCO2) at times of blooms dominated by cyanobacteria (lake Erken, Sweden) or dominated by the nuisance alga Gonyostomum semen (lake Erssjön, Sweden) during two years. Our results showed that pCO2 and phytoplankton densities remained unrelated in the two lakes even during blooms. We suggest that physical factors, such as wind-induced water column mixing and import of inorganic carbon via inflowing waters suppressed the phytoplankton signal on pCO2. These results advance our understanding of carbon cycling in lakes and highlight the importance of detailed lake studies for more precise estimates of local, regional and global carbon budgets.

Published

2022

3. Warming mediates the resistance of aquatic bacteria to invasion during community coalescence

Author

Máté Vass, Eva S. Lindström, Silke Langenheder, Anna J. Székely, and Omneya Ahmed Osman

Subjects

0106 biological sciences, 0301 basic medicine, warming, Population level, Biology, 010603 evolutionary biology, 01 natural sciences, Persistence (computer science), Aquatic organisms, 03 medical and health sciences, RNA, Ribosomal, 16S, Genetics, mixing, dispersal, Relative species abundance, Ecosystem, Ecology, Evolution, Behavior and Systematics, Ekologi, Bacteria, Ecology, Resistance (ecology), Community structure, invasion, 030104 developmental biology, 16s rrna gene sequencing, Biological dispersal, immigration

Abstract

The immigration history of communities can profoundly affect community composition. For instance, early‐arriving species can have a lasting effect on community structure by reducing the invasion success of late‐arriving ones through priority effects. This can be particularly important when early‐arriving communities coalesce with another community during dispersal (mixing) events. However, the outcome of such community coalescence is unknown as we lack knowledge on how different factors influence the persistence of early‐arriving communities and the invasion success of late‐arriving taxa. Therefore, we implemented a full‐factorial experiment with aquatic bacteria where temperature and dispersal rate of a better adapted community were manipulated to test their joint effects on the resistance of early‐arriving communities to invasion, both at community and population level. Our 16S rRNA gene sequencing‐based results showed that invasion success of better adapted late‐arriving bacteria equaled or even exceeded what we expected based on the dispersal ratios of the recipient and invading communities suggesting limited priority effects on the community level. Patterns detected at the population level, however, showed that resistance of aquatic bacteria to invasion might be strengthened by warming as higher temperatures (a) increased the sum of relative abundances of persistent bacteria in the recipient communities, and (b) restricted the total relative abundance of successfully established late‐arriving bacteria. Warming‐enhanced resistance, however, was not always found and its strengths differed between recipient communities and dispersal rates. Nevertheless, our findings highlight the potential role of warming in mitigating the effects of invasion at the population level. Title in thesis list of papers: Warming-enhanced priority effects at population and community levels in aquatic bacteria

Published

2021

4. Ecosystem size-induced environmental fluctuations affect the temporal dynamics of community assembly mechanisms

Author

Raven L. Bier, Máté Vass, Anna J. Székely, and Silke Langenheder

Subjects

Ecology, Microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

Understanding processes that determine community membership and abundance is important for many fields from theoretical community ecology to conservation. However, spatial community studies are often conducted only at a single timepoint despite the known influence of temporal variability on community assembly processes. Here we used a spatiotemporal study to determine how environmental fluctuation differences induced by mesocosm volumes (larger volumes were more stable) influence assembly processes of aquatic bacterial metacommunities along a press disturbance gradient. By combining path analysis and network approaches, we found mesocosm size categories had distinct relative influences of assembly process and environmental factors that determined spatiotemporal bacterial community composition, including dispersal and species sorting by conductivity. These processes depended on, but were not affected proportionately by, mesocosm size. Low fluctuation, large mesocosms primarily developed through the interplay of species sorting that became more important over time and transient priority effects as evidenced by more time-delayed associations. High fluctuation, small mesocosms had regular disruptions to species sorting and greater importance of ecological drift and dispersal limitation indicated by lower richness and higher taxa replacement. Together, these results emphasize that environmental fluctuations influence ecosystems over time and its impacts are modified by biotic properties intrinsic to ecosystem size.

Published

2022

5. Ecosystem size-induced environmental fluctuations affect the temporal dynamics of community assembly mechanisms

Author

Raven L, Bier, Máté, Vass, Anna J, Székely, and Silke, Langenheder

Subjects

Bacteria, Ecosystem

Abstract

Understanding processes that determine community membership and abundance is important for many fields from theoretical community ecology to conservation. However, spatial community studies are often conducted only at a single timepoint despite the known influence of temporal variability on community assembly processes. Here we used a spatiotemporal study to determine how environmental fluctuation differences induced by mesocosm volumes (larger volumes were more stable) influence assembly processes of aquatic bacterial metacommunities along a press disturbance gradient. By combining path analysis and network approaches, we found mesocosm size categories had distinct relative influences of assembly process and environmental factors that determined spatiotemporal bacterial community composition, including dispersal and species sorting by conductivity. These processes depended on, but were not affected proportionately by, mesocosm size. Low fluctuation, large mesocosms primarily developed through the interplay of species sorting that became more important over time and transient priority effects as evidenced by more time-delayed associations. High fluctuation, small mesocosms had regular disruptions to species sorting and greater importance of ecological drift and dispersal limitation indicated by lower richness and higher taxa replacement. Together, these results emphasize that environmental fluctuations influence ecosystems over time and its impacts are modified by biotic properties intrinsic to ecosystem size.

Published

2021

6. Author response for 'Integrating multiple dimensions of ecological stability into a vulnerability framework'

Author

Stefan Bertilsson, David G. Angeler, Egle Kelpsiene, Hjalmar Laudon, Peter Eklöv, Lars-Anders Hansson, Helmut Hillebrand, Maria Lundgren, Pablo Urrutia Cordero, Linda Parkefelt, Ian Donohue, Maren Striebel, and Silke Langenheder

Subjects

Ecological stability, business.industry, Computer science, Multiple time dimensions, Environmental resource management, Vulnerability, business

Published

2021

7. Disentangling metacommunity processes using multiple metrics in space and time

Author

Duarte S. Viana, Gascón S, Robert Ptacnik, Zsófia Horváth, Bram Vanschoenwinkel, Alienor Jeliazkov, De Meester L, Patrick L. Thompson, Silke Langenheder, Jonathan M. Chase, Laura Melissa Guzman, Maria Anton-Pardo, and Lemmens P

Subjects

Abiotic component, Metacommunity, Computer science, Ecology (disciplines), Community structure, Econometrics, Biological dispersal, Species evenness, Variation (game tree), Relative species abundance

Abstract

Metacommunity ecology has focused on using observational and analytical approaches to disentangle the role of critical assembly processes, such as dispersal limitation and environmental filtering. Many methods have been proposed for this purpose, most notably multivariate analyses of species abundance and its association with variation in spatial and environmental conditions. These approaches tend to focus on few emergent properties of metacommunities and have largely ignored temporal community dynamics. By doing so, these are limited in their ability to differentiate metacommunity dynamics. Here, we develop a Virtual ecologist’ approach to evaluate critical metacommunity assembly processes based on a number of summary statistics of community structure across space and time. Specifically, we first simulate metacommunities emphasizing three main processes that underlie metacommunity dynamics (density-independent responses to abiotic conditions, density-dependent biotic interactions, and dispersal). We then calculate a number of commonly used summary statistics of community structure in space and time, and use random forests to evaluate their utility for understanding the strength of these three processes. We found that: (i) time series are necessary to disentangle metacommunity processes, (ii) each of the three studied processes is distinguished with different descriptors, (iii) each summary statistic is differently sensitive to temporal and spatial sampling effort. Some of the most useful statistics include the coefficient of variation of abundances through time and metrics that incorporate variation in the relative abundances (evenness) of species. Surprisingly, we found that when we only used a single snapshot of community variation in space, the most commonly used approaches based on variation partitioning were largely uninformative regarding assembly processes, particularly, variation in dispersal. We conclude that a combination of methods and summary statistics will be necessary to understand the processes that underlie metacommunity assembly through space and time.

Published

2020

8. Factors influencing aquatic and terrestrial bacterial community assembly

Author

Eva S. Lindström and Silke Langenheder

Subjects

0303 health sciences, Bacteria, Ecological selection, 030306 microbiology, Ecology, Microbiota, Context (language use), Biodiversity, Environment, Biology, Models, Biological, Agricultural and Biological Sciences (miscellaneous), 03 medical and health sciences, Habitat, Productivity (ecology), Environmental Microbiology, Spatial ecology, Biological dispersal, Terrestrial ecosystem, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Trophic level

Abstract

During recent years, many studies have shown that different processes including drift, environmental selection and dispersal can be important for the assembly of bacterial communities in aquatic and terrestrial ecosystems. However, we lack a conceptual overview about the ecological context and factors that influence the relative importance of the different assembly mechanisms and determine their dynamics in time and space. Focusing on free-living, i.e., nonhost associated, bacterial communities, this minireview, therefore, summarizes and conceptualizes findings from empirical studies about how (i) environmental factors, such as environmental heterogeneity, disturbances, productivity and trophic interactions; (ii) connectivity and dispersal rates (iii) spatial scale, (iv) community properties and traits and (v) the use of taxonomic/phylogenetic or functional metrics influence the relative importance of different community assembly processes. We find that there is to-date little consistency among studies and suggest that future studies should now address how (i)-(v) differ between habitats and organisms and how this, in turn, influences the temporal and spatial-scale dependency of community assembly processes in microorganisms.

