S1328_Schefflera_nesopanax

Resource Type: 
Germplasm Accession
Accession: 
accession/290105
Cross Reference: 
CarrotOmicsLoading content
TreeBASELoading content
Name: 
S1328_Schefflera_nesopanax
Identifier: 
S1328_S_nesopanax
Description: 

Referenced by TreeBASE Study S1328

Publication: 
Tronchet F, Plunkett G, Jeremie J, Lowry PI. Monophyly and major clades of Meryta (Araliaceae). Systematic botany. 2005; 30(3):657-670.
Project: 
NameDescription
TreeBASE Study S1328. Monophyly and major clades of Meryta (Araliaceae). This study contains five trees.
Loading content
Analysis: 
NameDescription
TreeBASE Tree Tr2083 from study S1328. Fig. 2. Strict consensus of 192 shortest trees resulting from the maximum parsimony analysis of 33 ITS sequences of 673 characters; tree length = 190 steps; CI = 0.680; RI = 0.853.
TreeBASE Tree Tr2084 from study S1328. Fig. 3. The single shortest tree resulting from the maximum parsimony analysis of 24 ETS sequences of 394 characters; tree length = 126 steps; CI = 0.717; RI = 0.869.
TreeBASE Tree Tr2085 from study S1328. Fig. 4a. Strict consensus trees resulting from separate analyses of ITS and ETS data, each with an identical 21-taxon sampling. A. ITS analysis: strict consensus of 64 shortest trees resulting from the maximum parsimony analysis of 675 characters; tree length = 161 steps; CI = 0.682; RI = 0.816.
TreeBASE Tree Tr2086 from study S1328. Fig. 4b. Strict consensus trees resulting from separate analyses of ITS and ETS data, each with an identical 21-taxon sampling. B. ETS analysis: the single shortest tree resulting from the maximum parsimony analysis of 394 characters; tree length = 124 steps; CI = 0.711; RI = 0.858.
TreeBASE Tree Tr237 from study S1328. Fig. 5. Strict consensus of 4 shortest trees resulting from the maximum parsimony analysis of the combined (ITS + ETS) data set from 21 sequences of 1,067 characters; tree length = 288 steps; CI = 0.685; RI = 0.829.
Loading content
Feature: 
NameUniquenameFeature Type
S1328_Schefflera_nesopanax
S1328_Schefflera_nesopanax
DNA
Loading content