Euglossa (Euglossella) azurea Ducke

Euglossa (Euglossella) azurea Ducke View in CoL , reinstated name

( Figs. 16–24 View Figures 16–17 View Figures 18–24 , 145 View Figures 144–154 , 155 View Figures 155–163 , 165 View Figures 164–169 , 170 View Figure 170 )

Euglossa azurea Ducke, 1902a: 402 View in CoL [♂ ♀]. Lectotype ♂ (MPEG, visum).

Euglossa (Euglossella) jacquelynae Nemésio, 2007: 22 View in CoL [♂]. Holotype ♂ (BHMH, observed published images of holotype; two paratypes examined). New synonymy.

DIAGNOSIS: Labiomaxillary complex in repose reaching second metasomal sternum; upper and lower interorbital distances equal (at most marginally different) ( Fig. 18 View Figures 18–24 ); malar area short (less than 0.25 mm, noticeably shorter than diameter of mid-flagellar articles) ( Fig. 18 View Figures 18–24 ); pronotal dorsolateral angle projected as a lamella; male mesotibial tufts as follows: anterior tuft rhomboid, moderately long (maximum length not exceeding mid-width of velvety area) and narrow (mid-width equivalent to width of contiguous section of velvety area), posterior tuft circular-ovoid ( Figs. 19 View Figures 18–24 , 145 View Figures 144–154 ); mesobasitarsal posterior keel projected in a right to slightly obtuse angle ( Fig. 21 View Figures 18–24 ); second metasomal sternum with two simple meso-lateral tufts; metasoma as wide as head (if different, no more than 1.05 times) ( Fig. 16 View Figures 16–17 ); head mainly green with some blue areas ( Fig. 18 View Figures 18–24 ); paraocular marks trapezoidal, lower width about half length of lower lateral part of clypeus ( Figs. 17–18 View Figures 16–17 View Figures 18–24 ); scape with ivory spot covering almost entire anterior surface ( Fig. 18 View Figures 18–24 ); mesosoma (except mesoscutellum) mainly dark green with blue-purple intergradations and bronzy iridescence ( Figs. 16–17 View Figures 16–17 ), mesoscutellum blue-purple ( Fig. 23 View Figures 18–24 ); first to fourth metasomal terga blue/blue-purple, remaining terga progressively green ( Fig. 24 View Figures 18–24 ); mesoscutellum and central area of mesepisternum moderately punctate (punctures separated by one to two puncture diameters) ( Figs. 22–23 View Figures 18–24 ); metasomal terga densely and evenly imbricate-punctate ( Fig 24 View Figures 18–24 ); mesosoma vestiture dominated by pale-fuscous setae ( Figs. 16–17 View Figures 16–17 , 22–23 View Figures 18–24 ); eighth metasomal sternum posterior section very narrow as a slender cylinder; gonocoxite dorsal process about as wide as long ( Fig. 155 View Figures 155–163 ); gonostylar lateral section with posterior margin of basal sector not projected, covered with moderately-dense setae that reach posterior margin of blades of penis valve ( Fig. 165 View Figures 164–169 ).