Published

2019

9. River biofilms adapted to anthropogenic disturbances are more resistant to WWTP inputs

Author

Anna M. Romaní, Núria Perujo, Silke Langenheder, and Anna Freixa

Subjects

0301 basic medicine, Pollution, Microbial respiration, media_common.quotation_subject, 030106 microbiology, 010501 environmental sciences, Biology, Wastewater, 01 natural sciences, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, Rivers, RNA, Ribosomal, 16S, Effluent, 0105 earth and related environmental sciences, media_common, Biomass (ecology), Ecology, Bacteria, Biofilm, Disturbance (ecology), Environmental chemistry, Biofilms, Sewage treatment, Water quality

Abstract

The sensitivity and spatial recovery of river sediment biofilms along 1 km after the input of two wastewater treatment plants (WWTPs) located in two river reaches with different degrees of anthropogenic influence were investigated. First, at the upper reach, we observed an inhibition of some microbial functions (microbial respiration and extracellular enzyme activities) and strong shifts in bacterial community composition (16S rRNA gene), whereas an increase in microbial biomass and activity and less pronounced effect on microbial diversity and community composition were seen at the lower reach. Second, at the lower reach we observed a quick spatial recovery (around 200 m downstream of the effluent) as most of the functions and community composition were similar to those from reference sites. On the other hand, bacterial community composition and water quality at the upper reach was still altered 1 km from the WWTP effluent. Our results indicate that biofilms in the upstream sites were more sensitive to the effect of WWTPs due to a lower degree of tolerance after a disturbance than communities located in more anthropogenically impacted sites.

Published

2020

10. Streamlined freshwater bacterioplanktonNanopelagicales(acI) and 'Ca. Fonsibacter' (LD12) thrive in functional cohorts

Author

Moritz Buck, Eva S. Lindström, Silke Langenheder, Sarahi L. Garcia, Stefan Bertilsson, and Rhiannon Mondav

Subjects

education.field_of_study, Habitat, Ecotype, Metagenomics, Abundance (ecology), Ecology, Population, Dominance (ecology), Bacterioplankton, Biology, education, Predation

Abstract

While fastidious microbes can be abundant and ubiquitous in their natural communities, many fail to grow axenically in laboratories due to auxotrophies or other dependencies. To overcome auxotrophies these microbes rely on their surrounding cohort. A cohort may consist of kin (ecotypes) or more distantly related organisms (community) with the cooperation being reciprocal or non-reciprocal, and expensive (Black Queen hypothesis) or costless (byproduct). These metabolic partnerships (whether at single species population or community level) enable dominance by and coexistence of these lineages in nature. Here we examine the relevance of these cooperation models to explain the abundance and ubiquity of the dominant fastidious bacterioplankton of a dimictic mesotrophic freshwater lake. Using both culture dependent (minimalist mixed cultures) and culture independent (SSU rRNA gene time series and environmental metagenomics) methods we independently identified the primary cohorts ofActinobacterialgenera “Ca. Planktophila” (acI-A) and “Ca. Nanopelagicus” (acI-B), and theProteobacterialgenus “Ca. Fonsibacter” (LD12). While “Ca. Planktophila” and “Ca. Fonsibacter” had no correlation in their natural habitat, they have the potential to be complementary in laboratory settings. We also investigated the bi-functional catalase-peroxidase enzyme KatG (a common good which “Ca. Planktophila” is dependent upon) and its most likely providers in the lake. Further we found that while ecotype and community cooperation combined may explain “Ca. Planktophila” population abundance, the success of “Ca. Nanopelagicus” and “Ca. Fonsibacter” is better explained as a community byproduct. Ecotype differentiation of “Ca. Fonsibacter” as a means of escaping predation was supported but not for overcoming auxotrophies.IMPORTANCEThis study examines evolutionary and ecological relationships of three of the most ubiquitous and abundant freshwater bacterial genera: “Ca. Planktophila” (acI-A), “Ca. Nanopelagicus” (acI-B), and “Ca. Fonsibacter” (LD12). Due to high abundance, these genera might have a significant influence on nutrient cycling in freshwaters worldwide and this study adds a layer of understanding to how seemingly competing clades of bacteria can co-exist by having different cooperation strategies. Our synthesis ties together network and ecological theory with empirical evidence and lays out a framework for how the functioning of populations within complex microbial communities can be studied.

Published

2020

11. Repeated disturbances affect functional but not compositional resistance and resilience in an aquatic bacterioplankton community

Author

Emma S. Kritzberg, Eva S. Lindström, Silke Langenheder, Christofer M. G. Karlsson, and Johanna Sjöstedt

Subjects

0301 basic medicine, Disturbance (geology), Resistance (ecology), Ecology, Niche, Bacterioplankton, Bacterial Physiological Phenomena, Biology, Plankton, Agricultural and Biological Sciences (miscellaneous), Mesocosm, Salinity, 03 medical and health sciences, 030104 developmental biology, Ecology, Evolution, Behavior and Systematics

Abstract

Disturbances are believed to be one of the main factors influencing variations in community diversity and functioning. Here we investigated if exposure to a pH press disturbance affected the composition and functional performance of a bacterial community and its resistance, recovery and resilience to a second press disturbance (salt addition). Lake bacterial assemblages were initially exposed to reduced pH in six mesocosms whereas another six mesocosms were kept as reference. Seven days after the pH disturbance, three tanks from each treatment were exposed to a salt disturbance. Both bacterial production and enzyme activity were negatively affected by the salt treatment, regardless if the communities had been subject to a previous disturbance or not. However, cell-specific enzyme activity had a higher resistance in communities pre-exposed to the pH disturbance compared to the reference treatment. In contrast, for cell-specific bacterial production resistance was not affected, but recovery was faster in the communities that had previously been exposed to the pH disturbance. Over time, bacterial community composition diverged among treatments, in response to both pH and salinity. The difference in functional recovery, resilience and resistance may depend on differences in community composition caused by the pH disturbance, niche breadth or acquired stress resistance.

Published

2018

12. Remnants of marine bacterial communities can be retrieved from deep sediments in lakes of marine origin

Author

Yinghua Zha, Sainur Samad, Lucas Sinclair, Eva S. Lindström, Jérôme Comte, Silke Langenheder, and Alexander Eiler

Subjects

0301 basic medicine, Ecology, Sterile water, fungi, 030106 microbiology, Marine habitats, Sediment, Before Present, Test (biology), Agricultural and Biological Sciences (miscellaneous), Homologous Sequences, 03 medical and health sciences, 030104 developmental biology, Baltic sea, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

Some bacteria can be preserved over time in deep sediments where they persist either in dormant or slow-growing vegetative stages. Here, we hypothesized that such cells can be revived when exposed to environmental conditions similar to those before they were buried in the sediments. To test this hypothesis, we collected bacteria from sediment samples of different ages (140-8500 calibrated years before present, cal BP) from three lakes that differed in the timing of their physical isolation from the Baltic Sea following postglacial uplift. After these bacterial communities were grown in sterile water from the Baltic Sea, we determined the proportion of 16S rRNA sequence reads associated with marine habitats by extracting the environment descriptive terms of homologous sequences retrieved from public databases. We found that the proportion of reads associated with marine descriptive term was significantly higher in cultures inoculated with sediment layers formed under Baltic conditions and where salinities were expected to be similar to current levels. Moreover, a similar pattern was found in the original sediment layers. Our study, therefore, suggests that remnants of marine bacterial communities can be preserved in sediments over thousands of years and can be revived from deep sediments in lakes of marine origin.

Published

2016

13. Combined effects of zooplankton grazing and dispersal on the diversity and assembly mechanisms of bacterial metacommunities

Author

Örjan Östman, Mercè Berga, Eva S. Lindström, and Silke Langenheder

Subjects

Ecology, Biological dispersal, Biology, human activities, Microbiology, Biological sciences, Ecology, Evolution, Behavior and Systematics, Zooplankton grazing, Predation, Trophic level, Diversity (business)

Abstract

Effects of dispersal and the presence of predators on diversity, assembly and functioning of bacterial communities are well studied in isolation. In reality, however, dispersal and trophic interact ...

Published

2015

14. Decomposing multiple dimensions of stability in global change experiments

Author

Örjan Östman, Eva S. Lindström, Karen Lebret, Helmut Hillebrand, Silke Langenheder, and Maren Striebel

Subjects

0106 biological sciences, Ecological stability, Biomass (ecology), Environmental change, Resistance (ecology), Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, 15. Life on land, Biology, 010603 evolutionary biology, 01 natural sciences, Stability (probability), Mesocosm, 13. Climate action, Ecosystem, Psychological resilience, Biomass, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Ecological stability is the central framework to understand an ecosystem’s ability to absorb or recover from environmental change. Recent modelling and conceptual work suggests that stability is a multidimensional construct comprising different response aspects. Using two freshwater mesocosm experiments as case studies, we show how the response to single perturbations can be decomposed in different stability aspects (resistance, resilience, recovery, temporal stability) for both ecosystem functions and community composition. We find that extended community recovery is tightly connected to a nearly complete recovery of the function (biomass production), whereas systems with incomplete recovery of the species composition ranged widely in their biomass compared to controls. Moreover, recovery was most complete when either resistance or resilience was high, the latter associated with low temporal stability around the recovery trend. In summary, no single aspect of stability was sufficient to reflect the overall stability of the system.

