Fig. 3. Phylogenomic relationships among major laniatorean lineages, with emphasis on family-level divergences within Triaenonychoidea. Phylogeny is derived from the IQ-TREE analysis. Represented nodes are fully supported with 100% bootstrap support, unless indicated otherwise.Published as part of Derkarabetian, Shahan, Baker, Caitlin M., Hedin, Marshal, Prieto, Carlos E. & Giribet, Gonzalo, 2021, Phylogenomic re-evaluation of Triaenonychoidea (Opiliones : Laniatores), and systematics of Triaenonychidae, including new families, genera and species, pp. 277-288 in Invertebrate Systematics 167 (1) on page 138, DOI: 10.1071/is20047, http://zenodo.org/record/453130
FIGURE 14. Hypothesis L3 of phylogeny of the Laniatores (Loman 1903). Only two years after creating ...
Triaenonychidae Sørensen in L. Koch, 1886 is a large family of Opiliones with ∼480 described species...
FIGURE 16. Hypothesis L5 of phylogeny of the Laniatores Šilhavý (1961). Šilhavý recognized the Travu...
Fig. 4. Phylogenomic relationships of Triaenonychidae, with clade names as discussed in the main tex...
Derkarabetian, Shahan, Baker, Caitlin M., Hedin, Marshal, Prieto, Carlos E., Giribet, Gonzalo (2021)...
Superfamily TRIAENONYCHOIDEA SØrensen 1886 Included families: Triaenonychidae Sørensen 1886, Synth...
Fig. 1. Photographs of live Triaenonychoidea. (A) Synthetonychiidae: Synthetonychia oliveae, MCZ:IZ:...
Fig. 6. General morphology of Abaddon despoliator, gen. nov., sp. nov. (A, B) Dorsal habitus: (A) ma...
Fig. 7. Morphology of male genitalia. (A) Abaddon despoliator, gen. nov., sp. nov., ventral and vent...
FIGURE 18. Hypothesis L7 of phylogeny of the Laniatores (Kury 2002). A series of morphological studi...
FIGURE 13. Hypothesis L2 of phylogeny of the Laniatores (Loman 1901; 1902). This author proposed a s...
FIGURE 19. Hypothesis L8 of phylogeny of the Laniatores (Giribet et al. 2010, mol). Grassatores rema...
Molecular phylogenetics has transitioned into the phylogenomic era, with data derived from next-gene...
FIGURE 15. Hypothesis L4 of phylogeny of the Laniatores Kratochvíl (1958). After the work of Forster...
Molecular phylogenetics has transitioned into the phylogenomic era, with data derived from next-gene...
FIGURE 14. Hypothesis L3 of phylogeny of the Laniatores (Loman 1903). Only two years after creating ...
Triaenonychidae Sørensen in L. Koch, 1886 is a large family of Opiliones with ∼480 described species...
FIGURE 16. Hypothesis L5 of phylogeny of the Laniatores Šilhavý (1961). Šilhavý recognized the Travu...
Fig. 4. Phylogenomic relationships of Triaenonychidae, with clade names as discussed in the main tex...
Derkarabetian, Shahan, Baker, Caitlin M., Hedin, Marshal, Prieto, Carlos E., Giribet, Gonzalo (2021)...
Superfamily TRIAENONYCHOIDEA SØrensen 1886 Included families: Triaenonychidae Sørensen 1886, Synth...
Fig. 1. Photographs of live Triaenonychoidea. (A) Synthetonychiidae: Synthetonychia oliveae, MCZ:IZ:...
Fig. 6. General morphology of Abaddon despoliator, gen. nov., sp. nov. (A, B) Dorsal habitus: (A) ma...
Fig. 7. Morphology of male genitalia. (A) Abaddon despoliator, gen. nov., sp. nov., ventral and vent...
FIGURE 18. Hypothesis L7 of phylogeny of the Laniatores (Kury 2002). A series of morphological studi...
FIGURE 13. Hypothesis L2 of phylogeny of the Laniatores (Loman 1901; 1902). This author proposed a s...
FIGURE 19. Hypothesis L8 of phylogeny of the Laniatores (Giribet et al. 2010, mol). Grassatores rema...
Molecular phylogenetics has transitioned into the phylogenomic era, with data derived from next-gene...
FIGURE 15. Hypothesis L4 of phylogeny of the Laniatores Kratochvíl (1958). After the work of Forster...
Molecular phylogenetics has transitioned into the phylogenomic era, with data derived from next-gene...
FIGURE 14. Hypothesis L3 of phylogeny of the Laniatores (Loman 1903). Only two years after creating ...
Triaenonychidae Sørensen in L. Koch, 1886 is a large family of Opiliones with ∼480 described species...
FIGURE 16. Hypothesis L5 of phylogeny of the Laniatores Šilhavý (1961). Šilhavý recognized the Travu...