RÜBSAAMEN (1907) : 111. Pseudophacopteron sp. ISAIAS et al. (2000) , CHRISTIANO (2002) CHRISTIANO et al. (2003) CAMPOS et al. (2010) , OLIVEIRA & ISAIAS (2010) OLIVEIRA et al. (2011) BURCKHARDT & QUEIROZ (2012) Descriptions of two new Pseudophacopteron species (Hemiptera: Psylloidea: Phacopteronidae) inducing galls on Aspidosperma (Apocynaceae) in Brazil Malenovský, Igor Burckhardt, Daniel Queiroz, Dalva L. Isaias, Rosy M. S. Oliveira, Denis C. Acta Entomologica Musei Nationalis Pragae 2015 2015-12-31 55 2 513 538 6WFDM Malenovský & Burckhardt & Queiroz & Isaias & Oliveira, 2015 Malenovský & Burckhardt & Queiroz & Isaias & Oliveira 2015 [370,740,275,299] Insecta Phacopteronidae Pseudophacopteron Animalia Hemiptera 3 516 Arthropoda species aspidospermi sp. nov.  ( Figs 1, 3, 5, 7, 9, 10, 12–16, 20, 21, 23, 25, 27, 29–35, 41–43)   “Psyllidengalle” [= psyllid gall]:  RÜBSAAMEN (1907): 111.    Pseudophacopteronsp.:  ISAIAS et al. (2000),  CHRISTIANO (2002),  CHRISTIANO et al. (2003),  CAMPOS et al. (2010),  OLIVEIRA & ISAIAS (2010),  OLIVEIRA et al. (2011),  BURCKHARDT & QUEIROZ (2012).   Type locality. Brazil, Minas Gerais: Belo Horizonte, Pampulha Campus of Universidade Federal de Minas Gerais, approx. 19°52′18″S, 43°52′00″W, 820 ma.s.l.  Type material.  HOLOTYPE: ♂,  BRAZIL: MINAS GERAIS:‘ Belo Horizonte, Pampulha Campus of Universidade Federal de Minas Gerais,  12 April 1998, on  Aspidosperma australe, J. C. S. Christianoleg.ʼ ( BMNH, dry-mounted).  PARATYPES:  BRAZIL: MINAS GERAIS: 4 ♂♂ 6 ♀♀, same data as holotype ( BMNH, MMBC, NHMB, dry- and slide-mounted);  3fifth instar immatures, same data but  17 June 2014;  2fifth, 3fourth and 3third instar immatures, same data but  3 July 2014;  5fifth instar immatures, same data but  10 September 2014, all R. M. S. Isaiasleg. ( MMBC, NHMB, slide-mounted and preserved in ethanol);  1 ♀, Lavras, 21°14′S 45°00′W,  900 m,  1–6 June 2010, D. Burckhardtleg. #1 ( NHMB, dry-mounted).   SANTA CATARINA: 1 ♂, Nova Teutonia,  6 August 1943, F. Plaumannleg.;  1 ♀, same data but  29 June 1943( BMNH, dry-mounted).  Additional material examined.   BRAZIL: RIODE JANEIRO: Tijuca,  July 1899, a twig of  Aspidosperma australewith galls on leaves(coll. E. H. Rübsaamen, ZMHB, dry herbarium sample, Figs 41–43).   Description. Adult. Coloration.Vertex dark brown with midline pale ochreous; genae, frons and clypeus uniformly dark brown ( Fig. 5). Pronotum dark brown with midline and lateral tubercles pale ochreous; mesopraescutum orange brown with anterior margin dark brown or entirely dark brown with a pale ochreous patch at base medially; mesoscutum orange brown to dark brown with four pale ochreous stripes; mesoscutellum pale ochreous to dark brown; pleural sclerites dark brown with pale yellow markings ( Figs 1, 3). Antenna off-white, segments 1–2 basally, segments 4–8 apically and segments 9–10 entirely dark brown ( Figs 1, 5, 25). Legs off-white to pale ochreous; profemur with a dark brown transverse streak basally ( Fig. 5), mesofemur with two dark brown streaks basally and subapically; metacoxa extensively dark brown on posterior and ventral margins, metafemur with a small dark brown patch on dorsal side subapically; metatibia with lateral and apical spurs dark brown; metatarsus infuscate ( Figs 5, 10). Fore wing membrane clear with indistinct light brown infuscations along veins Cu 1b and apex of Cu 1a; veins off-white with well-delimited dark brown to black spots on apices and forks of all veins except R 1, one medial spot on each R+M+Cu 1, apical portion of Rs, M 1+2, M 3+4 and Cu 1a, respectively, as well as two medial spots on anal vein ( Figs 1, 7). Hind wing membrane clear, vein C+Sc infuscate. Abdominal tergites orange brown, laterally and on posterior margin darker brown; sternites pale ochreous, dark brown laterally (especially on first visible sternite) to almost entirely dark brown ( Fig. 1). Male terminalia uniformly pale yellow; female terminalia ochreous, apex of female proctiger dark brown ( Fig. 1).  