Published

2017

15. Dispersal timing determines the importance of priority effects in bacterial communities

Author

Omneya Ahmed Osman, Eva S. Lindström, Silke Langenheder, and Pavel Svoboda

Subjects

0106 biological sciences, 0301 basic medicine, Ecology, Short Communication, Community structure, Fresh Water, Bacterioplankton, Biology, Bacterial Physiological Phenomena, Plankton, 010603 evolutionary biology, 01 natural sciences, Microbiology, 03 medical and health sciences, 030104 developmental biology, Taxon, Community composition, Biological dispersal, Water Microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

The order and timing of species arrival during community assembly can have long term effects on community structure due to priority effects. The importance of such processes in complex bacterial communities where dispersal involves mixing of entire communities is currently not known. Here we used a transplant experiment with two bacterioplankton communities of different origin (freshwater and brackish). Sterile medium of each origin was initially inoculated with a bacterial community of different (‘alien’) origin, followed by dispersal of the respective ‘home’ community at different time points after initial inoculation. We found that the later the dispersal with the ‘home’ community occurred the smaller the effect on the final community composition. This suggests that priority effects by the initially inoculated community reduce the establishment success of taxa from the later arriving community and that this effect depends on dispersal timing.

Published

2017

16. Can marine bacteria be recruited from freshwater sources and the air?

Author

Eva S. Lindström, Silke Langenheder, Alexander Eiler, and Jérôme Comte

Subjects

Geologic Sediments, Salinity, Bacteria, Environmental change, Ecology, Air Microbiology, Sediment, Pelagic zone, Biology, Generalist and specialist species, Microbiology, Lakes, Marine bacteriophage, Habitat, Biological dispersal, Seawater, Original Article, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

There is now clear evidence that microorganisms present biogeographic patterns, yet the processes that create and maintain them are still not well understood. In particular, the contribution of dispersal and its exact impact on local community composition is still unclear. For example, dispersing cells may not thrive in recipient environments, but may still remain part of the local species pool. Here, we experimentally tested if marine bacteria can be retrieved from freshwater communities (pelagic and sediment) and the atmosphere by exposing bacteria from three lakes, that differ in their proximity to the Norwegian Sea, to marine conditions. We found that the percentage of freshwater taxa decreased with increasing salinities, whereas marine taxa increased along the same gradient. Our results further showed that this increase was stronger for lake and sediment compared with air communities. Further, significant increases in the average niche breadth of taxa were found for all sources, and in particular lake water and sediment communities, at higher salinities. Our results therefore suggests that marine taxa can readily grow from freshwater sources, but that the response was likely driven by the growth of habitat generalists that are typically found in marine systems. Finally, there was a greater proportion of marine taxa found in communities originating from the lake closest to the Norwegian Sea. In summary, this study shows that the interplay between bacterial dispersal limitation and dispersal from internal and external sources may have an important role for community recovery in response to environmental change.

Published

2014

17. The importance of species sorting differs between habitat generalists and specialists in bacterial communities

Author

Silke Langenheder and Anna J. Székely

Subjects

Metacommunity, Geologic Sediments, geography, geography.geographical_feature_category, Bacteria, Ecology, Range (biology), Species sorting, Environment, Biology, Generalist and specialist species, Applied Microbiology and Biotechnology, Microbiology, Taxon, Habitat, Taxonomic rank, Tide pool, Ecosystem, Phylogeny

Abstract

Recent studies have shown that the spatial turnover of bacterial communities, that is, beta-diversity, is determined by a combination of different assembly mechanisms, such as species sorting, that is, environmental filtering, and dispersal-related mechanisms. However, it is currently unclear to what extent the importance of the different mechanisms depends on community traits. Here, we implemented a study using a rock pool metacommunity to test whether habitat specialization of bacterial taxa and groups or their phylogenetic identity influenced by which mechanisms communities were assembled. In general, our results show that species sorting was the most important assembly mechanism. However, we found that a larger fraction of the variation in bacterial community composition between pools could be explained by environmental factors in case of habitat generalists, that is, taxa that were widespread and abundant in the metacommunity, compared with habitat specialists, that is, taxa that had a more restricted distribution range and tended to be rare. Differences in assembly mechanisms were observed between different major phyla and classes. However, also here, a larger fraction of the variation in community composition among pools could be explained for taxonomic groups that contained on average more habitat generalists. In summary, our results show that species sorting is stronger for the most common taxa, indicating that beta-diversity along environmental gradients can be adequately described without considering rare taxa.

Published

2013

18. Weak seasonality and synchrony among bacterial communities in small pools

Author

Silke Langenheder and Örjan Östman

Subjects

Ecology, Aquatic ecosystem, medicine, Bacterioplankton, Aquatic Science, Biology, Seasonality, medicine.disease, Ecology, Evolution, Behavior and Systematics

Abstract

Temporal dynamics of microbial communities show seasonal trends and synchronous dynamics between communities in different aquatic habitats, but previous studies have mainly focused on larger system ...

Published

2013

19. Importance of space and the local environment for linking local and regional abundances of microbes

Author

Jürg Brendan Logue, Eva S. Lindström, Stina Drakare, Örjan Östman, Silke Langenheder, and Emma S. Kritzberg

Subjects

Variable (computer science), Taxon, Geography, Ecology, Ecology (disciplines), Aquatic ecosystem, Species sorting, Aquatic Science, Scale (map), Degree (music), Relative species abundance, Ecology, Evolution, Behavior and Systematics

Abstract

It is frequently observed that the local relative abundances of aquatic microbial taxa are correlated with their average relative abundance at the regional scale, which results in the composition of different communities being more similar than expected by chance or invariant. The degree to which communities within a region match the regional average community is variable and likely depends on several different mechanisms that control the process of microbial community assembly. Here, we show that environmental variables were associated with the community specific degree of regional invariance in 9 of 10 datasets of microbial communities in aquatic systems, being the main set of variables explaining differences in regional invariance in 5 of them. This indicates that variation in local environmental conditions across a region reduces the degree of regional invariance amongst communities. Spatial distances between communities were not related to the degrees of regional invariance, but in 7 of the datasets, regional invariance differed among different parts of the regions, particularly for phytoplankton communities. This suggests an influence of spatial or historical processes on the community specific degree of regional invariance. We conclude that both local environmental conditions and spatial/historical processes cause between-site differences in the degree of invariance between local and regional abundances in aquatic microbial metacommunities. We argue that studies of regional invariance can be an important complement to other statistical methods due to its propensity to detect variation in stochastic processes along gradients.

Published

2012

20. Freshwater bacterioplankton richness in oligotrophic lakes depends on nutrient availability rather than on species–area relationships

Author

Jürg Brendan Logue, Stefan Bertilsson, Eva S. Lindström, Silke Langenheder, Stina Drakare, Anders Lanzén, and Anders F. Andersson

Subjects

DNA, Bacterial, Sweden, Bacteria, Ecology, Ecology (disciplines), fungi, Biodiversity, Fresh Water, Sequence Analysis, DNA, Bacterioplankton, Plankton, Biology, Spatial distribution, Microbiology, Lakes, Nutrient, RNA, Ribosomal, 16S, Original Article, Species richness, Biological sciences, Ecology, Evolution, Behavior and Systematics

Abstract

A central goal in ecology is to grasp the mechanisms that underlie and maintain biodiversity and patterns in its spatial distribution can provide clues about those mechanisms. Here, we investigated what might determine the bacterioplankton richness (BR) in lakes by means of 454 pyrosequencing of the 16S rRNA gene. We further provide a BR estimate based upon a sampling depth and accuracy, which, to our knowledge, are unsurpassed for freshwater bacterioplankton communities. Our examination of 22 669 sequences per lake showed that freshwater BR in fourteen nutrient-poor lakes was positively influenced by nutrient availability. Our study is, thus, consistent with the finding that the supply of available nutrients is a major driver of species richness; a pattern that may well be universally valid to the world of both micro- and macro-organisms. We, furthermore, observed that BR increased with elevated landscape position, most likely as a consequence of differences in nutrient availability. Finally, BR decreased with increasing lake and catchment area that is negative species–area relationships (SARs) were recorded; a finding that re-opens the debate about whether positive SARs can indeed be found in the microbial world and whether positive SARs can in fact be pronounced as one of the few ‘laws' in ecology.

