Broad and Fine Scale Variability in Bacterial Diversity and Cyanotoxin Quotas in Benthic Cyanobacterial Mats

Thomson‐Laing, Georgia; Puddick, Jonathan; Laroche, Olivier; Fulton, Samantha; Steiner, Konstanze; Heath, Mark W.; Wood, Susanna A.

doi:10.3389/fmicb.2020.00129

Cited by 10 publications

(9 citation statements)

References 66 publications

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“…The ordination analysis of the bacterial communities showed that Proteobacteria and Bacteroidetes were almost always the main components of the samples in all islands. These two phyla have previously been identified as pioneer species and the most predominant taxa in biofilm formation in fresh and coastal waters (Lee et al 2008;Brasell et al 2015;Thomson-Laing et al 2020). Among the cyanobacterial communities, samples from each island clustered closely with the exceptions of Moorea and Rarotonga, which formed two distinct clusters.…”

Section: Benthic Bacterial and Eukaryote Diversitymentioning

confidence: 97%

“…Benthic cyanobacterial mats are complex microbial assemblages comprising bacteria, microalgae, eukaryotic organisms and inorganic material in addition to cyanobacteria, all of which can change across successional cycles (Brasell et al 2015). The use of metabarcoding and other genomic techniques is providing valuable insights into the composition and function of these dynamic communities in freshwater systems (e.g., Bouma-Gregson et al 2019;Tee et al 2020;Thomson-Laing et al 2020), but examples of the application to toxic benthic marine cyanobacterial research are limited.…”

Section: Introductionmentioning

confidence: 99%

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Exploring benthic cyanobacterial diversity and co-occurring potentially harmful dinoflagellates in six islands of the South Pacific

et al. 2021

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Cyanobacteria represent a potential risk to human health, as they can produce an array of toxic compounds. Proliferations of potentially toxic benthic marine cyanobacteria are predicted to increase in frequency and spread geographically with climate change and eutrophication, especially in tropical lagoons. Benthic cyanobacterial mats harbour many species of other bacteria and eukaryotic organisms, some of which have been linked to human poisonings after consumption of contaminated seafood. Metabarcoding was used to characterize the taxonomic diversity of 66 benthic cyanobacteria-dominated mats collected from six islands in three different countries of the South Pacific: French Polynesia, the Cook Islands and Kingdom of Tonga. Twenty-five potentially toxic cyanobacteria genera were recorded. Although core bacterial communities (excluding cyanobacteria) remained constant amongst mats, there were significant differences both within and between islands, even when the mats were dominated by the same cyanobacteria genera. Dinoflagellata and Ciliophora were the most dominant eukaryotes and seven potentially toxic genera of dinoflagellates co-occurred in the mats. This is the first baseline survey to use metabarcoding to demonstrate the co-occurrence of potentially toxic marine cyanobacteria and dinoflagellates in the Pacific. The results highlight that further research is needed to evaluate the toxicity of the mats in these regions

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Section: Benthic Bacterial and Eukaryote Diversitymentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Exploring benthic cyanobacterial diversity and co-occurring potentially harmful dinoflagellates in six islands of the South Pacific

et al. 2021

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“…However, those characterized by a simple trichal form stand out and include representatives of genera Geitlerinema, Heteroleibleinia, Homeothrix and Jaaginema, as well as the potentially toxic species Microcoleus autumnalis [40]. Microcoleus autumnalis is known to be a producer of anatoxins, potent neurotoxins commonly attributed to Microcoleus or Phormidium genera and considered the most widely reported toxins related to benthic mats [58]. On the other hand, two simple filamentous species show a strong preference for urban waterbodies -Jaaginema subtilissimum (for SUR) and Kamptonema chlorinum (for both UR/S and SUR).…”

Section: Discussionmentioning

confidence: 99%

Freshwater cyanobacteria in waters intended for human consumption in Serbia: Two decades of changes in diversity

