Aleurocystidiellum

Aleurocystidiellum
Systematik
DomänEukaryoter
Eukaryota
RikeSvampar
Fungi
DivisionBasidiesvampar
Basidiomycota
KlassAgaricomycetes
OrdningRussulales
SläkteAleurocystidiellum
Vetenskapligt namn
§ Aleurocystidiellum

Aleurocystidiellum är ett släkte av svampar. Enligt Catalogue of Life[1] ingår Aleurocystidiellum i ordningen Russulales, klassen Agaricomycetes, divisionen basidiesvampar och riket svampar,[1] men enligt Dyntaxa[2] är tillhörigheten istället familjen Stereaceae, ordningen Russulales, klassen Agaricomycetes, divisionen basidiesvampar och riket svampar.[2]

Russulales

Russulaceae



Peniophoraceae



Lachnocladiaceae



Hybogasteraceae



Hericiaceae



Echinodontiaceae



Bondarzewiaceae



Auriscalpiaceae



Amylostereaceae



Albatrellaceae



Stephanosporaceae



Stereaceae



Gloeopeniophorella



Scopulodontia



Haloaleurodiscus



Scytinostromella


Aleurocystidiellum

Aleurocystidiellum subcruentatum




Gloeoasterostroma



Gloeohypochnicium




Bildgalleri

Källor

  1. ^ [a b] Bisby F.A., Roskov Y.R., Orrell T.M., Nicolson D., Paglinawan L.E., Bailly N., Kirk P.M., Bourgoin T., Baillargeon G., Ouvrard D. (red.) (11 januari 2011). ”Species 2000 & ITIS Catalogue of Life: 2011 Annual Checklist.”. Species 2000: Reading, UK. http://www.catalogueoflife.org/annual-checklist/2011/search/all/key/aleurocystidiellum/match/1. Läst 24 september 2012. 
  2. ^ [a b] Dyntaxa Aleurocystidiellum

Media som används på denna webbplats

Aleurocystidiellum-Minimum Evolution.png
Författare/Upphovsman: User:thkgk, Licens: CC0

Figure. Evolutionary relationships of Aleurocystidiellum
Minimum Evolution Tree of Genus Aleurocystidiellum ( ribosomal RNA gene, 5.8S (partial), ITS-2 28S (partial)) The evolutionary history was inferred using the Minimum Evolution method. The optimal tree with the sum of branch length = 0.32675511 is shown. The confidence probability (multiplied by 100) that the interior branch length is greater than 0, as estimated using the bootstrap test (1000 replicates is shown next to the branches. The tree is drawn to scale, with branch lengths in the same units as those of the evolutionary distances used to infer the phylogenetic tree. The evolutionary distances were computed using the Maximum Composite Likelihood method and are in the units of the number of base substitutions per site. The ME tree was searched using the Close-Neighbor-Interchange (CNI) algorithm at a search level of 2. The Neighbor-joining algorithm was used to generate the initial tree. The analysis involved 19 nucleotide sequences. All positions with less than 95% site coverage were eliminated. That is, fewer than 5% alignment gaps, missing data, and ambiguous bases were allowed at any position. There were a total of 843 positions in the final dataset. Evolutionary analyses were conducted in MEGA5. Phylogenetic and molecular evolutionary analyses were conducted using MEGA version 5 (Tamura, Peterson, Peterson, Stecher, Nei, and Kumar 2011). All sequences were obtained from the Genbank and were aligned by the Muscle algorithm with standard settings.
List of the GenBank Sequences