Published

2011

21. Local and regional factors influencing bacterial community assembly

Author

Eva S. Lindström and Silke Langenheder

Subjects

Taxon, Order (biology), Habitat, Ecology, Mechanism (biology), Biogeography, Biological dispersal, Species sorting, Biology, Generalist and specialist species, Agricultural and Biological Sciences (miscellaneous), Ecology, Evolution, Behavior and Systematics

Abstract

The classical view states that microbial biogeography is not affected by dispersal barriers or historical events, but only influenced by the local contemporary habitat conditions (species sorting). This has been challenged during recent years by studies suggesting that also regional factors such as mass effect, dispersal limitation and neutral assembly are important for the composition of local bacterial communities. Here we summarize results from biogeography studies in different environments, i.e. in marine, freshwater and soil as well in human hosts. Species sorting appears to be the most important mechanism. However, this result might be biased since this is the mechanism that is easiest to measure, detect and interpret. Hence, the importance of regional factors may have been underestimated. Moreover, our survey indicates that different assembly mechanisms might be important for different parts of the total community, differing, for example, between generalists and specialists, and between taxa of different dispersal ability and motility. We conclude that there is a clear need for experimental studies, first, to clearly separate regional and local factors in order to study their relative importance, and second, to test whether there are differences in assembly mechanisms depending on different taxonomic or functional groups.

Published

2011

22. Species sorting and neutral processes are both important during the initial assembly of bacterial communities

Author

Silke Langenheder and Anna J. Székely

Subjects

DNA, Bacterial, Bacteria, biology, Ecology, Rain, Microbial Consortia, Species sorting, Sequence Analysis, DNA, Environment, Generalist and specialist species, biology.organism_classification, Microbiology, Colonisation, Comamonadaceae, Habitat, RNA, Ribosomal, 16S, Original Article, Ecosystem, Water Microbiology, Microcosm, Relative species abundance, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

Many studies have shown that species sorting, that is, the selection by local environmental conditions is important for the composition and assembly of bacterial communities. On the other hand, there are other studies that could show that bacterial communities are neutrally assembled. In this study, we implemented a microcosm experiment with the aim to determine, at the same time, the importance of species sorting and neutral processes for bacterial community assembly during the colonisation of new, that is, sterile, habitats, by atmospheric bacteria. For this we used outdoor microcosms, which contained sterile medium from three different rock pools representing different environmental conditions, which were seeded by rainwater bacteria. We found some evidence for neutral assembly processes, as almost every 4th taxon growing in the microcosms was also detectable in the rainwater sample irrespective of the medium. Most of these taxa belonged to widespread families with opportunistic growth strategies, such as the Pseudomonadaceae and Comamonadaceae, indicating that neutrally assembled taxa may primarily be generalists. On the other hand, we also found evidence for species sorting, as one out of three media selected a differently composed bacterial community. Species sorting effects were relatively weak and established themselves via differences in relative abundance of generalists among the different media, as well as media-specific occurrences of a few specific taxa. In summary, our results suggest that neutral and species sorting processes interact during the assembly of bacterial communities and that their importance may differ depending on how many generalists and specialists are present in a community.

Published

2011

23. Ubiquity ofPolynucleobacter necessariusssp.asymbioticusin lentic freshwater habitats of a heterogenous 2000 km2area

Author

Jan Jezbera, Jitka Jezberová, Martin W. Hahn, Ulrike Brandt, Eva S. Lindström, and Silke Langenheder

Subjects

Range (biology), Ecology, Biogeography, fungi, Plankton, Biology, Subspecies, biology.organism_classification, Microbiology, Abundance (ecology), Polynucleobacter necessarius, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Polynucleobacter

Abstract

We present a survey on the distribution and habitat range of Polynucleobacter necessarius ssp. asymbioticus (PnecC), a numerically and functionally important taxon in the plankton of freshwater systems. We systematically sampled stagnant freshwater habitats in a heterogeneous 2000 km(2) area, together with ecologically different habitats outside this area. In total, 137 lakes, ponds and puddles were investigated, which represent an enormous diversity of habitats differing, e.g. in depth (< 10 cm-171 m) and pH (3.9-8.5). PnecC bacteria were detected by cultivation-independent methods in all investigated habitats, and their presence was confirmed by cultivation of strains from selected habitats representing the whole studied ecological range. The determined relative abundance of the subspecies ranged from values close to the detection limit of FISH (0.2%) to 67% (average 14.5%), and the highest observed absolute abundance was 5.3 x 10(6) cells ml(-1). Statistical analyses revealed that the abundance of PnecC bacteria was partially controlled by factors linked to concentrations of humic substances, which support the hypothesis that these bacteria utilize photodegradation products of humic substances. Based on the revealed statistical relationships, an average relative abundance of this subspecies of 20% in global freshwater habitats was extrapolated. Our study provides important implications for the current debate on ubiquity and biogeography in microorganisms.

Published

2010

24. Environmental and spatial characterisation of bacterial community composition in soil to inform sampling strategies

Author

James I. Prosser, Colin Campbell, Kate L. Baker, Kenneth Stuart Killham, Silke Langenheder, Dean Ricketts, and Graeme W. Nicol

Subjects

Soil test, Ecology, Soil pH, Soil water, Sampling design, Community structure, Soil Science, Sampling (statistics), Environmental science, Soil science, Spatial variability, Microbiology, Spatial heterogeneity

Abstract

Soil physicochemical properties and microbial communities are highly heterogeneous and vary widely over spatial scales, necessitating careful consideration of sampling strategies to provide representative and reproducible soil samples across field sites. To achieve this, the study aimed to establish appropriate sampling methodology and to determine links between the variability of parameters, utilising two sampling strategies. The first (design 1) involved extracting 25 cores from random locations throughout the field and pooling them into five sets of five cores. The second (design 2) involved a further 25 cores within five 1 m 2 sub-plots. Sub-samples from each sub-plot were pooled in order to determine between and within sub-plot variability. All samples were analysed independently and as pooled sub-samples. Results indicate that pooling spatially separated samples significantly reduced the variability in pH, compared to individual samples. Pooling samples from a small area resulted in lower within sub-plot variability than between sub-plots for pH and bacterial community composition assessed by terminalrestriction fragment length polymorphism analysis. Following multivariate statistical analysis, a large amount of variation in community composition was explained by soil pH, which is remarkable given the relatively small size of the sampling area and minor differences in pH. Moisture content was also important in determining bacterial communities in the random design (design 1). In the 1 m 2 sub-plot design (design 2), the spatial location of the plots explained a large degree of the variation in bacterial community composition between plots, which was due to spatial autocorrelation of pH and possible additional environmental parameters. This study emphasises the importance of sampling design for obtaining representative samples from soil.

Published

2009

25. Resource availability influences the diversity of a functional group of heterotrophic soil bacteria

Author

Silke Langenheder and James I. Prosser

Subjects

Time Factors, Molecular Sequence Data, Population Dynamics, Biodiversity, Biology, Generalist and specialist species, Benzoates, Microbiology, RNA, Ribosomal, 16S, Botany, Ecosystem, Phylogeny, Soil Microbiology, Ecology, Evolution, Behavior and Systematics, Bacteria, Reverse Transcriptase Polymerase Chain Reaction, Ecology, Community structure, Genes, rRNA, DNA Fingerprinting, Substrate (marine biology), Electrophoresis, Gel, Pulsed-Field, RNA, Bacterial, Biodegradation, Environmental, Genes, Bacterial, Species evenness, Microcosm, Sequence Alignment, Soil microbiology

Abstract

Summary Resource availability is a key factor regulating biodiversity and ecosystem functioning, but the relationship between resource availability and diversity has only been rarely investigated in microbial communities. The aim of this study was to determine how diversity and community structure of a functional group of soil bacteria are influenced by resource concentration. To achieve this, we used soil microcosms to investigate degradation of benzoate, which served as a model compound, by soil bacterial communities. Microcosms were supplied with 13C-labelled benzoate at four concentrations and RNA-stable isotope probing followed by molecular fingerprinting analysis of 16S rRNA genes was employed to identify bacteria able to assimilate benzoate at different concentrations. The composition of the benzoate degrader community differed at different concentrations and there was a significant decrease in taxa evenness at the highest substrate concentration. Active organisms could be grouped into generalists, occurring at all substrate concentrations, specialists, active at one particular benzoate concentration only, and taxa that were active at either the two lowest or two highest concentrations. The study comprises the first explicit demonstration that resource availability has an effect on the diversity of a functional group of heterotrophic soil bacteria.

Published

2008

26. Multiple dimensions of bacterial diversity unrelated to functioning, stability and multifunctionality

Author

Fabian Roger, Stefan Bertilsson, Omneya Ahmed, Silke Langenheder, and Lars Gamfeldt

Subjects

Phylogenetic diversity, Rare biosphere, Abundance (ecology), Ecology, Biodiversity, Ecosystem diversity, respiratory system, Biology, human activities, Diversity (business), Global biodiversity, Ecosystem services

Abstract

Bacteria are essential for many ecosystem services but our understanding of factors controlling their functioning is incomplete. While biodiversity has been identified as an important driver of ecosystem processes in macrobiotic communities, we know much less about bacterial communities. Due to the high diversity of bacterial communities, high functional redundancy is commonly proposed as an explanation for a lack of clear effects of diversity. The generality of this claim has, however, been questioned. We present the results of an outdoor dilution-to-extinction experiment with four lake bacterial communities. We found no general effects of bacterial diversity in terms of effective number of species, phylogenetic diversity or functional diversity on (i) bacterial abundance, (ii) temporal stability of abundance, (iii) nitrogen concentration, or (iv) multifunctionality. A literature review of 21 peer-reviewed studies that used dilution-to-extinction to manipulate bacterial diversity corroborated our findings: only about 25% found positive relationships. Combined, these results suggest that bacterial communities are able to uphold multifunctional ecosystems even at extensive reductions in diversity.

