Schigel, Dmitry

No ORCID on file · 13 papers in corpus · active 2018-2021

Study types

  • dataset 13
dataset 2021
SH1329828.08FU
·doi:10.15156/bio/sh1329828.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1419512.08FU
·doi:10.15156/bio/sh1419512.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1465190.08FU
·doi:10.15156/bio/sh1465190.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1518285.08FU
·doi:10.15156/bio/sh1518285.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1578022.08FU
·doi:10.15156/bio/sh1578022.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1684578.08FU
·doi:10.15156/bio/sh1684578.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2021
SH1956480.08FU
·doi:10.15156/bio/sh1956480.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2020
SH3613979.08FU
·doi:10.15156/bio/sh3613979.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2019
SH2801794.08FU
·doi:10.15156/bio/sh2801794.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2019
SH2856801.08FU
·doi:10.15156/bio/sh2856801.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2019
SH2906091.08FU
·doi:10.15156/bio/sh2906091.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2019
SH3448949.08FU
·doi:10.15156/bio/sh3448949.08fu

UNITE provides a unified way for delimiting, identifying, communicating, and working with DNA-based Species Hypotheses (SH). All fungal ITS sequences in the international nucleotide sequence databases are clustered to approximately the spec…

dataset 2018
TH031275
·doi:10.15156/bio/th031275

Here we present the novel 'taxon hypothesis' (TH) concept to accommodate fungal 'species hypothesis' (SH) into existing classification frameworks for taxonomic communication. As supplied with Digital Object Identifiers (DOIs), THs are flexi…