Opiliones are no longer the same — on suprafamilial groups in harvestmen (Arthropoda: Arachnida) Author Kury, Adriano B. text Zootaxa 2015 3925 3 301 340 journal article 10.11646/zootaxa.3925.3.1 98cded51-dc88-46fd-a80c-7bdfdade7389 1175-5326 287978 A249B0D4-9913-41E0-A23B-E36EBACCD7A6 Phylogeny of Opiliones In Figs. 1 to 11, the most relevant hypotheses (or extrapolations) found in the literature concerning the branching pattern of the Opiliones are presented. The five following genera are here used to represent the major groups of Opiliones as currently understood: Siro (for the Cyphophthalmi ), Gonyleptes (for the Laniatores ), Phalangium (for the Phalangioidea), Ischyropsalis (for the Ischyropsalidoidea) and Trogulus (for the Troguloidea) (see also Table 2 for details). The unity of Opiliones (Hypothesis O 1, Fig. 1 ), as currently used, was established by Latreille (1802) and has never been seriously challenged except when Sundevall (1833) (and much later, Savory 1977) separated the Cyphophthalmi from the other Opiliones . FIGURE 1. Hypothesis O1 of phylogeny of the Opiliones (Latreille 1802) . The clade which is today called Opiliones (in blue, below) was originally called “Phalangiens” (in green, above). Members of the Laniatores and of the Ischyropsalidoidea were then unknown. The name Phalangida (as many others) has undergone a change of circumscription over time. Hypothesis O 2 ( Fig. 2 ), by Sundevall (1833) , was a step back from the work of Latreille (1802) , who had included Siro in the Opiliones , under the name “Phalangiens”. The taxa within Opiliones were regarded as coordinate families, without resolution. A strange variation of this may be found in Perty (1833) and Gervais (1844) , where part of the Laniatores (the Cosmetidae only) is included along with Phalangium among the nongonyleptid Opiliones . These were the only attempts to challenge the monophyly of the Laniatores . FIGURE 2. Hypothesis O2 of phylogeny of the Opiliones (Sundevall 1833) . The original concept of the Opiliones (“ Opiliones ” in green) excluded the Cyphophthalmi (here represented by Siro ). This group is currently called Phalangida (in blue). Ischyropsalis was still to be unknown for 6 years. Hypothesis O 3 ( Fig. 3 ), by Thorell (1876) , launched the Palpatores, a name that would frequently be used later with a different concept (equaled to the Plagiostethi, see below). At the same time, Thorell, following the then recent work of Sørensen (1873) united the groups that would be much later called the Dyspnoi, a concept that was widely disclaimed, but prevails today. FIGURE 3. Hypothesis O3 of phylogeny of the Opiliones (Thorell 1876) . Thorell created the name Palpatores (green) as opposed to the also new group Laniatores (here represented by Gonyleptes ). Thorell’s Palpatores is currently called Cyphopalpatores Martens (blue), a name coined a century later, while the name Palpatores is used for another group (see Fig. 4 below). Thorell also recognized what later was to be known as Dyspnoi (blue), following Sørensen (1873). Hypothesis O 4 ( Fig. 4 ), by Simon (1879) , defined the Plagiostethi, a name that afterwards was extensively (and wrongly) regarded as a less-favored synonym of Palpatores. This concept is favored until now in recent analyses, although under the name “Palpatores hypothesis”. FIGURE 4. Hypothesis O4 of phylogeny of the Opiliones (Simon 1879) . Simon was the first to define a group that he called Plagiostethi (green), as opposed to the Mecostethi (here represented by Gonyleptes and identical to Thorell’s Laniatores ). This name as of today has been abandoned in favor of a different usage of the name Palpatores Thorell. Hypothesis O 5 ( Fig. 5 ), proposed by Pocock (1902) and espoused by Loman (1903) , maintained Simon’s Plagiostethi, refining their inner relationships by creating the Apagosterni, a clade not supported by the most recent analyses (e.g., O 10, O 11). FIGURE 5. Hypothesis O5 of phylogeny of the Opiliones (Pocock 1902) . Pocock suggested a group formed by today’s Phalangioidea + Ischyropsalidoidea, thus introducing the name and the concept of Apagosterni. Loman (1903) was the first to accept this clade, which alternately lost and regained favor, but endured for a century. Hypothesis O 6 ( Fig. 6 ), proposed by Hansen & Sørensen (1904) , also kept Plagiostethi, but changed their inner relationships by recovering (and for the first time naming) Thorell’s Dyspnoi. This classical hypothesis has been used during most of the 20th century. FIGURE 6. Hypothesis O6 of phylogeny of the Opiliones (Hansen & Sørensen 1904) . The Danes kept the solid Plagiostethi (= “Palpatores” in blue) and dismantled the Apagosterni resurrecting and firstly naming Thorell’s Dyspnoi as opposed to the Eupnoi. This hypothesis was also defended by Roewer (1923) and Shear (1975) and became the classic triad of the 20th century: Cyphophthalmi , Palpatores and Laniatores . Hypothesis O 7 ( Fig. 7 ), proposed by Mello-Leitão (1944) , was presented as a branching cactus instead of the standard “tree” (see reproduction in Giribet & Kury 2007 ). Mello-Leitão managed to combine the concepts of Cyphopalpatores, Palpatores and Apagosterni into a single hypothesis. It did not gain much favor. FIGURE 7. Hypothesis O7 of phylogeny of the Opiliones (Mello-Leitão 1944 ). This author combined some older hypotheses such as the dichotomy Laniatores versus Palpatores (still using the original Thorell’s concept) and reintroduced the Apagosterni. Hypothesis O 8 ( Fig. 8 ), proposed by Šilhavý (1961) , was a large step back, because it did not contain any branching information besides keeping the Dyspnoi. For this reason, it was heavily criticized by Shear (1975) . FIGURE 8. Hypothesis O8 of phylogeny of the Opiliones (Šilhavý 1961) . This author presented a hypothesis with very little information putting almost all groups as coordinate categories. Hypothesis O 9 ( Fig. 9 ), proposed by Martens (1980) , was the first cladistic analysis of Opiliones , representing a development of his earlier work ( Martens 1976 ). It was non-numerical, used only a few morphological characters, and did not use real outgroups. However, it represented an immense advance in relation to the status quo and because of its solid scientific content, was target to many critics (see for example extended criticism in Shultz 1998 : 257-258). Martens’ (1980) hypothesis resembled Mello-Leitão’s hypothesis O 7 in that it retrieved the Palpatores (there called “Cyphopalpatores”, because Palpatores was then held as a synonym of Plagiostethi) and the Apagosterni. FIGURE 9. Hypothesis O9 of phylogeny of the Opiliones (Martens 1980, morphological, non-numerical). By the end of the 20th century, the original concept of Palpatores was lost, so that a hypothesis recovering this clade received the new name Cyphopalpatores Martens. This was the first cladistic analysis of the Opiliones . Hypothesis O 10 ( Fig. 10 ) is the classic molecular hypothesis, defended in Shultz & Regier (2001) and Giribet et al. (2010). Also supported by the purely morphological analysis by Shultz (1998) , it resurrected the original Opiliones concept, by making the Cyphophthalmi the sister group of all other Opiliones (called “Phalangida” by Giribet et al. 1999 ). It also recovered the Palpatores and the Dyspnoi. FIGURE 10. Hypothesis O10 of phylogeny of the Opiliones (Shultz 1998, morph). This analysis recovered the old Sundevall’s concept ( Cyphophthalmi versus Phalangida), and Simon’s Plagiostethi (by then already universally called “Palpatores”). Within Palpatores, he recognized the Dyspnoi, burying the Apagosterni. Surprisingly, a molecular analysis by Shultz & Regier (2001, mol) recovered the same configuration. After some analyses which did not recover the Palpatores (see hypothesis K in Fig. 11 below), Giribet et al. (2010, mol) obtained the same pattern. Hypothesis O 11 ( Fig. 11 ) is recovered by the two only combined molecular + morphological analyses conducted so far ( Giribet et al. 1999 ; 2002 ), which recovered Lehtinen’s (1975) Phalangida (= Sundevall’s Opiliones ), and for the first time proposed a sister group relationship of the Eupnoi against the rest of Phalangida (named Dyspnolaniatores by Giribet), something hinted at by Lehtinen (1975) .