Published

2016

27. Effects of multiple dimensions of bacterial diversity on functioning, stability and multifunctionality

Author

Fabian Roger, Lars Gamfeldt, Stefan Bertilsson, Omneya Ahmed Osman, and Silke Langenheder

Subjects

0301 basic medicine, Rare biosphere, Bacteria, Ecology, Biodiversity, respiratory system, Biology, 03 medical and health sciences, Phylogenetic diversity, Lakes, 030104 developmental biology, Abundance (ecology), Aquatic biodiversity research, Ecosystem diversity, Species richness, Water Microbiology, human activities, Ecology, Evolution, Behavior and Systematics, Ecosystem, Phylogeny, Diversity (business)

Abstract

Bacteria are essential for many ecosystem services but our understanding of factors controlling their functioning is incomplete. While biodiversity has been identified as an important driver of ecosystem processes in macrobiotic communities, we know much less about bacterial communities. Due to the high diversity of bacterial communities, high functional redundancy is commonly proposed as explanation for a lack of clear effects of diversity. The generality of this claim has, however, been questioned. We present the results of an outdoor dilution-to-extinction experiment with four lake bacterial communities. The consequences of changes in bacterial diversity in terms of effective number of species, phylogenetic diversity, and functional diversity were studied for (1) bacterial abundance, (2) temporal stability of abundance, (3) nitrogen concentration, and (4) multifunctionality. We observed a richness gradient ranging from 15 to 280 operational taxonomic units (OTUs). Individual relationships between diversity and functioning ranged from negative to positive depending on lake, diversity dimension, and aspect of functioning. Only between phylogenetic diversity and abundance did we find a statistically consistent positive relationship across lakes. A literature review of 24 peer-reviewed studies that used dilution-to-extinction to manipulate bacterial diversity corroborated our findings: about 25% found positive relationships. Combined, these results suggest that bacteria-driven community functioning is relatively resistant to reductions in diversity.

Published

2016

28. THE ROLE OF ENVIRONMENTAL AND SPATIAL FACTORS FOR THE COMPOSITION OF AQUATIC BACTERIAL COMMUNITIES

Author

Henrik Ragnarsson and Silke Langenheder

Subjects

Chlorophyll, DNA, Bacterial, Salinity, Chlorophyll a, Population Dynamics, Fresh Water, Biology, Spatial distribution, chemistry.chemical_compound, Species Specificity, Canonical correspondence analysis, Ecosystem, Ecology, Evolution, Behavior and Systematics, geography, geography.geographical_feature_category, Bacteria, Ecology, Chlorophyll A, Community structure, chemistry, Spatial ecology, Water Microbiology, Tide pool, Polymorphism, Restriction Fragment Length, Environmental Monitoring

Abstract

This study investigates the importance of local vs. spatial factors on bacterial community composition of 35 rock pools at the Baltic Sea coast. The pools were located in five distinct spatial clusters over a total scale of

Published

2007

29. Contribution of different dispersal sources to the metabolic response of lake bacterioplankton following a salinity change

Author

Eva S. Lindström, Silke Langenheder, Mercè Berga, and Jérôme Comte

Subjects

0301 basic medicine, Salinity, biology, Bacteria, Ecology, 030106 microbiology, Bacterioplankton, Plankton, biology.organism_classification, Microbiology, Mesocosm, 03 medical and health sciences, Lakes, 030104 developmental biology, RNA, Ribosomal, 16S, Loktanella, Biological dispersal, Ecosystem, Trophic state index, skin and connective tissue diseases, Ecology, Evolution, Behavior and Systematics

Abstract

Dispersal can modify how bacterial community composition (BCC) changes in response to environmental perturbations, yet knowledge about the functional consequences of dispersal is limited. Here we hypothesized that changes in bacterial community production in response to a salinity disturbance depend on the possibility to recruit cells from different dispersal sources. To investigate this, we conducted an in situ mesocosm experiment where bacterial communities of an oligotrophic lake were exposed to different salinities (0, 18, 36 psu) for 2 weeks and subjected to dispersal of cells originating from sediments, air (mesocosms open to air deposition), both or none. BCC was determined using 454 pyrosequencing of the 16S rRNA gene and bacterial production was measured by 3 H leucine uptake. Bacterial production differed significantly among salinity treatments and dispersal treatments, being highest at high salinity. These changes were associated with changes in BCC and it was found that the identity of the main functional contributors differed at different salinities. Our results further showed that after a salinity perturbation, the response of bacterial communities depended on the recruitment of taxa, including marine representatives (e.g., Alphaproteobacteria Loktanella, Erythrobacter and the Gammaproteobacterium Rheiheimera) from dispersal sources, in which atmospheric deposition appeared to play a major role.

Published

2015

30. Remnants of marine bacterial communities can be retrieved from deep sediments in lakes of marine origin

Author

Silke, Langenheder, Jérôme, Comte, Yinghua, Zha, Md Sainur, Samad, Lucas, Sinclair, Alexander, Eiler, and Eva S, Lindström

Subjects

Geologic Sediments, Lakes, Bacteria, RNA, Ribosomal, 16S, Cluster Analysis, Metagenomics, Sequence Analysis, DNA, Biota, DNA, Ribosomal, Phylogeny

Abstract

Some bacteria can be preserved over time in deep sediments where they persist either in dormant or slow-growing vegetative stages. Here, we hypothesized that such cells can be revived when exposed to environmental conditions similar to those before they were buried in the sediments. To test this hypothesis, we collected bacteria from sediment samples of different ages (140-8500 calibrated years before present, cal BP) from three lakes that differed in the timing of their physical isolation from the Baltic Sea following postglacial uplift. After these bacterial communities were grown in sterile water from the Baltic Sea, we determined the proportion of 16S rRNA sequence reads associated with marine habitats by extracting the environment descriptive terms of homologous sequences retrieved from public databases. We found that the proportion of reads associated with marine descriptive term was significantly higher in cultures inoculated with sediment layers formed under Baltic conditions and where salinities were expected to be similar to current levels. Moreover, a similar pattern was found in the original sediment layers. Our study, therefore, suggests that remnants of marine bacterial communities can be preserved in sediments over thousands of years and can be revived from deep sediments in lakes of marine origin.

Published

2015

31. Repeated disturbances affect functional but not compositional resistance and resilience in an aquatic bacterioplankton community

Author

Johanna, Sjöstedt, Silke, Langenheder, Emma, Kritzberg, Christofer M G, Karlsson, and Eva S, Lindström

Subjects

Lakes, Salinity, Bacteria, Stress, Physiological, RNA, Ribosomal, 16S, beta-Glucosidase, Cellulose 1,4-beta-Cellobiosidase, Hydrogen-Ion Concentration, Bacterial Physiological Phenomena, Plankton, Water Microbiology, Carbon

Abstract

Disturbances are believed to be one of the main factors influencing variations in community diversity and functioning. Here we investigated if exposure to a pH press disturbance affected the composition and functional performance of a bacterial community and its resistance, recovery and resilience to a second press disturbance (salt addition). Lake bacterial assemblages were initially exposed to reduced pH in six mesocosms whereas another six mesocosms were kept as reference. Seven days after the pH disturbance, three tanks from each treatment were exposed to a salt disturbance. Both bacterial production and enzyme activity were negatively affected by the salt treatment, regardless if the communities had been subject to a previous disturbance or not. However, cell-specific enzyme activity had a higher resistance in communities pre-exposed to the pH disturbance compared to the reference treatment. In contrast, for cell-specific bacterial production resistance was not affected, but recovery was faster in the communities that had previously been exposed to the pH disturbance. Over time, bacterial community composition diverged among treatments, in response to both pH and salinity. The difference in functional recovery, resilience and resistance may depend on differences in community composition caused by the pH disturbance, niche breadth or acquired stress resistance.

Published

2015

32. Changes in bacterial community composition along a solar radiation gradient in humic waters

Author

Sebastian Sobek, Silke Langenheder, and Lars J. Tranvik

Subjects

Sunlight, geography, geography.geographical_feature_category, integumentary system, Ecology, Community structure, Bacterioplankton, Aquatic Science, Biology, Swamp, Terminal restriction fragment length polymorphism, Microbial population biology, Environmental chemistry, Dissolved organic carbon, Composition (visual arts), sense organs, skin and connective tissue diseases, Ecology, Evolution, Behavior and Systematics, Water Science and Technology

Abstract

It has been demonstrated that solar and particularly UV-radiation has strong effects on the production, activity and abundance of bacterioplankton, whereas effects on bacterial community composition (BCC) are unclear. We performed 3 independent experiments where humic water (either from a lake or a swamp) was incubated at different depths to create a gradient of intensity of exposure to natural solar radiation. Bacterial community composition, as assessed by terminal restriction fragment length polymorphism analysis (t-RFLP), changed gradually with increasing depth in parallel to decreasing sunlight exposure. Vertical changes in the production of dissolved inorganic carbon, oxygen consumption and bacterial production coincided with changes in BCC, suggesting a relationship between bacterial community composition and function.

