Biatriospora (Ascomycota: Pleosporales) is an ecologically diverse genus including facultative marine fungi and endophytes with biotechnological potential

Kolařík, Miroslav; Spakowicz, Daniel; Gazis, Romina; Shaw, Jeffrey Jon; Kubátová, Alena; Nováková, Alena; Chudíčková, Milada; Forcina, Giovanni C.; Kang, Victor; Kelnarová, Ivana; Skaltsas, Demetra; Portero, Carolina E.; Strobel, Scott A.; Narváez-Trujillo, Alexandra

doi:10.1007/s00606-016-1350-2

Cited by 34 publications

(24 citation statements)

References 74 publications

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“…B). Ascomycota were the most abundant order of fungi (Table S3), and fungal hydrocarbon‐related taxonomic orders including Pezizomycetes (Bell et al ., ), Pleosporales (Bourdel et al ., ; Kolařík et al ., ; Mohammadian et al ., ), Hypocreales (Prenafeta‐Boldu et al ., ; Mohammadian et al ., ), Capnodiales (Mohammadian et al ., ), Chaetothyriales (Badali et al ., ) and Tremellales (de Garcia et al ., ) (Table S3). Specific OTUs belonging to Sordariomycetes previously demonstrated to be associated with hydrocarbon‐impacted sites and high molecular weight polyaromatic hydrocarbons (Marchand et al ., ) are increased in abundance in deep A and B section soils relative to section C (Fig.…”

Section: Resultsmentioning

confidence: 99%

Spatial analysis of a hydrocarbon waste‐remediating landfarm demonstrates influence of management practices on bacterial and fungal community structure

Bergsveinson

Perry

Simpson

et al. 2019

Microbial Biotechnology

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Summary Cultivation of dedicated soil plots called ‘landfarms' is an effective technology for bioremediation of hydrocarbon waste generated by various industrial practices. To understand the influence of soil conditions on landfarm microbial communities, analysis of bacterial and fungal community structure using next‐generation sequencing at different sections and depths was performed across a hydrocarbon‐waste landfarm in Regina, Saskatchewan, Canada. While a core set of hydrocarbon‐associated bacterial and fungal taxa are present throughout the landfarm, unique bacterial and fungal operational taxonomic units are differentially abundant at sections within the landfarm, which correlate with differences in soil physiochemical properties and management practices. Increased frequency of waste application resulted in strong positive correlations between bacterial community assemblages and elevated amounts of oil, grease and F3 – F4 hydrocarbon fractions. In areas of standing water and lower application of hydrocarbon, microbial community structure correlated with soil pH, trace nutrients and metals. Overall, diversity and structure of bacterial communities remain relatively stable across the landfarm, while in contrast, fungal community structure appears more responsive to soil oxygen conditions. Results are consistent with the hypothesis that years of bioremediation activity have shaped microbial communities; however, several management practices can be undertaken to increase efficiency of remediation, including the removal of standing water and soil tilling across the landfarm.

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Section: Resultsmentioning

confidence: 99%

Spatial analysis of a hydrocarbon waste‐remediating landfarm demonstrates influence of management practices on bacterial and fungal community structure

Bergsveinson

Perry

Simpson

et al. 2019

Microbial Biotechnology

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“…Jaklitsch & Voglmayr (2016) discovered species forming sexual morphs which were phylogenetically related to N. mackinnonii, but possessed ascospores substantially different from Biatriospora marina. So, these authors doubted the validity of the B. marina strain used by Ahmed et al 2014 Kolařík et al (2017). The analysis showed that all compared species formed distinct phylogenetic lineages and are thus unique (Fig.…”

Section: Short Taxonomic Reportmentioning

confidence: 93%

“…Nigrograna (Ascomycota: Pleosporales) was described by de Gruyter et al (2013) as a genus comprising a single asexual species, N. mackinnonii (Borelli) Gruyter, Verkley & Crous, which is the causal agent of eumycetoma in Latin America (Ahmed et al 2018). Ahmed et al (2014) Kolařík et al (2017) from the Czech Republic and Amazonia. Jaklitsch & Voglmayr (2016) discovered species forming sexual morphs which were phylogenetically related to N. mackinnonii, but possessed ascospores substantially different from Biatriospora marina.…”

Section: Short Taxonomic Reportmentioning

confidence: 99%

“…Based on the three abovementioned papers, it can be concluded that Nigrograna is ecologically diverse, comprising species living as endophytes or saprobes of angiosperms (possibly associated with other fungi living on those plants). In addition, Kolařík et al (2017) showed that N. antibiotica, N. peruviensis, N. mackinnonii and numerous unclassified Nigrograna spp. were also isolated from true marine (i.e.…”

Section: Short Taxonomic Reportmentioning

confidence: 99%

“…The branch leading to the outgroup has been shortened to 1/10 of the actual length. Ecology and geography are taken from Kolařík et al (2017) or Travadon et al (2016 in the case of sequence KR909174 and Borman et al (2016) in the case of LT726686 and LT160884.…”

Section: Short Taxonomic Reportmentioning

confidence: 99%

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New taxonomic combinations in endophytic representatives of the genus Nigrograna.

Kolařík¹

2018

Czech Mycol.

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Nigrograna (Ascomycota: Pleosporales), with the type species N. mackinnonii, has been considered a synonym of Biatriospora. Recently, it was shown that these two genera are distinct. In this study, four species earlier described in Biatriospora, i.e. B. antibiotica, B. carollii, B. peruviensis and B. yasuniana, which are phylogenetically related to N. mackinnonii, are combined in Nigrograna. Recently, three teams of authors published eight Nigrograna species almost simultaneously (2016-2017), thus some were not compared phylogenetically. A comparison of available sequences showed that all nine accepted species are unique. It can be concluded that Nigrograna is ecologically diverse, comprising species living as endophytes or saprobes of plants (some of them associated with other fungi living on those plants) as well as species living in marine or estuarine environments. Interestingly, all associations with vascular plants concern angiosperms.

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The Marine-Derived Filamentous Fungi in Biotechnology

Nicoletti

Andolfi

2018

Grand Challenges in Marine Biotechnology

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Biatriospora (Ascomycota: Pleosporales) is an ecologically diverse genus including facultative marine fungi and endophytes with biotechnological potential

Cited by 34 publications

References 74 publications

Spatial analysis of a hydrocarbon waste‐remediating landfarm demonstrates influence of management practices on bacterial and fungal community structure

Spatial analysis of a hydrocarbon waste‐remediating landfarm demonstrates influence of management practices on bacterial and fungal community structure

New taxonomic combinations in endophytic representatives of the genus Nigrograna.

The Marine-Derived Filamentous Fungi in Biotechnology

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