Jovanović

Popović

Simić

et al. 2022

Arch biol sci (Beogr)

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Herein we provide an assessment of cyanobacterial diversity and habitat preferences of potentially toxic and alien taxa, which could be an important tool for human health risk assessment regarding recreational and water-supply waterbodies. The diversity changes of cyanobacteria in waters intended for human consumption in Serbia were analyzed two decades after the first floristic study was published. The examination included phytoplankton and phytobenthic sample analysis from 35 localities in the period between 2012 and 2017, together with published literature records. The results indicate that the number of identified taxa doubled since the first Serbian Flora of Cyanobacteria was released two decades ago. The changes most likely occurred due to environmental factors, including hydrological transformations of habitats, cultural eutrophication and global warming. Many frequently recorded taxa are potentially toxic and bloom-forming. The spread of alien species with potentially invasive characteristics has also been noted. Canonical correspondence analysis (CCA) indicates that shallow waterbodies are the most vulnerable regarding the occurrence and expansion of bloom-forming, potentially toxic and invasive taxa. This shows the urgent need for a more detailed investigation. Additionally, although most of the research was focused on planktonic forms, benthic cyanobacteria represent an important component for public health risk assessment and therefore should be more frequently investigated.

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“…The variation in the microbial community (dominated by Bacteroidetes and Proteobacteria) within ATX-producing Microcoleus autumnale (basionym Phormidium autumnale ) -dominated mats was also reported in two New Zealand streams concerning the variability in ATX concentration. However, the presence of various co-inhabiting organisms such as diatoms and eukaryotic algae in the mats, as well as the environmental and micro-environmental conditions, may influence the bacterial community structure as well [ 138 ]. Research regarding the effect of ATXs on the bacterial assemblage in aquatic ecosystems is still at its early stages.…”

Section: Cyanotoxins and Interspecies Interplaymentioning

confidence: 99%

Reviewing Interspecies Interactions as a Driving Force Affecting the Community Structure in Lakes via Cyanotoxins

et al. 2021

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The escalating occurrence of toxic cyanobacterial blooms worldwide is a matter of concern. Global warming and eutrophication play a major role in the regularity of cyanobacterial blooms, which has noticeably shifted towards the predomination of toxic populations. Therefore, understanding the effects of cyanobacterial toxins in aquatic ecosystems and their advantages to the producers are of growing interest. In this paper, the current literature is critically reviewed to provide further insights into the ecological contribution of cyanotoxins in the variation of the lake community diversity and structure through interspecies interplay. The most commonly detected and studied cyanobacterial toxins, namely the microcystins, anatoxins, saxitoxins, cylindrospermopsins and β-N-methylamino-L-alanine, and their ecotoxicity on various trophic levels are discussed. This work addresses the environmental characterization of pure toxins, toxin-containing crude extracts and filtrates of single and mixed cultures in interspecies interactions by inducing different physiological and metabolic responses. More data on these interactions under natural conditions and laboratory-based studies using direct co-cultivation approaches will provide more substantial information on the consequences of cyanotoxins in the natural ecosystem. This review is beneficial for understanding cyanotoxin-mediated interspecies interactions, developing bloom mitigation technologies and robustly assessing the hazards posed by toxin-producing cyanobacteria to humans and other organisms.

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Broad and Fine Scale Variability in Bacterial Diversity and Cyanotoxin Quotas in Benthic Cyanobacterial Mats

Cited by 10 publications

References 66 publications

Exploring benthic cyanobacterial diversity and co-occurring potentially harmful dinoflagellates in six islands of the South Pacific

Exploring benthic cyanobacterial diversity and co-occurring potentially harmful dinoflagellates in six islands of the South Pacific

Freshwater cyanobacteria in waters intended for human consumption in Serbia: Two decades of changes in diversity

Reviewing Interspecies Interactions as a Driving Force Affecting the Community Structure in Lakes via Cyanotoxins

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