Morphology.Body with microsculpture, matt. Head, in frontal view, about twice wider than high ( Fig. 5). Vertex dorsally with raised median ridge and two lateral bulges on either side in front; median epicranial suture completely reduced; lateral ocelli lying on small tubercles slightly above the plane of vertex. Eyes hemispherical; occiput and anteoccipital sclerite narrow. Genae small, weakly swollen, tubercle below torulus small and acute ( Fig. 5). Antenna short, robust, serrate, segments strongly widening from base to apex ( Fig. 25); one large elliptic rhinarium subapically on each of segments 4–9; rhinaria bordered with wreath of long cuticular spines; terminal setae subequal, more than twice longer than segments 9 and 10 together ( Fig. 23). Fore wing ( Fig. 7) pyriform, apex broadly rounded; costal break situated in distal fifth of vein C+Sc; membrane with fields of sparse surface spinulation in all cells except c+sc, leaving wide spinule-free bands along veins. Mesotibia with a comb composed of five stout setae on outer side subapically. Metafemur relatively long and slender, medially distinctly constricted, with a row of several evenly short setae along ventral margin ( Fig. 10). Metatibia bearing open crown of ten tightly packed sclerotised spurs apically and two rows of seven and four similar, stout and sclerotised spurs laterally ( Figs 9, 10). Metabasitarsus about 1.5 times longer than broad, conical, lacking sclerotised spurs laterally ( Fig. 10). Abdominal tergites 3–4 with large dorsal tubercles ( Fig. 1). Male subgenital plate with dorsal margin slightly convex. Male proctiger relatively slender, cylindrical ( Fig. 14). Paramere shorter than proctiger; in lateral view, abruptly narrowing in apical fourth to a subacute apex; inner side bearing approximately 15 fine setae ( Fig. 15). Distal segment of aedeagus with long shaft, apical dilation relatively short and broad, hooked; sclerotised end tube of ductus ejaculatorius relatively long and sinuate ( Fig. 16). Female proctiger and subgenital plate with moderately long apical extensions covered with short and stout setae; dorsal margin of proctiger posterior to circumanal ring, in lateral view, strongly concave; circumanal pore ring with two rows of pores, pores of outer row contiguous; subgenital plate, in lateral view, with ventral margin convex, apex pointed ( Fig. 20); in ventral view, broadly rectangular basally, with a truncate apical extension ( Fig. 21). Dorsal and ventral valvulae lacking distinct lateral teeth ( Fig. 20).  Figs 1–6. Habitus of  Pseudophacopteronspp. 1, 3, 5 –  P. aspidospermi sp. nov., paratype female; 2, 4, 6 –  P. longicaudatum sp. nov., paratype female. 1, 2 – habitus, lateral view; 3, 4 – habitus dorsal view; 5, 6 – habitus, frontal view (red arrow: tips of genal tubercles).  Figs 7–8. Fore wings of  Pseudophacopteronspp. 7–  P. aspidospermi sp. nov.; 8 –  P. longicaudatum sp. nov.  Figs 9–13. Hind legs and eggs of  Pseudophacopteronspp. 