21,079 Works

TH015481

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH010821

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012774

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011925

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH008392

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH013625

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012083

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH006467

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012748

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH015490

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH007431

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH006464

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011907

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012283

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH013608

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH015476

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH010964

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012817

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH015015

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH012941

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011182

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011179

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011072

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH014714

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

TH011939

Urmas Kõljalg, Kessy Abarenkov, Leho Tedersoo, R. Henrik Nilsson, Tom May, Karl-Henrik Larsson, Markus Döring, Dmitry Schigel, Martin Ryberg, Santiago Sánchez-Ramírez & Mohammad Bahram
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 flexible in time and enable direct cross-communication of higher level taxa along with evolving classification schemes. Every TH includes given number of SHs and consequently fixed number of fungal rDNA ITS sequences. DNA sequences generated by High-throughput or Sanger sequencing studies and identified against...

Registration Year

  • 2020
    21,079

Resource Types

  • Dataset
    21,079