Figure 5. Bayesian consensus tree for internal transcribed spacer 2 sequences. The tree is rooted on Anopheles (Cellia) dirus. Only Bayesian posterior probabilities greater than 50% are shown on the branches. The bar represents 0.1 substitutions per site.Published as part of Taai, Kritsana & Harbach, Ralph E., 2015, Systematics of the Anopheles barbirostris species complex (Diptera: Culicidae: Anophelinae) in Thailand, pp. 244-264 in Zoological Journal of the Linnean Society 174 (2) on page 254, DOI: 10.1111/zoj.12236, http://zenodo.org/record/489071
FIGURE 9. Phylogeny of Anophelinae (32 species) based on rDNA and mtDNA sequences (modified from Sal...
Figure 4. Alignment of the polymorphic sites along a 658-bp fragment of the mitochondrial cytochrome...
FIGURE 1. The phylogentic trees used in this study. A. NJ (Neighbor-joining) tree; B. BI (Bayesian i...
Figure 6. Bayesian consensus tree for cytochrome c oxidase subunit I sequences. Only Bayesian poster...
Figure 5 - Bayesian inference tree constructed using COI barcode sequences. Posterior p...
FIGURE 3. Bayesian phylogeny of the "barcode" region of the COI nucleotide dataset of the Culicidae ...
Figure 5. Bayesian tree of Nematocera based on PCGRNA with heterogeneous models CAT+GTR in PhyloBaye...
FIGURE 5. rDNA Bayesian consensus tree. Nodes with <85% posterior probability are collapsed. Species...
Figure 5 - Maximum likelihood trees of 28S (a) and COI (b) nucleotide sequences of Nidularia balacho...
FIGURE 4. Bayesian phylogeny of the COII nucleotide dataset of the Culicidae collected in Vietnam an...
FIGURE 7. Majority consensus Bayesian tree generated from partial cytochrome b sequence (725 bp), il...
FIGURE 2. Bayesian tree for nuclear elongation complex protein 1 (ECP 1) sequences of five nominal s...
FIGURE 5. Phylogenetic relationships of nine genera (13 species) based on nuclear protein-coding whi...
FIGURE 5. Bayesian inference(BI) tree of Leptolalax inferred from 509bp fragment of 16S mtDNA gene. ...
FIGURE 5. Neighbor-joining tree of Simulium phurueaense sp. nov. and S. oblongum based on mitochondr...
FIGURE 9. Phylogeny of Anophelinae (32 species) based on rDNA and mtDNA sequences (modified from Sal...
Figure 4. Alignment of the polymorphic sites along a 658-bp fragment of the mitochondrial cytochrome...
FIGURE 1. The phylogentic trees used in this study. A. NJ (Neighbor-joining) tree; B. BI (Bayesian i...
Figure 6. Bayesian consensus tree for cytochrome c oxidase subunit I sequences. Only Bayesian poster...
Figure 5 - Bayesian inference tree constructed using COI barcode sequences. Posterior p...
FIGURE 3. Bayesian phylogeny of the "barcode" region of the COI nucleotide dataset of the Culicidae ...
Figure 5. Bayesian tree of Nematocera based on PCGRNA with heterogeneous models CAT+GTR in PhyloBaye...
FIGURE 5. rDNA Bayesian consensus tree. Nodes with <85% posterior probability are collapsed. Species...
Figure 5 - Maximum likelihood trees of 28S (a) and COI (b) nucleotide sequences of Nidularia balacho...
FIGURE 4. Bayesian phylogeny of the COII nucleotide dataset of the Culicidae collected in Vietnam an...
FIGURE 7. Majority consensus Bayesian tree generated from partial cytochrome b sequence (725 bp), il...
FIGURE 2. Bayesian tree for nuclear elongation complex protein 1 (ECP 1) sequences of five nominal s...
FIGURE 5. Phylogenetic relationships of nine genera (13 species) based on nuclear protein-coding whi...
FIGURE 5. Bayesian inference(BI) tree of Leptolalax inferred from 509bp fragment of 16S mtDNA gene. ...
FIGURE 5. Neighbor-joining tree of Simulium phurueaense sp. nov. and S. oblongum based on mitochondr...
FIGURE 9. Phylogeny of Anophelinae (32 species) based on rDNA and mtDNA sequences (modified from Sal...
Figure 4. Alignment of the polymorphic sites along a 658-bp fragment of the mitochondrial cytochrome...
FIGURE 1. The phylogentic trees used in this study. A. NJ (Neighbor-joining) tree; B. BI (Bayesian i...