Phylogenetic diversity and in situ detection of eukaryotes in anaerobic sludge digesters

Matsubayashi, Miri; Shimada, Yusuke; Li, Yu You; Harada, Hideki; Kubota, Kengo

doi:10.1371/journal.pone.0172888

Cited by 37 publications

(20 citation statements)

References 34 publications

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“…Generally considered and regardless of the bioreactor, Rotifera and Phragmoplastophyta were the most representative phyla. In contrast to Matsubayashi et al, we found that Rotifera phylum is also abundant in anaerobic activated samples. Eukaryal phylotypes were mainly clustered to Fungi (42.2%), Animalia (28.8%), Protista (13.3%), and finally Plantae (8.9%).…”

Section: Resultscontrasting

confidence: 99%

“…A total of 38 different eukaryal OTUs were detected in the samples of the biomass from MC, AD, and MD (Figure S1C and Figure c). The role of eukaryotes during aerobic treatment processes have been associated with an excess of sludge production and performance and predation of bacteria but few studies have investigated the diversity of eukaryotes in anaerobic digestion . Generally considered and regardless of the bioreactor, Rotifera and Phragmoplastophyta were the most representative phyla.…”

Section: Resultsmentioning

confidence: 99%

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Biogas production and microbial community structure in a stable‐stage of a two‐stage anaerobic digester

et al. 2019

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In a pilot plant under the stable-stage of the two-stage anaerobic digester, the dynamic of the archaeal, bacterial, and eukaryal community structure was studied as well as their link to performance and biogas production. An effective synergic action between microorganisms was reached since biogas production and particularly methane (CH 4) generation, were more than two-times higher in the methanogenic respect to the acidogenic bioreactor. The αand β-diversity analyses showed that dominant and rare operational taxonomic units of prokaryotic and eukaryotic microorganisms were critical in developing a functional successful anaerobic digestion process. A canonical correspondence analysis showed that acid/alkalinity ratio, volatile fatty acid, and pH parameters mainly affected prokaryotic and eukaryotic phylotypes and a clear positive relationship was found between several phylotypes, such as Methanobacteriaceae, Unknown Thaumarchaeota, Intestinibacter, Coprothermobacter, and Magnoliophyta, with biogas and CH 4 production and performance parameters.

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Section: Resultscontrasting

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Biogas production and microbial community structure in a stable‐stage of a two‐stage anaerobic digester

et al. 2019

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“…If it is possible to publish new species from the computer just on the basis of a DNA sequence, not only knowledge of the morphology, anatomy, chemistry, physiology, life history strategies and ecology of fungi would lose value, but researchers interested in organismal mycology might be discouraged to intensely study and characterise species right from the start, eroding the foundation on which fungal systematics is built. If all the ‘dark matter’ of the cryptic basal lineages of fungi ( Grossart et al 2016 ) would be formally named based on sequence data, this would probably also discourage the laborious search for these organisms by FISH and other microscopy techniques ( Jones et al 2011 , Lazarus & James 2015 , Lepère et al 2016 , Matsubayashi et al 2017 ). Another problematic issue is that if sequence data were accepted as type, specimens might be seen as obsolete and only cost-prohibitive museum objects, as they are more difficult to store, curate and preserve than sequence data.…”

Section: Ten Reasonsmentioning

confidence: 99%

Ten reasons why a sequence-based nomenclature is not useful for fungi anytime soon

et al. 2018

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Abstract:The large number of species still to be discovered in fungi, together with an exponentially growing number of environmental sequences that cannot be linked to known taxa, has fuelled the idea that it might be necessary to formally name fungi on the basis of sequence data only. Here we object to this idea due to several shortcomings of the approach, ranging from concerns regarding reproducibility and the violation of general scientific principles to ethical issues. We come to the conclusion that sequence-based nomenclature is potentially harmful for mycology as a discipline. Additionally, a classification based on sequences as types is not within reach anytime soon, because there is a lack of consensus regarding common standards due to the fast pace at which sequencing technologies develop.

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“…The biogas microbiome does not only comprise bacteria and archaea but also viruses/phages [7] as well as eukaryotes including fungi and protists (mainly protozoa) which are less investigated [8][9][10]. While it is assumed that the functional characteristics of pro-and eukaryotes are closely related to each other in a cooperative way [11], viruses/phages are suspected to have regulatory effects on the microbial cell turnover [7,12].…”

Section: Introductionmentioning

confidence: 99%

Process Disturbances in Agricultural Biogas Production—Causes, Mechanisms and Effects on the Biogas Microbiome: A Review

2019

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Disturbances of the anaerobic digestion process reduce the economic and environmental performance of biogas systems. A better understanding of the highly complex process is of crucial importance in order to avoid disturbances. This review defines process disturbances as significant changes in the functionality within the microbial community leading to unacceptable and severe decreases in biogas production and requiring an active counteraction to be overcome. The main types of process disturbances in agricultural biogas production are classified as unfavorable process temperatures, fluctuations in the availability of macro- and micronutrients (feedstock variability), overload of the microbial degradation potential, process-related accumulation of inhibiting metabolites such as hydrogen (H2), ammonium/ammonia (NH4+/NH3) or hydrogen sulphide (H2S) and inhibition by other organic and inorganic toxicants. Causes, mechanisms and effects on the biogas microbiome are discussed. The need for a knowledge-based microbiome management to ensure a stable and efficient production of biogas with low susceptibility to disturbances is derived and an outlook on potential future process monitoring and control by means of microbial indicators is provided.

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Phylogenetic diversity and in situ detection of eukaryotes in anaerobic sludge digesters

Cited by 37 publications

References 34 publications

Biogas production and microbial community structure in a stable‐stage of a two‐stage anaerobic digester

Biogas production and microbial community structure in a stable‐stage of a two‐stage anaerobic digester

Ten reasons why a sequence-based nomenclature is not useful for fungi anytime soon

Process Disturbances in Agricultural Biogas Production—Causes, Mechanisms and Effects on the Biogas Microbiome: A Review

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