Publication date
September 2016
DOIAbstract
Alignments for 28S, 16SND1, CO1, wingless, and maximum likelihood trees from analysis of salticid spider phylogeny, showing placement of Sumakuru within the lyssomanines
Alignments for 28S, 16SND1, CO1, wingless, and maximum likelihood trees from analysis of salticid spider phylogeny, showing placement of Sumakuru within the lyssomanines
Figure 59. Chosen best tree of phylogenetic reconstruction of the genus Soesiladeepakius using morph...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
The lyssomanine jumping spider genus Sumakuru gen. n. is here described for Sumakuru bigal sp. n., f...
Figure 57. Best tree of phylogenetic reconstruction analyses of salticid lineages using maximum like...
Figures 12-14 - Maximum likelihood phylogenetic trees from RAxML analyses. Appended to ta...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
The lyssomanine jumping spider genus Sumakuru gen. n. is here described for Sumakuru bigal sp. n., f...
FIGURES 19–20. Results from analyses on separate data partitions. Each is the majority rule consensu...
Figure 58. Consensus and bootstrap values (500 pseudoreplicates) found by maximum likelihood of the ...
Figure 55. Phylogenetic reconstruction of salticid lineages under parsimony: single most parsimoniou...
This data file includes alignments of 28S, 16SND1, and COI, used to infer phylogeny of levieine jump...
Figure 54. Phylogenetic reconstructions of salticid lineages under parsimony: majority consensus (0....
Figure 59. Chosen best tree of phylogenetic reconstruction of the genus Soesiladeepakius using morph...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
The lyssomanine jumping spider genus Sumakuru gen. n. is here described for Sumakuru bigal sp. n., f...
Figure 57. Best tree of phylogenetic reconstruction analyses of salticid lineages using maximum like...
Figures 12-14 - Maximum likelihood phylogenetic trees from RAxML analyses. Appended to ta...
In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a...
The lyssomanine jumping spider genus Sumakuru gen. n. is here described for Sumakuru bigal sp. n., f...
FIGURES 19–20. Results from analyses on separate data partitions. Each is the majority rule consensu...
Figure 58. Consensus and bootstrap values (500 pseudoreplicates) found by maximum likelihood of the ...
Figure 55. Phylogenetic reconstruction of salticid lineages under parsimony: single most parsimoniou...
This data file includes alignments of 28S, 16SND1, and COI, used to infer phylogeny of levieine jump...
Figure 54. Phylogenetic reconstructions of salticid lineages under parsimony: majority consensus (0....
Figure 59. Chosen best tree of phylogenetic reconstruction of the genus Soesiladeepakius using morph...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
We present the first genome-wide molecular phylogeny of jumping spiders (Araneae: Salticidae), infer...
Add to ORKG