Epibacterial community patterns on marine macroalgae are host‐specific but temporally variable

Lachnit, Tim; Meske, Diana; Wahl, Martin; Harder, Tilmann; Schmitz, Ruth A.

doi:10.1111/j.1462-2920.2010.02371.x

Cited by 270 publications

(305 citation statements)

References 63 publications

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“…It classifies as a member of the genus Granulosicoccus (Lee et al, 2007). Related sequences have been detected on the red seaweed Delisea pulchra, the green seaweed U. australis (Longford et al, 2007), the brown seaweed Fucus vesiculosus (Lachnit et al, 2010) and on the kelp (brown seaweed) Saccharina latissima (Staufenberger et al, 2008), suggesting that organisms within this genus share a preference for seaweeds. The alphaproteobacterial OTU 90 is less abundant (maximum 7.65%), yet frequently detected on L. hyperborea (Table 1, Figure 4a).…”

Section: Community Composition and Proposed Functions Of Abundant Otusmentioning

confidence: 99%

Bacterial diversity in relation to secondary production and succession on surfaces of the kelp Laminaria hyperborea

et al. 2012

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Kelp forests worldwide are known as hotspots for macroscopic biodiversity and primary production, yet very little is known about the biodiversity and roles of microorganisms in these ecosystems. Secondary production by heterotrophic bacteria associated to kelp is important in the food web as a link between kelp primary production and kelp forest consumers. The aim of this study was to investigate the relationship between bacterial diversity and two important processes in this ecosystem; bacterial secondary production and primary succession on kelp surfaces. To address this, kelp, Laminaria hyperborea, from southwestern Norway was sampled at different geographical locations and during an annual cycle. Pyrosequencing (454-sequencing) of amplicons of the 16S rRNA gene of bacteria was used to study bacterial diversity. Incorporation of tritiated thymidine was used as a measure of bacterial production. Our data show that bacterial diversity (richness and evenness) increases with the age of the kelp surface, which corresponds to the primary succession of its bacterial communities. Higher evenness of bacterial operational taxonomical units (OTUs) is linked to higher bacterial production. Owing to the dominance of a few abundant OTUs, kelp surface biofilm communities may be characterized as low-diversity habitats. This is the first detailed study of kelp-associated bacterial communities using high-throughput sequencing and it extends current knowledge on microbial community assembly and dynamics on living surfaces.

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Section: Community Composition and Proposed Functions Of Abundant Otusmentioning

confidence: 99%

Bacterial diversity in relation to secondary production and succession on surfaces of the kelp Laminaria hyperborea

et al. 2012

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“…These bacteria have been especially well studied from terrestrial habitats [45,46], but have also been reported from marine habitats. Rhizobiales are common epiphytes of Ulva seaweeds [47][48][49][50] and have also been isolated from the surface of kelps where they display antimicrobial activity [13]. Additionally, a Rhodopseudomonas species with the potential to fix nitrogen was isolated from the rhizoidal cytoplasm of the siphonous green seaweed Caulerpa taxifolia [19].…”

Section: (A) Diversity Of Endogenous Bacteriamentioning

confidence: 99%

Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green algaBryopsis

et al. 2013

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The ecological success of giant celled, siphonous green algae in coastal habitats has repeatedly been linked to endophytic bacteria living within the cytoplasm of the hosts. Yet, very little is known about the relative importance of evolutionary and ecological factors controlling the intracellular bacterial flora of these seaweeds. Using the marine alga Bryopsis (Bryopsidales, Chlorophyta) as a model, we explore the diversity of the intracellular bacterial communities and investigate whether their composition is controlled by ecological and biogeographic factors rather than the evolutionary history of the host. Using a combination of 16S rDNA clone libraries and denaturing gradient gel electrophoresis analyses, we show that Bryopsis harbours a mixture of relatively few but phylogenetically diverse bacterial species. Variation partitioning analyses show a strong impact of local environmental factors on the presence of Rickettsia and Mycoplasma in their association with Bryopsis. The presence of Flavobacteriaceae and Bacteroidetes, on the other hand, reflects a predominant imprint of host evolutionary history, suggesting that these bacteria are more specialized in their association. The results highlight the importance of interpreting the presence of individual bacterial phylotypes in the light of ecological and evolutionary principles such as phylogenetic niche conservatism to understand complex endobiotic communities and the parameters shaping them.

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“…In some cases, algal species host specific bacterial assemblages across large geographic distances (Lachnit et al, 2009). To date, most studies on algal associated bacterial communities have focused on temperate, fleshy algal species (Lachnit et al, 2011) with the exception of a few studies of tropical fleshy algae (Barott et al, 2011;Sneed and Pohnert, 2011). Although CCA are known to be important settlement substrata for a number of invertebrate species and bacteria are known to produce chemical cues that induce invertebrate larval settlement, little is known about the bacterial communities associated with CCA.…”

Section: Introductionmentioning

confidence: 99%

“…Several studies have demonstrated that different species of macroalgae harbor unique bacterial communities (Longford et al, 2007;Lachnit et al, 2009Lachnit et al, , 2011Sneed and Pohnert, 2011). Within a given geographical area, bacterial communities are often more similar on individuals from the same algal species than they are to individuals from other algal species (Sneed and Pohnert, 2011).…”

Section: Introductionmentioning

confidence: 99%

Crustose coralline algal species host distinct bacterial assemblages on their surfaces

2015

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Crustose coralline algae (CCA) are important components of many marine ecosystems. They aid in reef accretion and stabilization, create habitat for other organisms, contribute to carbon sequestration and are important settlement substrata for a number of marine invertebrates. Despite their ecological importance, little is known about the bacterial communities associated with CCA or whether differences in bacterial assemblages may have ecological implications. This study examined the bacterial communities on four different species of CCA collected in Belize using bacterial tagencoded FLX amplicon pyrosequencing of the V1-V3 region of the 16S rDNA. CCA were dominated by Alphaproteobacteria, Gammaproteobacteria and Actinomycetes. At the operational taxonomic unit (OTU) level, each CCA species had a unique bacterial community that was significantly different from all other CCA species. Hydrolithon boergesenii and Titanoderma prototypum, CCA species that facilitate larval settlement in multiple corals, had higher abundances of OTUs related to bacteria that inhibit the growth and/or biofilm formation of coral pathogens. Fewer coral larvae settle on the surfaces of Paragoniolithon solubile and Porolithon pachydermum. These CCA species had higher abundances of OTUs related to known coral pathogens and cyanobacteria. Coral larvae may be able to use the observed differences in bacterial community composition on CCA species to assess the suitability of these substrata for settlement and selectively settle on CCA species that contain beneficial bacteria.

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Epibacterial community patterns on marine macroalgae are host‐specific but temporally variable

Cited by 270 publications

References 63 publications

Bacterial diversity in relation to secondary production and succession on surfaces of the kelp Laminaria hyperborea

Bacterial diversity in relation to secondary production and succession on surfaces of the kelp Laminaria hyperborea

Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green algaBryopsis

Crustose coralline algal species host distinct bacterial assemblages on their surfaces

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