DESCRIPTION: ♂: Structure. Total body length 10.19 mm (9.93–10.52; n=4); labiomaxillary complex in repose reaching anterior half of second metasomal sternum ( Fig. 17 View Figures 16–17 ). Head length 2.63 mm (2.59–2.67; n=4), width 4.42 mm (4.30–4.52; n=4); upper interorbital distance 1.95 mm (1.85–2; n=4); lower interorbital distance 1.93 mm (1.85– 1.96; n=4); upper clypeal width 1.08 mm (1.04–1.11; n=4); lower clypeal width 1.80 mm (1.70–1.85; n=4); clypeal protuberance 0.52 mm (0.44–0.59; n=4); clypeal ridges, labral ridges, and labral windows as described for E. viridis ; labrum wider than long, length 0.88 mm (0.85–0.92; n=4), width 1.01 mm (0.96–1.04; n=4) ( Fig. 18 View Figures 18–24 ); interocellar distance 0.31 mm (0.30–0.31; n=4); ocellocular distance 0.56 mm (0.52–0.59; n=4); first flagellar article longer [0.51 mm (0.46–0.56; n=4)] than second and third flagellar articles combined [0.36 mm (0.33–0.37; n=4)]; length of malar area 0.19 mm (0.17–0.19; n=4). Mandible tridentate. Pronotal dorsolateral angle projected posterolaterally as a truncate lamella; intertegular distance 3.22 mm (3.00–3.41; n=4); mesoscutal length 2.61 mm (2.48–2.67; n=4); mesoscutellar length 1.17 mm (1.11–1.19; n=4); posterior margin of mesoscutellum truncate along most of its length (laterally rounded) ( Fig. 23 View Figures 18–24 ); mesotibial length 2.08 mm (1.93–2.22; n=4); mesobasitarsal length 2.06 mm (1.96–2.22; n=4), width 0.66 mm (0.61–0.67; n=4) (measured at proximal posterior keel), posterior keel projected in a right to slightly obtuse angle with proximal margin (between mesotibia-mesobasitarsus joint and apex of keel) evenly convex ( Fig. 21 View Figures 18–24 ); metatibia triangular (scalene triangular) ( Fig. 20 View Figures 18–24 ), maximum thickness 1.33 mm (1.26–1.48; n=4); metatibial anterior margin length 3.37 mm (3.11–3.48; n=4), ventral margin length 2.28 mm (2.22– 2.30; n=4), postero-dorsal margin length 4.19 mm (3.93–4.44; n=4); metatibial organ slit as described for E. viridis , dorsal section length 0.59 mm (0.56–0.61; n=4); metabasitarsal length 1.91 mm (1.85–1.93; n=4), mid-width 0.79 mm (0.74–0.81; n=4); metabasitarsal ventral margin truncate. Forewing length 8.69 mm (8.52–8.89; n=4); jugal comb with 12–13 (n=4) blades; hind wing with 18–21 (n=4) hamuli. Maximum metasomal width 4.41 mm (4.22–4.52; n=4); second metasomal sternum as described for E. viridis .

Coloration. Head as described for E. viridis , except lower width of paraocular ivory marks slightly narrower in most specimens (about one half length of lower lateral part of clypeus, while in most specimens of E. viridis this width about two-thirds length of lower lateral part of clypeus) ( Figs. 17–18 View Figures 16–17 View Figures 18–24 ). Mesosoma, including legs, as described for E. viridis ( Figs. 16–17 View Figures 16–17 , 22–23 View Figures 18–24 ), except preomaular spot matte brown-purple, contrasting with metallic surroundings (in E. viridis preomaular spot with faint bronzy coloration). Metasoma as described for E. viridis with following remarks: First to fourth metasomal terga blue to blue purple with scarce green iridescence, especially on lateral margins (in most specimens examined for E. viridis blue purple coloration goes mainly from first through third metasomal terga, but refer also to Comments for that species, infra) ( Fig. 24 View Figures 18–24 ).

Sculpturing. Head as described for E. viridis ( Fig. 18 View Figures 18–24 ). Mesoscutum as described for E. viridis ( Fig. 16 View Figures 16–17 ); mesoscutellum with moderately dense punctures, also of two different sizes, major punctures slightly bigger than those on mesoscutum (increasing in size towards posterior margin), separated by about one puncture diameter on lateral thirds of mesoscutellar surface, sparser (separated by one to two puncture diameters) along mid-section (by comparison to E. viridis in which punctures are dense, i.e., contiguous, antero-medially) and near posterior margin, minor punctures about one-third size of major punctures and in a ratio of about one minor puncture per five major punctures ( Fig. 23 View Figures 18–24 ); mesepisternum similar to that of E. viridis , except punctures distinctively sparser (punctures separated by one or two puncture diameters) on middle area above upper limit of mesocoxal joint, remainder of mesosomal sclerites as described for E. viridis ; metatibia as described for E. viridis ( Fig. 22 View Figures 18–24 ); preomaular spot surface noticeably concave (in E. viridis preomaular spot rather even with surrounding integument). Metasomal terga as described for E. viridis ( Fig. 24 View Figures 18–24 ); sterna as described for E. viridis .

