Pharaxonotha taylori Skelley and Tang, 2020
publication ID |
https://doi.org/ 10.5281/zenodo.5353903 |
publication LSID |
lsid:zoobank.org:pub:234F0CFB-B96E-4675-8F82-867EC8216ACB |
persistent identifier |
https://treatment.plazi.org/id/03FB8F0E-0E00-3D52-F890-3DA1CB23FEA5 |
treatment provided by |
Felipe |
scientific name |
Pharaxonotha taylori Skelley and Tang |
status |
sp. nov. |
Pharaxonotha taylori Skelley and Tang , new species
Figure 1A–J View Figure 1
Diagnosis. Pharaxonotha taylori is the smallest known member of the genus, length 1.67–2.08 mm. Other distinguishing characters include the pale brown body coloration; pronotum with basal lateral sulcus of disc indistinct to absent; pronotal hind angles and humerus of elytra rounded, lacking small denticle; narrowed protibia with straight apical margin bearing complete row of short stout spinules; male terminalia not distinctly dorsoventrally flattened; and known distribution in Panama on Zamia cunaria and Z. ipetiensis .
Description. Type series length 1.67–1.91 mm, width 0.60–0.72 mm. Body ( Fig. 1A–C View Figure 1 ) in dorsal view elongate, somewhat cylindrical, greatest width at middle of elytra; in lateral view weakly convex dorsally. General body color entirely pale yellow-brown; dorsal surface punctate, weakly alutaceous, shining and appearing glabrous, short procumbent hairs associated with punctation on pronotum and elytra, ventrally shining and appearing glabrous except mesoventrite and abdomen with short sparse procumbent setae.
Head. Not broad ( Fig. 1D–E View Figure 1 ), width = 0.75–0.80× pronotal width; in dorsal view conical, gradually narrowed anteriorly, surface flat to slightly convex, finely, moderately punctured, average distance between closest punctures 3–4× width of puncture; head width 0.40–0.49 mm; dorsal interocular distance 0.26–0.27 mm, head width/dorsal interocular distance ratio 1.55–1.91, ventral interocular distance 0.14–0.19 mm, head width/ventral interocular distance ratio 2.63–2.86. Eye with large black facets, about 2× diameter of head punctures. Antennal length slightly shorter than pronotal width, 1.2× head width; antennomere I (scape) fairly large, slightly elongate; antennomere II slightly larger than III; IV circular; IV–VIII small, equal in length, VII–VIII becoming slightly wider with flattened apex; club fairly large, IX and X similar in length; XI not enlarged, slightly longer than X, globular with rounded apex. Clypeus weakly concave anteriorly, moderately punctate. Transverse occipital line [vertexal line] distinct from eye to eye. Mentum and submentum coarsely punctured, distance between nearest punctures approximately 2–3× own diameter, each puncture with a short seta; submentum with weak medial depression visible on some. Gular area smooth, without punctation or setae, border with submentum marked by change in punctuation and with a shallow transverse depression.
Thorax. With pronotum transversely quadrate in dorsal view, length/width ratio 0.73–0.77; with distinct marginal carina laterally and basally, anteriorly with fine marginal carina medially; surface mostly convex, slightly flattened medially; anterior angles broadly rounded, not projecting forward; posterior angles rounded, lacking small denticle at angle; lateral margin evenly shallowly arcuate medially, more strongly anteriorly and posteriorly; posterior margin slightly projecting medially, projection beginning approximately by pair of small, dark pores in margin located 1/4 width from posterior angles, each pore marks base place where an indistinct sulcus may extend anteriorly onto disc at most 1/8 length of pronotum, sulcus usually lacking. Prosternum in ventral view convex, with few scattered punctures; anterior margin slightly emarginate, finely denticulate with row of long, anteriorly directed setae, longest setae approximately 1/3 length of eye; prosternal process convex apically, expanded and truncate at apex. Hypomeron laterally with few minute punctures, medially lacking distinct longitudinal striations. Scutellar shield distinctly transverse, posterior margin weakly roundly pentagonal. Elytra in dorsal view elongate, convex; length/width 1.66–1.78, greatest width near midlength; with distinct marginal line basally; 10 complete striae of moderate puncture size; scutellary striole extending 1/4 elytral length, with 10–15 punctures; punctures of elytral striae slightly larger than pronotal punctures, striae not impressed; intervals of striae with fine, shallow punctures, 1/2 size of strial punctures; all punctures of elytral bearing a single short seta; seta only visible in profile, extending slightly out of puncture. Mesoventrite with fine indistinct punctuation. Metaventrite glossy, with weak lateral punctation separated by 4–5× own diameter; medial surface indistinctly punctured; entire surface convex, metathoracic discrimen extending approximately 3/4 metaventrite length. Legs narrow, relatively similar in length and shape. Procoxa oval; mesocoxa globular; metacoxa transversely elongate-oval; trochanters obliquely truncate apically; femora weakly robust, moderately compressed laterally; tibiae shorter than femora, weakly widening to truncate apices; protibia with apical lateral tooth weak, with complete apical fringe of short spinules on straight ventral apical margin; meso- and metatibia with apical fringe of short spinules on anterior margin, finer setae on posterior margins.