Published

2006

33. Influence of dissolved organic matter source on lake bacterioplankton structure and function – implications for seasonal dynamics of community composition

Author

Eva S. Lindström, Silke Langenheder, and Emma S. Kritzberg

Subjects

Total organic carbon, chemistry.chemical_classification, Ecology, Community structure, chemistry.chemical_element, Bacterioplankton, Biology, Applied Microbiology and Biotechnology, Microbiology, Terminal restriction fragment length polymorphism, Nutrient, chemistry, Dissolved organic carbon, Organic matter, Carbon

Abstract

It has been suggested that autochthonous (internally produced) organic carbon and allochthonous (externally produced) organic carbon are utilized by phylogenetically different bacterioplankton. We examined the relationship between the source of organic matter and the structure and function of lake bacterial communities. Differences and seasonal changes in bacterial community composition in two lakes differing in their source of organic matter were followed in relation to environmental variables. We also performed batch culture experiments with amendments of various organic substrates, namely fulvic acids, leachates from algae, and birch and maple leaves. Differences in bacterial community composition between the lakes, analysed by terminal restriction fragment length polymorphism, correlated with variables related to the relative loading of autochthonous and allochthonous carbon (water colour, dissolved organic carbon, nutrients, and pH). Seasonal changes correlated with temperature, chlorophyll and dissolved organic carbon in both lakes. The substrate amendments led to differences in both structure and function, i.e. production, respiration and growth yield, of the bacterial community. In conclusion, our results suggest that the source of organic matter influences community composition both within and among lakes and that there may be a coupling between the structure and function of the bacterial community.

Published

2006

34. Structure and Function of Bacterial Communities Emerging from Different Sources under Identical Conditions

Author

Lars J. Tranvik, Eva S. Lindström, and Silke Langenheder

Subjects

DNA, Bacterial, Metacommunity, Geologic Sediments, Regulating factors, Fresh Water, Biology, Applied Microbiology and Biotechnology, Microbial Ecology, Trees, Oxygen Consumption, RNA, Ribosomal, 16S, Ecosystem, Biomass, Carbon Radioisotopes, Soil Microbiology, Biomass (ecology), Bacteria, Ecology, Aquatic ecosystem, Agriculture, Benzoic Acid, Terminal restriction fragment length polymorphism, Microbial population biology, Soil microbiology, Polymorphism, Restriction Fragment Length, Food Science, Biotechnology

Abstract

The aim of this study was to compare two major hypotheses concerning the formation of bacterial community composition (BCC) at the local scale, i.e., whether BCC is determined by the prevailing local environmental conditions or by “metacommunity processes.” A batch culture experiment where bacteria from eight distinctly different aquatic habitats were regrown under identical conditions was performed to test to what extent similar communities develop under similar selective pressure. Differently composed communities emerged from different inoculum communities, as determined by terminal restriction fragment length polymorphism analysis of the 16S rRNA gene. There was no indication that similarity increased between communities upon growth under identical conditions compared to that for growth at the ambient sampling sites. This suggests that the history and distribution of taxa within the source communities were stronger regulating factors of BCC than the environmental conditions. Moreover, differently composed communities were different with regard to specific functions, such as enzyme activities, but maintained similar broad-scale functions, such as biomass production and respiration.

Published

2006

35. The spatial structure of bacterial communities is influenced by historical environmental conditions

Author

Eva S. Lindström, Silke Langenheder, Martin Andersson, and Mercè Berga

Subjects

geography, geography.geographical_feature_category, Bacteria, Ecology, Biogeography, Ecology (disciplines), Oceans and Seas, Beta diversity, Community structure, Species sorting, Biology, Environment, Biological dispersal, Adaptation, Water Microbiology, Tide pool, Ecology, Evolution, Behavior and Systematics, Ecosystem

Abstract

The spatial structure of ecological communities, including that of bacteria, is often influenced by species sorting by contemporary environmental conditions. Moreover, historical processes, i.e., ecological and evolutionary events that have occurred at some point in the past, such as dispersal limitation, drift, priority effects, or selection by past environmental conditions, can be important, but are generally investigated much less. Here, we conducted a field study using 16 rock pools, where we specifically compared the importance of past vs. contemporary environmental conditions for bacterial community structure by correlating present differences in bacterial community composition among pools to environmental conditions measured on the same day, as well as to those measured 2, 4, 6, and 8 d earlier. The results prove that selection by past environmental conditions exists, since we were able to show that bacterial communities are, to a greater extent, an imprint of past compared to contemporary environmental conditions. We suggest that this is the result of a combination of different mechanisms, including priority effects that cause rapid adaptation to new environmental conditions of taxa that have been initially selected by past environmental conditions, and slower rates of turnover in community composition compared to environmental conditions.

Published

2014

36. Regulation of bacterial biomass and community structure by metazoan and protozoan predation

Author

Silke Langenheder and Klaus Jürgens

Subjects

Ecology, fungi, Aquatic Science, Biology, Oceanography, biology.organism_classification, Daphnia, Food web, Predation, Cytophaga, Dominance (ecology), Proteobacteria, Flavobacterium, Bacteria

Abstract

We performed food web manipulation experiments in three eutrophic Daphnia-dominated ponds, to compare the predation impact on planktonic bacteria exerted by metazoan and protozoan bacterial consumers. We analyzed the bacterial morphological composition by image analysis and the taxonomic composition by fluorescent in situ hybridization with group-specific oligonucleotide probes. The removal of Daphnia always resulted in a microbial succession in which first free-living bacteria and then heterotrophic nanoflagellates (HNFs) increased. Distinct stages of bacterial grazing either exclusively by Daphnia or by HNFs allowed a quantitative and qualitative comparison of their predation impact on the bacterial assemblage. Both bacterial consumers showed a strong size-selective impact that shifted the free-living bacterial community structure toward small cells. Suppression of bacterial biomass below the carrying capacity was similar with Daphnia or HNFs in one experiment and was significantly stronger with Daphnia as bacterial consumer in two experiments. This was due to the fact that bacteria that were resistant to protozoan predation partially compensated grazing mortality. Bacteria attached to aggregates and detrital particles were more important as grazing-resistant forms than bacterial filaments and constituted up to 50% of total bacterial biomass at the end of the experiments. Changes in predation pressure were also associated with shifts in bacterial community composition. Bacteria belonging to the beta subclass of the class Proteobacteria and to the Cytophaga/ Flavobacterium group dominated originally. The latter were most strongly reduced by HNF grazing, whereas other groups, in two experiments the alpha sublass (ALF) of Proteobacteria and in one experiment bacteria hybridizing with the probe for Archaea, even increased during HNF grazing. The composition also differed between bacteria associated with aggregates and freely suspended bacteria, the most obvious being the dominance of ALF growing on detrital aggregates. The experiments demonstrated that predation is a major structuring force for planktonic bacterial communities and that changes in predation regime probably have a much stronger impact on the structure of the bacterial community than on bacterial abundance and biomass.

Published

2001

37. Combined effects of zooplankton grazing and dispersal on the diversity and assembly mechanisms of bacterial metacommunities

Author

Mercè, Berga, Örjan, Östman, Eva S, Lindström, and Silke, Langenheder

Subjects

Bacteria, Daphnia, Predatory Behavior, Microbial Consortia, Animals, Biodiversity, Zooplankton

Abstract

Effects of dispersal and the presence of predators on diversity, assembly and functioning of bacterial communities are well studied in isolation. In reality, however, dispersal and trophic interactions act simultaneously and can therefore have combined effects, which are poorly investigated. We performed an experiment with aquatic metacommunities consisting of three environmentally different patches and manipulated dispersal rates among them as well as the presence or absence of the keystone species Daphnia magna. Daphnia magna reduced both local and regional diversity, whereas dispersal increased local diversity but decreased beta-diversity having no net effect on regional diversity. Dispersal modified the assembly mechanisms of bacterial communities by increasing the degree of determinism. Additionally, the combination of the D. magna and dispersal increased the importance of deterministic processes, presumably because predator-tolerant taxa were spread in the metacommunity via dispersal. Moreover, the presence of D. magna affected community composition, increased community respiration rates but did not affect bacterial production or abundance, whereas dispersal slightly increased bacterial production. In conclusion, our study suggests that predation by a keystone species such as D. magna and dispersal additively influence bacterial diversity, assembly processes and ecosystem functioning.

Published

2014

38. Local and regional factors influencing bacterial community assembly

Author

Eva S, Lindström and Silke, Langenheder

Abstract

The classical view states that microbial biogeography is not affected by dispersal barriers or historical events, but only influenced by the local contemporary habitat conditions (species sorting). This has been challenged during recent years by studies suggesting that also regional factors such as mass effect, dispersal limitation and neutral assembly are important for the composition of local bacterial communities. Here we summarize results from biogeography studies in different environments, i.e. in marine, freshwater and soil as well in human hosts. Species sorting appears to be the most important mechanism. However, this result might be biased since this is the mechanism that is easiest to measure, detect and interpret. Hence, the importance of regional factors may have been underestimated. Moreover, our survey indicates that different assembly mechanisms might be important for different parts of the total community, differing, for example, between generalists and specialists, and between taxa of different dispersal ability and motility. We conclude that there is a clear need for experimental studies, first, to clearly separate regional and local factors in order to study their relative importance, and second, to test whether there are differences in assembly mechanisms depending on different taxonomic or functional groups.

