Rosalba Thomson, 1864

Rosalba Thomson, 1864 View in CoL

Rosalba Thomson, 1864: 108 View in CoL ; Monné, 2018: 418 (cat.).

Apyratuca Galileo & Martins, 2006: 13 View in CoL ; Monné, 2018: 394 (cat.). Syn. nov.

Galileo & Martins (2006) described Apyratuca View in CoL as follows (translated): “Body elongated, integument without setae. Antennal tubercles slightly elevated and distant from each other. Eyes not divided, coarsely granulated; lower eye lobes four times as long as genae. Upper eye lobes separated by distance equal to three ommatidia.Antennae 11-segmented, filiform, reaching elytral apex at apex of antennomere IX. Scape subcylindrical, longer than antennomere III. Antennomere III slightly shorter than IV. Prothorax wider than long; sides slightly rounded, without tubercle or spine. Pronotum convex. Prosternal process regularly curved. Mesoventrite without tubercle. Metasternum not shortened. Mesocoxal cavities open. Elytra with sides parallel up to distal third, then noticeably narrowed toward apex; elytral apex projected in long and single spine. Femora fusiform. Mesotibiae deeply sulcate at distal half.” Then, they provided the following remarks on the genus (translated): “ Apyratuca View in CoL gen. nov. is similar to Pseudepectasis Breuning, 1940 View in CoL , but differs by the eyes not divided, with lower eye lobes very large (as long as four times genal length); by the antennomere III as long as IV, and by the elytra without tubercles and with the apex acuminate. In Pseudepectasis View in CoL , the eyes are divided, the lower eye lobes have length smaller than twice genal length, the antennomere III is distinctly shorter than IV, the elytra have tubercles, and the elytral apices are strongly oblique with outer spine. Also, by the description ( Breuning, 1971: 205), should be similar to Tucumaniella Breuning, 1943 View in CoL , which we do not know. Apyratuca View in CoL gen. nov. differs by the antennae longer than body; by the scape short and cylindrical; by the antennomere III as long as IV; by the antennal tubercles not projected, and by the elytral apex acuminate. In Tucumaniella View in CoL , the antennae are 1.5 times longer than body, the scape is clavate and longer; the antennomere III is distinctly longer than IV, the antennal tubercles are very elevated, and the elytra are widely rounded at apex.”

All features pointed out as distinctive to Apyratuca are present in the known species of Rosalba . Even the acuminate elytral apex is similar to that of Rosalba incrustabilis Galileo & Martins, 2006 , a species described in the same work as Apyratuca . The length of the genae and lower eye lobes, distance between upper eye lobes, and antennal length are highly variable in Rosalba , again, not allowing separation between this genus and Apyratuca .

Although Galileo & Martins (2006) did not mention the position of the head in relation to the body axis, they interpreted it as being not retractile. This can be inferred from the comparisons established by them: Pseudepectasis and Tucumaniella . Breuning (1971) separated Rosalba from Pseudepectasis and Tucumaniella in the alternative of couplet “13) of his key (translated): “– Head retractile,” leading to Rosalba ; and “– Head not retractile,” leading to Pseudepectasis and Tucumaniella . However, the head in the type species of Apyratuca , A. apiculata Galileo & Martins, 2006 ( Fig. 1 View FIGURES 1–8. 1 ), is retractile.

Audureau (2016) described a second species in Apyratuca and commented (translated): “This species [ A. bicolor ] is next to Apyratuca apiculata Galileo & Martins, 2006 . It differs especially by the eyes that are contiguous instead of separated by the width of three ommatidia. The elytral apex is also different, straight in A. apiculata , while it is curved laterally in A. bicolor . In addition to its color, the elytral depression allows differentiation. Perhaps a new genus should have been described in order to place this new species. I prefer to keep A. bicolor in the Apyratuca as the two species of the genus were described from a single specimen.” We did not see any feature allowing separation of A. bicolor from Apyratuca and thus, from Rosalba .

Accordingly, Apyratuca is synonymized with Rosalba , with consequent new combinations for two species: Rosalba apiculata , and R. bicolor Audureau, 2016 .