Vestiture. Head as described for E. viridis ( Fig. 18 View Figures 18–24 ). Mesosoma (including legs) as described for E. viridis ( Figs. 16–17 View Figures 16–17 , 20, 22–23 View Figures 18–24 ), except length of mesotibial anterior tuft not exceeding mid-width of velvety area, and mid-width of anterior tuft equivalent to width of contiguous velvety area ( Figs. 19 View Figures 18–24 , 145 View Figures 144–154 ). Metasoma as described for E. viridis ( Fig. 24 View Figures 18–24 ).

Terminalia. Seventh and eighth metasomal sterna as described for E. viridis . Gonocoxite as described for E. viridis ( Fig. 155 View Figures 155–163 ). Gonostylar lateral section with ventral lobe thumb-shaped, noticeably acute apically, basal sector adjacent to ventral lobe equivalent in width to ventral lobe, posterior margin straight, not projected (by comparison to E. viridis in which it is developed as a “secondary” lobe); ventral lobe with moderately-dense, light, simple setae mainly on outer surface (very few on inner surface, principally towards apex), basal sector with dense (not as dense as on “secondary” lobe of E. viridis ), fulvous, seta plumose in their apical halves, length of these setae reaching mid-section of blades of penis valve, not reaching their margin ( Fig. 165 View Figures 164–169 ). Spatha as described for E. viridis .

♀: See section on females of E. viridis / azurea (vide infra).

LECTOTYPE: ♂, Brazil: “ LECTOTIPO [red label] // Macapa; 9-11-1900; Ducke [handwritten] // Brazil ; Estado do; Pará [upside down] // Lectotype; Euglossa ♂; azurea Ducke ; J.S. Moure 1960 [species name and year handwritten]” ( MPEG).