Published

2013

39. Biogeography of bacterial communities exposed to progressive long-term environmental change

Author

Jürg Brendan Logue, Harriet Paterson, Stefan Bertilsson, Johanna Laybourn-Parry, Eva S. Lindström, Ramiro Logares, Lars J. Tranvik, Silke Langenheder, and Karin Rengefors

Subjects

DNA, Bacterial, Salinity, Environmental change, Biogeography, Antarctic Regions, Biology, Generalist and specialist species, Microbiology, 03 medical and health sciences, Long-term, RNA, Ribosomal, 16S, Ecosystem, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, 0303 health sciences, long-term, Bacteria, Geography, 030306 microbiology, Ecology, fungi, Pyrosequencing, Bacterioplankton, environmental change, 15. Life on land, Plankton, Lakes, pyrosequencing, Habitat, Antarctica, Original Article

Abstract

12 pages, 5 figures, The response of microbial communities to long-term environmental change is poorly understood. Here, we study bacterioplankton communities in a unique system of coastal Antarctic lakes that were exposed to progressive long-term environmental change, using 454 pyrosequencing of the 16S rDNA gene (V3-V4 regions). At the time of formation, most of the studied lakes harbored marine-coastal microbial communities, as they were connected to the sea. During the past 20 000 years, most lakes isolated from the sea, and subsequently they experienced a gradual, but strong, salinity change that eventually developed into a gradient ranging from freshwater (salinity 0) to hypersaline (salinity 100). Our results indicated that present bacterioplankton community composition was strongly correlated with salinity and weakly correlated with geographical distance between lakes. A few abundant taxa were shared between some lakes and coastal marine communities. Nevertheless, lakes contained a large number of taxa that were not detected in the adjacent sea. Abundant and rare taxa within saline communities presented similar biogeography, suggesting that these groups have comparable environmental sensitivity. Habitat specialists and generalists were detected among abundant and rare taxa, with specialists being relatively more abundant at the extremes of the salinity gradient. Altogether, progressive long-term salinity change appears to have promoted the diversification of bacterioplankton communities by modifying the composition of ancestral communities and by allowing the establishment of new taxa.© 2013 International Society for Microbial Ecology All rights reserved, Financial support for this work was provided by the Swedish Research Council for Environment, Agricultural Sciences, and Spatial Planning (FORMAS) via Uppsala Microbiomics Centre (UMC) (granted to SB and LT), the Swedish Research Council (granted individually to SB, ESL and KR), the Marie Curie Intra-European Fellowship (PIEFGA-2009-235365, EU) and Juan de la Cierva fellowship (JCI- 2010-06594, Ministry of Science and Innovation, Spain) (granted to RL), the Australian Antarctic Research Assessment Committee (granted to JL-P and KR), FORMAS (granted to SL) and the Olsson-Borghs and Helge Ax:son Johnsons Foundation (granted to JBL)

Published

2012

40. Mechanisms determining the fate of dispersed bacterial communities in new environments

Author

Silke Langenheder, Mercè Berga, and Anna J. Székely

Subjects

DNA, Bacterial, Sweden, Bacteria, Ecology, media_common.quotation_subject, Functional response, Species sorting, Fresh Water, Biology, Generalist and specialist species, Bacterial Physiological Phenomena, Microbiology, Competition (biology), RNA, Ribosomal, 16S, Biological dispersal, Ecosystem, Seawater, Original Article, Adaptation, Relative species abundance, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Recent work has shown that dispersal has an important role in shaping microbial communities. However, little is known about how dispersed bacteria cope with new environmental conditions and how they compete with local resident communities. To test this, we implemented two full-factorial transplant experiments with bacterial communities originating from two sources (freshwater or saline water), which were incubated, separately or in mixes, under both environmental conditions. Thus, we were able to separately test for the effects of the new environment with and without interactions with local communities. We determined community composition using 454-pyrosequencing of bacterial 16S rRNA to specifically target the active fraction of the communities, and measured several functional parameters. In absence of a local resident community, the net functional response was mainly affected by the environmental conditions, suggesting successful functional adaptation to the new environmental conditions. Community composition was influenced both by the source and the incubation environment, suggesting simultaneous effects of species sorting and functional plasticity. In presence of a local resident community, functional parameters were higher compared with those expected from proportional mixes of the unmixed communities in three out of four cases. This was accompanied by an increase in the relative abundance of generalists, suggesting that competitive interactions among local and immigrant taxa could explain the observed ‘functional overachievement'. In summary, our results suggest that environmental filtering, functional plasticity and competition are all important mechanisms influencing the fate of dispersed communities.

Published

2012

41. Ubiquity of Polynucleobacter necessarius ssp. asymbioticus in lentic freshwater habitats of a heterogeneous 2000 km area

Author

Jitka, Jezberová, Jan, Jezbera, Ulrike, Brandt, Eva S, Lindström, Silke, Langenheder, and Martin W, Hahn

Subjects

DNA, Bacterial, Europe, Oxygen, Bacteria, Ecology, fungi, Fresh Water, Plankton, Ecosystem, Article

Abstract

We present a survey on the distribution and habitat range of Polynucleobacter necessarius ssp. asymbioticus (PnecC), a numerically and functionally important taxon in the plankton of freshwater systems. We systematically sampled stagnant freshwater habitats in a heterogeneous 2000 km(2) area, together with ecologically different habitats outside this area. In total, 137 lakes, ponds and puddles were investigated, which represent an enormous diversity of habitats differing, e.g. in depth (10 cm-171 m) and pH (3.9-8.5). PnecC bacteria were detected by cultivation-independent methods in all investigated habitats, and their presence was confirmed by cultivation of strains from selected habitats representing the whole studied ecological range. The determined relative abundance of the subspecies ranged from values close to the detection limit of FISH (0.2%) to 67% (average 14.5%), and the highest observed absolute abundance was 5.3 x 10(6) cells ml(-1). Statistical analyses revealed that the abundance of PnecC bacteria was partially controlled by factors linked to concentrations of humic substances, which support the hypothesis that these bacteria utilize photodegradation products of humic substances. Based on the revealed statistical relationships, an average relative abundance of this subspecies of 20% in global freshwater habitats was extrapolated. Our study provides important implications for the current debate on ubiquity and biogeography in microorganisms.

Published

2010

42. Regional invariance among microbial communities

Author

Eva S. Lindström, Silke Langenheder, Stina Drakare, Jürg Brendan Logue, Emma S. Kritzberg, and Örjan Östman

Subjects

Sweden, Bacteria, Ecology, Population Dynamics, Biodiversity, Genetic Variation, Species sorting, Fresh Water, Biology, Generalist and specialist species, Bacterial Physiological Phenomena, Models, Biological, Microbial ecology, Microbial population biology, Abundance (ecology), Phytoplankton, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Microbial ecology has focused much on causes of between-site variation in community composition. By analysing five data-sets each of aquatic bacteria and phytoplankton, we demonstrated that microbial communities show a large degree of similarity in community composition and that abundant taxa were widespread, a typical pattern for many metazoan metacommunities. The regional abundance of taxa explained on average 85 and 41% of variation in detection frequency and 58 and 31% of variation in local abundances for bacteria and phytoplankton, respectively. However, regional abundance explained less variation in local abundances with increasing environmental variation between sites within data-sets. These findings indicate that the studies of microbial assemblages need to consider similarities between communities to better understand the processes underlying the assembly of microbial communities. Finally, we propose that the degree of regional invariance can be linked to the evolution of microbes and the variation in ecosystem functions performed by microbial communities.

Published

2009

43. Salinity as a structuring factor for the composition and performance of bacterioplankton degrading riverine DOC

Author

Silke Langenheder, Veljo Kisand, Johan Wikner, and Lars J. Tranvik

Subjects

Ecology, biology, Bacterioplankton, Bacterial growth, biology.organism_classification, Applied Microbiology and Biotechnology, Microbiology, Salinity, Microbial population biology, Botany, Dissolved organic carbon, Proteobacteria, Flavobacterium, Temperature gradient gel electrophoresis

Abstract

The impact of salinity on the composition and functional performance (biomass production, growth efficiency and growth rates) of bacterial communities was investigated using batch cultures growing on dissolved organic carbon from a river draining into the Northern Baltic Sea. The cultures were adjusted to riverine or estuarine salinity levels and inoculated with bacteria from these two environments. Bacterial growth efficiencies differed in response to salinity and the origin of the inoculum. When salinity was adjusted to correspond to the salinity at the site where the inoculum was retrieved, growth efficiency was relatively high (11.5+/-2.6%). However, when bacteria were confronted with a shift in salinity, growth efficiency was lower (7.5+/-2.0%) and more of the utilized carbon was respired. In contrast, growth rates were higher when bacteria were exposed to a change in salinity. The composition of the bacterial communities developing in the batch cultures differed, as shown by 16S rDNA DGGE, depending on the origin of the inoculum and salinity. Reverse and direct DNA-DNA hybridization revealed salinity optima in the growth of specific bacterial strains as well as broader phylogenetic groups. Strains belonging to the alpha- and beta-Proteobacteria, Actinobacteria and gamma-Proteobacteria other than the genus Pseudomonas showed higher relative abundance under freshwater conditions, whereas strains of the genus Pseudomonas and the Cytophaga-Flavobacterium-Bacteroides group were favored by estuarine conditions. Generally, our results demonstrate functional changes associated with changes in community composition. We suggest that even moderate changes in salinity affect bacterial community composition, which subsequently leads to altered growth characteristics.

