Diversity of nivicolous myxomycetes of the Teberda State Biosphere Reserve (Northwestern Caucasus, Russia)

Novozhilov, Yu. K.; Schnittler, Martin; Erastova, Daria A.; Okun, Mikhail V.; Schepin, O. N.; Heinrich, Erica C.

doi:10.1007/s13225-012-0199-0

Cited by 46 publications

(24 citation statements)

References 25 publications

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“…Research of Fiore-Donno et al [12], supported this idea, indicating that delimitation of M. carestiae, M. cribrarioides, and M. aggregatum seems to correlate with phylogenetic analysis based on the SSU sequences. As well established, molecular analysis provides a promising methodology to clarify as well as verify taxonomic positions of many genera and species [12,13]. This combinational approach could successfully resolve taxonomic problems and properly indicate inter-and intraspecific variability within this group.…”

Section: Discussionmentioning

confidence: 99%

“…All so far recognized Meriderma species are present mainly in Europe, the Alps [1,14]. Six of them have recently been reported from the Caucasus [13] and five from the Khibiny Mountains [25]. Three species, M. aggregatum, M. carestiae, and M. spinulosporum are known from the Andes in South America [23], however, the first and the last slightly deviating in spore ornamentation.…”

Section: Discussionmentioning

confidence: 99%

“…From ecological point of view, Meriderma is a strictly nivicolous myxomycete genus [1][2][3]6,10], forming sporocarps during relatively short periods of time (late spring and early summer) at the margins of melting snow patches [13]. Sporocarps can be found on almost all accessible organic substrates [6].…”

Section: Digital Signaturementioning

confidence: 99%

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Meriderma species (Myxomycetes) from the Polish Carpathians: a taxonomic revision using SEM-visualized spore ornamentation

Janik

Ronikier

2016

Acta Soc Bot Pol

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Meriderma represents a recently described genus of nivicolous myxomycetes with high morphological variability. Due to many complications in its taxonomy and species recognition in the past, the group was considered a morphologically variable complex. Recent clarifications and recognition of morphological boundaries into species and morphotypes has fostered a classification revision of specimens found in the Carpathians. Material used in this study was systematically collected in the Polish part of the Carpathians from 2004 to 2009. As a result of micro-and macroscopic observations of 54 collections, we recorded nine taxa of Meriderma. Seven of these (all but M. carestiae and M. cribrarioides) are the first records for Poland and for the Carpathians overall. Our observations based on analysis of spore ornamentation by SEM are in accordance with recently proposed classification and confirm segregation of taxa based on spore ornamentation pattern.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Meriderma species (Myxomycetes) from the Polish Carpathians: a taxonomic revision using SEM-visualized spore ornamentation

Janik

Ronikier

2016

Acta Soc Bot Pol

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“…The primary problem is the difficulty of isolating DNA from sporophores without cross-contamination. Although DNA isolation from a single sporophore (Martín et al, 2003) and use of only mature and distantly separated colonies of myxomycetes (Novozhilov et al, 2013) were reported to be successful in eliminating cross-contamination, the universal DNA databases are dominated by rDNA sequences from 7 different genera of myxomycetes. This is why it is very challenging to develop primers by using published sequence data from conserved rDNA genes of related myxomycetes species.…”

Section: Discussionmentioning

confidence: 99%

Differentiation of some myxomycetes species by ITS sequences

Baba¹,

Kolukırık²,

Zümre³

2015

Turk J Bot

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“…To minimize cross‐contamination, the precautions described in Novozhilov et al. () were applied during sampling and isolation of the sporocarps. DNA was extracted according to manufacturer's protocol by either the Stratec Invisorb Spin Plant Mini Kit (Berlin, Germany), the Qiagen Plant kit (Hilden, Germany) or OMEGA Plant Kit (Norcross, Georgia, USA).…”

Section: Methodsmentioning

confidence: 99%

Genetic barcoding of dark‐spored myxomycetes (Amoebozoa)—Identification, evaluation and application of a sequence similarity threshold for species differentiation in NGS studies

Dahl

Brejnrod

Unterseher³

et al. 2017

Molecular Ecology Resources

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Unicellular, eukaryotic organisms (protists) play a key role in soil food webs as major predators of microorganisms. However, due to the polyphyletic nature of protists, no single universal barcode can be established for this group, and the structure of many protistean communities remains unresolved. Plasmodial slime moulds (Myxogastria or Myxomycetes) stand out among protists by their formation of fruit bodies, which allow for a morphological species concept. By Sanger sequencing of a large collection of morphospecies, this study presents the largest database to date of dark-spored myxomycetes and evaluate a partial 18S SSU gene marker for species annotation. We identify and discuss the use of an intraspecific sequence similarity threshold of 99.1% for species differentiation (OTU picking) in environmental PCR studies (ePCR) and estimate a hidden diversity of putative species, exceeding those of described morphospecies by 99%. When applying the identified threshold to an ePCR data set (including sequences from both NGS and cloning), we find 64 OTUs of which 21.9% had a direct match (>99.1% similarity) to the database and the remaining had on average 90.2 ± 0.8% similarity to their best match, thus thought to represent undiscovered diversity of dark-spored myxomycetes.

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Diversity of nivicolous myxomycetes of the Teberda State Biosphere Reserve (Northwestern Caucasus, Russia)

Cited by 46 publications

References 25 publications

Meriderma species (Myxomycetes) from the Polish Carpathians: a taxonomic revision using SEM-visualized spore ornamentation

Meriderma species (Myxomycetes) from the Polish Carpathians: a taxonomic revision using SEM-visualized spore ornamentation

Differentiation of some myxomycetes species by ITS sequences

Genetic barcoding of dark‐spored myxomycetes (Amoebozoa)—Identification, evaluation and application of a sequence similarity threshold for species differentiation in NGS studies

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