ADDITIONAL MATERIAL EXAMINED (19♂♂): Brazil: 1♂, “Brasil. GO [Goiás]. Caldas; Novas; 18/11/2004; Augusto, S.C. col. // 12324 36326 // E. jacquelynae ; paratype ” (BHMH). 1♂, “Parque Nacional; Serra do Cipó; Salicilato; 12664-36988 // Jaboticatubas MG [Minas Gerais]; BRASIL 28/10/2005; R.A. Souza Salicilato // E. cfr. jacquelynae ; Nemésio det. 2007” (BHMH). 1♂, “Brasil. MG [Minas Gerais]. Uberlândia; PANGA; 20- IV-2004; Alvarenga, P. col. // 12333 36365 // COLECÃO EC; 162 // Salicilato de; metila // E. jacquelynae ; paratype ” (BHMH). 1♂, “BRAZIL: PARÁ; BELÉM, IPEAN [Instituto de Pesquisa Agropecuária do Norte]; 27 X/ 1968; R.L. Dressler; 1205 [day and last number hanwritten] // Skatole // Euglossa ; viridis (Perty) ; det. R.L. Dressler 196 // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (FSCA). 1♂, “M. Salicylate BRAZIL: PARÁ; BELÉM, IPEAN [chemical handwritten] // 30 VI 1971; H Kennedy // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (FSCA). 1♂, “Brasilien; Bahia; Gomez S. // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (FSCA). 1♂, “RO-8627; BRASIL, Rondônia; Rolim de Moura; Linha 192 // 26 Abr 97; 11°42.293’S 61°42.216’W; Brown, Boina, Vieira // Euglossa (Euglossella) ; viridis ( Perty, 1833) ; Det. M.L. Oliveira, 1999 // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (AMNH). 1♂, “RO-9893; BRASIL, Rondônia; Porto Velho; Estação Ecológica Cuniã // 23 Maio1999; 08°17’48.1”S 63°30’30.4”W; Brown, Boina, Vieira // Euglossa (Euglossella) ; viridis ( Perty, 1833) ; Det. M.L. Oliveira, 1999 // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (AMNH). 1♂, “RO-9258; BRASIL, Rondônia; Mirante da Serra; Linha 64 // 16 Maio 1997; 10°58’35.3”S 62°47’08.0”W; Brown, Boina, Vieira // Euglossa (Euglossella) ; viridis ( Perty, 1833) ; Det. M.L. Oliveira, 1999 // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (AMNH). 1♂, “RO-13898; BRASIL, Rondônia; Mirante da Serra; Linha 80 // 29 Agosto 1997; 11°06’46.3”S 62°51’03.6”W; Brown, Boina, Vieira // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (SEMC). 1♂, as previous except first number “RO-13899” (SEMC). 1♂, “BRAZIL, Mato Grosso:; Sinop, October 1976; M. Alvarenga // Euglossa (Euglossella) ; viridis ( Perty, 1833) ; det. J.S. Ascher // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (AMNH). 1♂, “2693 // MANAUS. AM; [illegible] 23/8/90; M.L. OLIVEIRA // viridis // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (DZUP). 1♂, “Roadside // Cerradão // BRAZIL, Mato Grosso; 12°50’S., 51°47’W.; 10 IV 1968; O.W. Richards [month and day handwritten] // E. ( Euglossella ); cfr. viridis ?; Det.J.S. Moure 1972 [mixed handwritten] // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det. I. Hinojosa-Díaz 2011” (NHML). French Guiana: 1♂, “FRENCH GUIANA; Kourou, Km. 17 SW.; 22 March 1977; D. Roubik, No. 115 [mixed handwritten] // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (SEMC). 1♂, “FRENCH GUIANA; Kourou (beach); 2 March 1977; C.D. Michener // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (FSCA). Venezuela: 1♂, “Venezuela Amazonas; El Infierno-Atures // Euglossa viridis ; (Perty); det. R.L. Dressler 1986 // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (AMNH). 1♂, “Carapito [Caripito]; Ven. [Venezuela, Monagas] Apr. 5 1940; B. Denton // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012 (USNM). 1♂, “[Venezuela, Amazonas] Río Cuao; 03 May 86; pdmb [handwritten] // Euglossa ; ( Euglossella ); azurea Ducke ♂; Det I. Hinojosa-Díaz 2012” (FSCA).

COMMENTS: As mentioned in the comments for E. viridis , there is strong superficial similarity between E. azurea and E. viridis , and in most collections specimens of E. azurea are understandably identified largely as E. viridis . The history of the recognition of E. azurea is certainly a reflection of this similarity. The species was first published in German by Ducke (1902a), while the intended initial description appeared later that same year in a Brazilian article (Ducke, 1902b). In both instances the species was described briefly with an emphasis on coloration, although Ducke did mention a few other morphological details. Hedicke (1936) and Moure (1960, 1967b) both viewed E. azurea as a junior synonym of E. viridis , and this perception remained as the valid view until the present study (e.g., Kimsey & Dressler, 1986; Moure et al., 2007). Moure (1967b) also designated a lectotype for E. azurea , which was examined during the course of our work, and is a male, and correctly listed as such in several catalogues ( Moure, 1967b; Kimsey & Dressler, 1986; Moure et al., 2007), despite Nemésio & Rasmussen (2011) referring to it as a female.