Published

2009

44. Bacterial biodiversity-ecosystem functioning relations are modified by environmental complexity

Author

Mark T. Bulling, Martin Solan, James I. Prosser, and Silke Langenheder

Subjects

0106 biological sciences, Change over time, Time Factors, Ecology/Community Ecology and Biodiversity, Environmental change, Biodiversity, lcsh:Medicine, Biology, 010603 evolutionary biology, 01 natural sciences, Models, Biological, 03 medical and health sciences, Species Specificity, Ecosystem, lcsh:Science, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Bacteria, Ecology, business.industry, Environmental resource management, lcsh:R, Species diversity, 15. Life on land, Complementarity (molecular biology), Environmental complexity, Linear Models, lcsh:Q, Species richness, Ecology/Ecosystem Ecology, business, Research Article

Abstract

Background With the recognition that environmental change resulting from anthropogenic activities is causing a global decline in biodiversity, much attention has been devoted to understanding how changes in biodiversity may alter levels of ecosystem functioning. Although environmental complexity has long been recognised as a major driving force in evolutionary processes, it has only recently been incorporated into biodiversity-ecosystem functioning investigations. Environmental complexity is expected to strengthen the positive effect of species richness on ecosystem functioning, mainly because it leads to stronger complementarity effects, such as resource partitioning and facilitative interactions among species when the number of available resource increases. Methodology/Principal Findings Here we implemented an experiment to test the combined effect of species richness and environmental complexity, more specifically, resource richness on ecosystem functioning over time. We show, using all possible combinations of species within a bacterial community consisting of six species, and all possible combinations of three substrates, that diversity-functioning (metabolic activity) relationships change over time from linear to saturated. This was probably caused by a combination of limited complementarity effects and negative interactions among competing species as the experiment progressed. Even though species richness and resource richness both enhanced ecosystem functioning, they did so independently from each other. Instead there were complex interactions between particular species and substrate combinations. Conclusions/Significance Our study shows clearly that both species richness and environmental complexity increase ecosystem functioning. The finding that there was no direct interaction between these two factors, but that instead rather complex interactions between combinations of certain species and resources underlie positive biodiversity ecosystem functioning relationships, suggests that detailed knowledge of how individual species interact with complex natural environments will be required in order to make reliable predictions about how altered levels of biodiversity will most likely affect ecosystem functioning.

Published

2009

45. Does ecosystem size determine aquatic bacterial richness? Comment

Author

Lars J. Tranvik, Stina Drakare, Henrik Ragnarsson, Eva S. Lindström, Silke Langenheder, Alexander Eiler, and Stefan Bertilsson

Subjects

Bacteria, Ecology, Ecosystem, Species richness, Biodiversity, Biology, Water Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2007

46. Influence of dissolved organic matter source on lake bacterioplankton structure and function--implications for seasonal dynamics of community composition

Author

Emma S, Kritzberg, Silke, Langenheder, and Eva S, Lindström

Subjects

Bacteria, Fresh Water, Seasons, Plankton, Carbon, Ecosystem, Polymorphism, Restriction Fragment Length, Statistics, Nonparametric

Abstract

It has been suggested that autochthonous (internally produced) organic carbon and allochthonous (externally produced) organic carbon are utilized by phylogenetically different bacterioplankton. We examined the relationship between the source of organic matter and the structure and function of lake bacterial communities. Differences and seasonal changes in bacterial community composition in two lakes differing in their source of organic matter were followed in relation to environmental variables. We also performed batch culture experiments with amendments of various organic substrates, namely fulvic acids, leachates from algae, and birch and maple leaves. Differences in bacterial community composition between the lakes, analysed by terminal restriction fragment length polymorphism, correlated with variables related to the relative loading of autochthonous and allochthonous carbon (water colour, dissolved organic carbon, nutrients, and pH). Seasonal changes correlated with temperature, chlorophyll and dissolved organic carbon in both lakes. The substrate amendments led to differences in both structure and function, i.e. production, respiration and growth yield, of the bacterial community. In conclusion, our results suggest that the source of organic matter influences community composition both within and among lakes and that there may be a coupling between the structure and function of the bacterial community.

Published

2006

47. Heterotrophic bacterial growth efficiency and community structure at different natural organic carbon concentrations

Author

Lars J. Tranvik, Stefan Bertilsson, Alexander Eiler, and Silke Langenheder

Subjects

DNA, Bacterial, Molecular Sequence Data, Heterotroph, Colony Count, Microbial, Biomass, Fresh Water, Bacterial growth, Biology, Applied Microbiology and Biotechnology, DNA, Ribosomal, Microbial Ecology, chemistry.chemical_compound, RNA, Ribosomal, 16S, Dissolved organic carbon, Botany, Gram-Negative Bacteria, Organic Chemicals, Ecosystem, Total organic carbon, Ecology, Sequence Analysis, DNA, Carbon Dioxide, biology.organism_classification, Carbon, chemistry, Environmental chemistry, Carbon dioxide, Electrophoresis, Polyacrylamide Gel, Proteobacteria, Temperature gradient gel electrophoresis, Food Science, Biotechnology

Abstract

Batch cultures of aquatic bacteria and dissolved organic matter were used to examine the impact of carbon source concentration on bacterial growth, biomass, growth efficiency, and community composition. An aged concentrate of dissolved organic matter from a humic lake was diluted with organic compound-free artificial lake water to obtain concentrations of dissolved organic carbon (DOC) ranging from 0.04 to 2.53 mM. The bacterial biomass produced in the cultures increased linearly with the DOC concentration, indicating that bacterial biomass production was limited by the supply of carbon. The bacterial growth rate in the exponential growth phase exhibited a hyperbolic response to the DOC concentration, suggesting that the maximum growth rate was constrained by the substrate concentration at low DOC concentrations. Likewise, the bacterial growth efficiency calculated from the production of biomass and CO 2 increased asymptotically from 0.4 to 10.4% with increasing DOC concentration. The compositions of the microbial communities that emerged in the cultures were assessed by separation of PCR-amplified 16S rRNA fragments by denaturing gradient gel electrophoresis. Nonmetric multidimensional scaling of the gel profiles showed that there was a gradual change in the community composition along the DOC gradient; members of the β subclass of the class Proteobacteria and members of the Cytophaga-Flavobacterium group were well represented at all concentrations, whereas members of the α subclass of the Proteobacteria were found exclusively at the lowest carbon concentration. The shift in community composition along the DOC gradient was similar to the patterns of growth efficiency and growth rate. The results suggest that the bacterial growth efficiencies, the rates of bacterial growth, and the compositions of bacterial communities are not constrained by substrate concentrations in most natural waters, with the possible exception of the most oligotrophic environments.

Published

2003

48. Corrigendum

Author

Eva Lindström and Silke Langenheder

Subjects

Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2010

49. Specialization Versus Diversification: A Trade-Off for Young Scientists?

Author

Silke Langenheder, Nathalie B. Reyns, and Jay T. Lennon

Subjects

Scope (project management), Order (exchange), Field (Bourdieu), Specialization (functional), Subject (philosophy), General Earth and Planetary Sciences, Face (sociological concept), Engineering ethics, Diversification (marketing strategy), Trade-off

Abstract

Owing to the inherent links between the fields of study that make up the environmental sciences (e.g., terrestrial, aquatic, and atmospheric branches), and because of the growing need to better understand how human actions translate into global change, there is increasing demand for interdisciplinary research where Earth scientists with different academic training or backgrounds come together and approach projects in novel ways. In theory, interdisciplinar research teams are composed of researchers with complementary skills and are thus able to tackle larger research questions or problems. In this essay, we discuss the perceived trade-offs that young scientists face when specializing or diversifying their research programs to best prepare for participation in such interdisciplinary research. An effective member of an interdisciplinary team should have expertise in at least one discipline. For a young scientist at the start of his or her career, a period of specialization is necessary in order to be perceived as an expert by potential collaborators. At the same time, the success of an interdisciplinary collaboration may be enhanced by an individual's ability to understand and communicate about subject matters outside of his or her immediate area of expertise. For a young scientist, this implies that one should also broaden the scope of one's field of expertise and diversify. Thus, young scientists may prepare themselves for participating in interdisciplinary research projects by either specializing or diversifying their research programs, although a potential trade-off between both may exist.

Published

2007

50. Growth dynamics within bacterial communities in riverine and estuarine batch cultures

Author

Lars J. Tranvik, Veljo Kisand, Johan Wikner, Eva S. Lindström, and Silke Langenheder

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Heterotrophic bacteria, Estuary, Aquatic Science, biology.organism_classification, Salinity, Microbial population biology, Community composition, Dissolved organic carbon, sense organs, Ecology, Evolution, Behavior and Systematics, Bacteria, Temperature gradient gel electrophoresis

Abstract

We investigated temporal changes in community composition of bacteria growing on riverine dissolved organic carbon. Batch cultures were adjusted to riverine or estuarine salinity levels and inocula ...