Abdomen. Ventrite apical margin bearing short, sparse setae; all ventrites finely, sparsely punctate across surface, distance to nearest puncture approximately 4–5× diameter of puncture, punctures bearing mostly reclining setae; ventrite V with setae length nearly uniformly approximately 2× diameter of puncture; I–IV each with 2 or more median pairs of longer, semi-erect sensory hairs (difficult to see in poor lighting, often abraded). Male genitalia (n = 6) not distinctly dorsoventrally flattened, tegmen parallel-sided in dorsal view, parameres in dorsal view with asymmetrical apices; elongate cylindrical median lobe, and long coiled flagellum ( Fig. 1F–H View Figure 1 ).
Female. Similar to male, no sexual dimorphism observed. Genital tube elongate, length past abdominal segment VIII = 4× width (n = 6); gonostylus set apically on gonocoxite, gonostylus length = 4–5× width ( Fig. 1I View Figure 1 ). Spermatheca C-shaped, length> 4× width, base slightly swollen and smooth, apex annulated ( Fig. 1J View Figure 1 ).
Range. Known from eastern Panama in male cones of Zamia cunaria and Z. ipetiensis .
Material examined. Holotype (by designation) male of Pharaxonotha taylori with the following labels: 1) [rectangular; white; printed in black ink] “ PANAMA: Panamá Province, Llano Carti , 300–400 m asl, Nov-18-2000 or Sept-8,23-2004, A. Taylor, Vial #15, Zamia cunaria , wet, lowland tropical forest”. 2) [rectangular; red; printed in black ink] “ HOLOTYPE ♂ Pharaxonotha taylori Skelley & Tang 2020 ”. Deposited in the FSCA.
Allotype female and adult paratypes (n = 61): same data as holotype (allotype, 6 FSCA; 4 MIUP; 4 NHMUK); PANAMA: Panamá Province, Llano Carti, 300 m asl, Sept-2-2003, A. Taylor, #25, Zamia ipetiensis in population, of Z. cunaria , wet, lowland tropical forest” (4 ANIC; 3 FSCA; 4 USNM); same locality, 300-400 m asl, Sept-2-2003, A. Taylor, #5, Zamia ipetiensis in population, of Z. cunaria , wet, lowland tropical forest (1 FSCA; 4 NZAC; 4 STRI); same locality, ♂ bait cone Zamia ipetiensis ( Z. cunaria habitat), 26-VIII-2011, A. Taylor (21 FSCA); same province, Ipeti-Emberá, 200 m asl, Nov-18-2000 or August 12-2001, A. Taylor, Vial #21, Zamia ipetiensis , wet, lowland tropical forest” (6 FSCA). In Tang et al. (2020), these are presented on their tree as “D0063 Z. cunaria > PANAMA ”
Additional specimens studied but not included in type series: COLOMBIA: Chaco, near Quibdó, III-2009, M. Colonje, Zamia pyrophylla ♂ cones (4 FSCA). In Tang et al. (2020), this population is presented on their tree as “D0021 Z. pyrophylla > COLOMBIA”.
Etymology. Named to honor Dr. Alberto S. Taylor Blake for his many years of work on Zamia diversity, taxonomy, conservation and pollination biology in Panama, for providing many of the specimens studied here and having recently celebrated his 88 th birthday.
Remarks. The two recognized hosts of P. taylori , Zamia cunaria and Z. ipetiensis , occur within the same province of Panamá. Morphologically, these Zamia are separated by small differences in leaflet and cone characters ( Stevenson 1993) and a phylogenetic analysis of the genus Zamia , based on 10 genes and encompassing the majority of recognized species in the genus ( Calonje et al. 2019), indicate these two host species are closely related, although not identical. A preliminary cross-pollination experiment ( Taylor and Calonje 2015) using hand-pollination techniques suggests that some genetic reproductive barriers may exist between the two host species, however, the fact that Pharaxonotha beetles in Z. cunaria habitat are readily attracted to Z. ipetiensis bait cones ( Terry et al. 2012), reveals no reproductive barriers by the hosts to the beetles that inhabit their cones. Based on the information available we treat the beetles from these two host Zamia as a single species. Beetles collected on cones of Z. pyrophylla , a host that is restricted to Colombia, are morphologically similar, but tend toward a larger size range (body length = 1.98–2.07 mm, n = 4; vs. 1.67–2.08 mm) and exhibit some genetic difference with those from the Z. cunaria habitat ( Tang et al. 2018b, 2020). Although morphological and genetic analyses indicate that Z. pyrophylla belongs within the same host species group as Z. cunaria and Z. ipetiensis ( Calonje et al. 2010, 2019), its habitat is separated by some 400 km from the latter two species. Here, we treat these Colombian beetles as a potentially separate species from P. taylori and exclude them from the type series.
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