Nemésio (2007) described E. jacquelynae Nemésio from areas in south-central Brazil (states of Goiás and Minas Gerais), specifically mentioning its resemblance to E. viridis and E. cyanura . Moure et al. (2007) considered E. jacquelynae as a junior synonym of E. viridis , a conclusion with which we disagree. Nemésio (2007) was justified in his conclusion that E. jacquelynae was a species distinct from E. viridis and E. cyanura , and he rightly compared his type series with available material of both of the latter. However, given that Moure (1960, 1967b) had asserted E. azurea to already be synoymous with E. viridis, Nemésio (2007) apparently did not examine the lectotype of the former as part of that work. When we compared material of E. jacquelynae and E. azurea , including its lectotype, it is clear that the two are conspecific and we are confident that had Nemésio (2007) observed the lectotype of E. azurea he would have recognized his specimens as such as well as the error of previous authors’ synonymy. Although the holotype of E. jacquelynae was not available to us, we did have access to paratypes as well as the excellent photographs of the holotype (Nemésio, 2007, 2009) that depict clearly sufficient details to support the synonymy.

The features of coloration used by Ducke (1902a) in his original description of E. azurea attest to the fact that this species has for the most part a more extensive blue coloration on the metasoma than E. viridis . However, as mentioned before, although useful, the observed variation in color in both taxa makes this character insufficient and, when used alone, is unreliable. Nemésio (2007) also observed the metasomal terga coloration pattern when describing E. jacquelynae , and alluded to differences in the configuration of the paraocular marks and of the anterior mesotibial tuft to separate the species from E. viridis and E. cyanura . The latter species is distinguishable easily from either E. azurea or E. viridis by the sculpturing of the metasomal terga, aside from its restriction to Central America and southern Mexico. Euglossa azurea can be distinguished reliably from E. viridis based on various unambiguous characters, such as the paraocular marks, integumental sculpturing, and perhaps most definitively by traits of the midleg. The extension of the lower part of the paraocular marks, covering about two thirds of the length of the lower lateral part of the clypeus in E. viridis ( Fig. 3 View Figures 3–9 ), and about half the length of the same in E. azurea ( Fig. 18 View Figures 18–24 ). The sculpturing of the mesoscutellum and mesepisternum is distinctive in both species, as punctures are consistently denser in specimens of E. viridis ( Figs. 6–7 View Figures 3–9 ) when compared to those of E. azurea ( Figs. 22–23 View Figures 18–24 ), and this unambiguously separates these two species. The mesobasitarsal posterior keel is projected as an acute angle in E. viridis ( Fig. 8 View Figures 3–9 ), where it is right to slightly obtuse (or rather blunt) in E. azurea ( Fig. 21 View Figures 18–24 ). The shape and dimensions of the velvety area and the outer surface of the mesotibia seem to be at the extremes of the morphological variation observed in the viridis species group. On the one side E. viridis has a comparatively slender velvety area ( Fig. 144 View Figures 144–154 ), while E. azurea has the widest velvety area of all species in the group ( Fig. 145 View Figures 144–154 ). The relative size of the anterior mesotibial tuft aids in recognizing these differences when one compares its length to the mid-width of the velvety area and the tuft’s mid-width with the width of the contiguous section of the velvety area (refer to key to species, supra). The gonostylus of E. azurea is also distinctive from E. viridis , and although subject to some variation, is rath- er uniform among specimens, with the basal sector having a straight, non-projecting posterior margin instead of the noticeable “secondary” lobe present in E. viridis and all other species in the group. This entire suite of morphological features are important since both taxa are seemingly sympatric and very similar, almost cryptically so, at first glance. Additionally, no individuals of E. azurea were found with the extremes in coloration (e.g., either all green or bluish) that we observed for E. viridis . As for E. viridis , females of E. azurea cannot yet be identified unequivocally as belonging to this species and so they are treated in a separate account below (vide infra).

As noted, E. azurea is largely sympatric with E. viridis . Specimens were examined from Venezuela, French Guiana, and the northern, west-central, and southeastern regions of Brazil ( Fig. 170 View Figure 170 ).