Related articles by
Commentary
Other versions:
- ContentsContents
- Article InfoArticle Info
- CiteCite
- MetricsMetrics
- Comment2Comment
- RelatedRelated
- TaxaTaxa
- RefsRefs
- CitedCited
- NanopubsNanopubs
DNA barcoding for biodiversity assessment: Croatian stoneflies (Insecta: Plecoptera). PeerJ 10: e13213.
Fungal taxonomy and sequence-based nomenclature. Nature Microbiology 6: 540.
Two Novel Genera, Neostemphylium and Scleromyces (Pleosporaceae) from Freshwater Sediments and Their Global Biogeography. Journal of Fungi 8: 868.
Physiological Properties of Three Pelagic Fungi Isolated from the Atlantic Ocean. Journal of Fungi 9: 439.
The numbers of fungi: contributions from traditional taxonomic studies and challenges of metabarcoding. Fungal Diversity 114: 327.
The DNA barcoding project on German Diptera: An appreciative and critical analysis with four suggestions for improving the development and reliability of DNA-based identification. European Journal of Entomology 117: 315.
New scientific discoveries: Plants and fungi. PLANTS, PEOPLE, PLANET 2: 371.
Pygmaeomycetaceae, a new root-associated family in Mucoromycotina from the pygmy pine plains. Mycologia 113: 134.
Salinity is the major driver of the global eukaryotic community structure in fish-canning wastewater treatment plants. Journal of Environmental Management 290: 112623.
High-throughput sequencing of the kelp Alaria (Phaeophyceae) reveals epi-endobiotic associations, including a likely phaeophycean parasite. European Journal of Phycology 56: 494.
How, not if, is the question mycologists should be asking about DNA-based typification. MycoKeys 96: 143.
Integrative approaches for species delimitation in Ascomycota. Fungal Diversity 109: 155.
Can we use environmental DNA as holotypes?. Fungal Diversity 92: 1.
Phylogenetic classification of arbuscular mycorrhizal fungi: new species and higher-ranking taxa in Glomeromycota and Mucoromycota (class Endogonomycetes). MycoKeys 107: 273.
Palm Fungi and Their Key Role in Biodiversity Surveys: A Review. Journal of Fungi 9: 1121.
Naming the untouchable – environmental sequences and niche partitioning as taxonomical evidence in fungi. IMA Fungus 11: .
Does One Size Fit All? Variations in the DNA Barcode Gaps of Macrofungal Genera. Journal of Fungi 9: 788.
Hidden diversity in high‐latitude Southern Hemisphere environments: Reinstatement of the genus Rama and description of Vandenhoekia gen. nov. (Cladophoraceae, Ulvophyceae, Chlorophyta), two highly variable genera. Journal of Phycology 59: 1284.
The UNITE database for molecular identification of fungi: handling dark taxa and parallel taxonomic classifications. Nucleic Acids Research 47: D259.
Ecological and Oceanographic Perspectives in Future Marine Fungal Taxonomy. Journal of Fungi 8: 1141.
Current Insight into Culture-Dependent and Culture-Independent Methods in Discovering Ascomycetous Taxa. Journal of Fungi 7: 703.
On the origin of feces: Fungal diversity, distribution, and conservation implications from feces of small mammals. Environmental DNA 4: 608.
Recommendations for connecting molecular sequence and biodiversity research infrastructures through ELIXIR. F1000Research 10: 1238.
Phylogeny, Global Biogeography and Pleomorphism of Zanclospora. Microorganisms 9: 706.
Toward a Fully Resolved Fungal Tree of Life. Annual Review of Microbiology 74: 291.
The galaxy of the non-Linnaean nomenclature. History and Philosophy of the Life Sciences 41: .
Molecular-Based Diversity Studies and Field Surveys Are Not Mutually Exclusive: On the Importance of Integrated Methodologies in Mycological Research. Frontiers in Fungal Biology 3: .
The dark side of pseudoscorpion diversity: The German Barcode of Life campaign reveals high levels of undocumented diversity in European false scorpions. Ecology and Evolution 11: 13815.
Recommendations for connecting molecular sequence and biodiversity research infrastructures through ELIXIR. F1000Research 10: 1238.
Singleton-based species names and fungal rarity: Does the number really matter?. IMA Fungus 15: .
Progress or burden? Formal description of every apparently new species available in collections is neither necessary nor useful. ZooKeys 1214: 77.
Sequence-based nomenclature: a reply to Thines et al. and Zamora et al. and provisions for an amended proposal “from the floor” to allow DNA sequences as types of names. IMA Fungus 9: 185.
OMICS and Other Advanced Technologies in Mycological Applications. Journal of Fungi 9: 688.
Applying a modified metabarcoding approach for the sequencing of macrofungal specimens from fungarium collections. Applications in Plant Sciences 11: .
Unraveling microbial community by next-generation sequencing in living membrane bioreactors for wastewater treatment. Science of The Total Environment 886: 163965.
Considerations and consequences of allowing DNA sequence data as types of fungal taxa. IMA Fungus 9: 167.
Predicting global numbers of teleomorphic ascomycetes. Fungal Diversity 114: 237.
Polypore fungi as a flagship group to indicate changes in biodiversity – a test case from Estonia. IMA Fungus 12: .
Subscribe to email alerts for current Article's categories