Metabus, O.Pickard-Cambridge, 1899

METABUS View in CoL View at ENA O. P.- CAMBRIDGE 1899 ( FIGS 4B View Figure 4 , 61–65 View Figure 61 View Figure 62 View Figure 63 View Figure 64 View Figure 65 )

Type species: Metabus ocellatus ( Keyserling, 1864) . The syntype series of Tetragnatha ocellata consists of two males and seven females from Bogota ( Colombia), deposited at the Natural History Museum , London (examined) .

Diagnosis: Metabus species can be distinguished from all other tetragnathid genera by the following combination of characters: leg I more than four times the body length; femur IV without trichobothria ( Fig. 62C View Figure 62 ); epigynum flat, well sclerotized and with a rectangular atrium ( Fig. 63A, B View Figure 63 ); spermathecae weakly sclerotized ( Figs 63C View Figure 63 , 65C View Figure 65 ); fertilization ducts coiled over the copulatory ducts ( Fig. 63B View Figure 63 ); CEDP longer than half the cymbial width and parallel to the cymbium longitudinal axis; conductor longer than wide and apically projected ( Fig. 64B View Figure 64 ).

Description: Female: body length c. 14.0 mm. Cephalothorax fovea formed by two short transverse grooves ( Fig. 62A View Figure 62 ). Ocular area lower than carapace lateral margins ( Fig. 62F View Figure 62 ). Labium trapezoidal, wider than long and rebordered. Sternum longer than wide ( Fig. 62G View Figure 62 ). Anterior surface of chelicerae smooth; boss present ( Fig. 62E View Figure 62 ). Secondary eyes with canoe-shaped tapetum. Eyes subequal in size, lateral eyes slightly smaller, juxtaposed, and on a tubercle. Clypeus more than one AME diameter high. Abdomen covered with silver guanine patches. Booklung cuticle smooth ( Fig. 61B View Figure 61 ). Tracheal spiracle near the spinnerets, almost without accessory glands ( Fig. 61F View Figure 61 ). Median tracheae not ramified, with leaf-shaped tips and shorter than half the lateral tracheae length ( Fig. 61C–E View Figure 61 ). ALS with c. 70 piriform spigots. PMS with three aciniform spigots between the cylindrical and minor ampullate silk gland spigots but without any aciniform spigots over the anterior surface. PLS with c. 20 aciniform spigots roughly arranged in two parallel lines; distal end of the aggregate spigots embracing the distal end of the flagelliform spigot ( Álvarez-Padilla, 2007: fig. 9A–C). Epigynal plate flat ( Fig. 63A, B View Figure 63 ). Copulatory openings ventrally orientated with the shape of longitudinal grooves located under the atrial edges ( Fig. 65C View Figure 65 ). Spermathecae walls weakly sclerotized. Copulatory ducts more than half the spermathecae length but less than its total length, cuticle weakly sclerotized. Fertilization ducts well sclerotized, coiled around copulatory ducts ( Figs 63C–E View Figure 63 and 65C View Figure 65 ). Accessory glands ducts in individual pits, concentrated over spermatheca-fertilization duct junction ( Fig. 63C, F View Figure 63 ).

Male: size and somatic morphology similar to that of the female, except that legs I and II are considerably longer. Epiandrous plate well sclerotized, fusules immersed in a transverse groove with bases wider than fusule shaft. Posterior margin of the epiandrous plate thicker than the anterior margin ( Fig. 61G View Figure 61 ). PLS triplet reduced to nubbins ( Álvarez-Padilla, 2007: fig. 9D). Male palpal patella with one macroseta. Paracymbium hook-shaped, without apophyses and considerably shorter than cymbium length ( Fig. 64A View Figure 64 ). Tegulum roughly ovoid, with an ectal depression produced by the displaced subtegulum ( Fig. 64B View Figure 64 ). Conductor rigid, with sclerotized edges, although some parts are weakly sclerotized. Conductor-tegulum attachment membranous, originating at the ventral edge of the tegulum ( Fig. 65A, B View Figure 65 ). Embolus base rectangular, longer than wide ( Fig. 65A View Figure 65 ). Embolus flexible and weakly sclerotized. Sperm duct path convoluted, with several coils ( Fig. 65D View Figure 65 ).

Natural history: This genus includes four species with a Neotropical distribution. Metabus ebanoverde Álvarez-Padilla, 2007 , builds horizontal webs with open hubs, fewer than ten radii, and fewer than 20 spirals ( Fig. 4B View Figure 4 ), but other Metabus species seem to have denser webs ( Lopardo et al., 2004: fig. 16). Metabus ocellatus ( Keyserling, 1864) builds communal orb webs over ponds and shares a communal retreat during the night ( Buskirk, 1975a: fig. 1, 1986; Uetz & Craig, 1997). This communal behaviour has not been reported for any other species in the family. The web building behaviour of M. ocellatus was described by Eberhard (1982). The communal behaviour of M. ocellatus has been described and discussed by Buskirk (1975b).

Taxonomy: Metabus has recently been revised and its monophyly tested ( Álvarez-Padilla, 2007). Synapomorphies for Metabus include the conductor apex curved apically and the absence of trichobothria on the fourth femora. In that study Metabus was sister to a clade that included L. venusta and L. argyra ( Álvarez-Padilla, 2007: fig. 9B). Okileucauge Tanikawa, 2001 species are very similar to Metabus in their genital anatomy and somatic morphology, i.e. both genera lack femoral trichobothria. However, a previous phylogenetic analysis proposed that Metabus and Okileucauge were not sister taxa; instead Metabus was hypothesized to be sister to a clade that included Leucauge , Okileucauge , Tylorida , and Mesida ( Tanikawa, 2001; Fig. 8B View Figure 8 ). The morphology plus behaviour data set did not resolve Metabus sister taxa relationships with either Tylorida or Orsinome ( Fig. 143A View Figure 143 ). When these data are combined with DNA sequences Metabus come out as sister to a clade that includes Orsinome and Tylorida ( Fig. 144 View Figure 144 ).