9, 10, 12, 13 –  P. aspidospermi sp. nov.; 11 –  P. longicaudatum sp. nov.9 – detail of metatibia, inner side; 10, 11 – hind leg, inner side; 12, 13 – eggs on  Aspidosperma australe(reprinted from CHRISTIANO 2002, with permission). Scale bars: 9 – 0.01 mm; 10, 11 – 0.1 mm; 12 – 0.2 mm; 13 – 0.05 mm.  Figs 14–19.Male terminalia of  Pseudophacopteronspp.14–16 –  P.aspidospermi sp. nov.; 17–19 –  P.longicaudatum sp. nov.14, 17 – male terminalia outer face, lateral view; 15, 18 – paramere inner face, lateral view; 16, 19 – distal segment of aedeagus, lateral view. Scale bar: 14, 17 – 0.1 mm; 15, 16, 18, 19 – 0.05 mm.  Figs 20–26. Female terminalia and antennae of  Pseudophacopteronspp.20, 21, 23, 25 –  P. aspidospermi sp. nov.; 22, 24, 26 –  P. longicaudatum sp. nov.20, 22 – female terminalia with details of circumanal pore ring and dorsal and ventral valvulae, lateral view; 21 – female subgenital plate, ventral view; 23, 24 – antennal segments 9 and 10; 25, 26 – antenna. Scale bar: 20–22 – 0.1 mm; 23, 24 – 0.025 mm; 25, 26 – 0.05 mm.  Measurements and ratiosin Table 1.  Fifth instar immature( Fig. 27). Uniformly pale yellow, eyes grey. Body dorsally flat, ventrally strongly inflated. Body outline broadly ovoid, with convex lateral margins. Whole dorsal surface almost evenly covered with coarse microsculpture consisting of densely arranged small irregular (more or less round or square) cuticular granules; one larger quadrate cuticular scale on first visible abdominal tergite at posterior margin of hind wing pad on each side of midline. Whole body margin with pointed lanceolate setae in following numbers (one side only): head in front of insertion of antenna: 6–8, cephaloprothorax behind eye: 8–11, fore wing pad: 26–34, hind wing pad: 7–8, abdomen: (5–6) + (31–36); lanceolate setae absent from body dorsum except for a group of ca. 20 submarginal setae on each side of midline in subapical area of caudal plate. Antenna inserted on ventral side, oriented obliquely outwards and backwards over the body, extending beyond eye, gradually narrowing to a pointed apex, lacking distinct divisions and bearing two rhinaria posteriorly. Tarsal arolium membranous, hardly visible on slide-mounted specimens, sessile, pad-like, small, extending approximately to half of length of claws. Abdomen dorsally with four large free sclerites and caudal plate (incompletely fused in some specimens); caudal plate margin broadly rounded. Anus small, rhomboid, in ventral position. Circumanal ring moderately large, with fore and hind margins close together; outer ring composed of a single row of pores, hardly sinuate laterally. Measurements and ratios in Table 2.  Egg( Figs 12, 13). Elongate, ca. 0.25 mm long, asymmetrical with subacute apex and reticulated surface.   Diagnosis.Adults of  Pseudophacopteron aspidospermi sp. nov.are similar to  P. longicaudatum sp. nov.in size and the absence of sclerotised lateral spurs on the metabasitarsus (the latter are well-developed in all other described Neotropical species of the genus).  Pseudophacopteron aspidospermidiffers from  P. longicaudatumas well as from all the other known Neotropical  Pseudophacopteronspeciesin the robust antenna with very long terminal setae (more than twice longer than antennal segments 9 and 10 together), the dark coloured spurs on the metatibia, as well as the shape of the paramere, aedeagus and the female terminalia. It also differs from  P. longicaudatumin the generally darker coloration of the body, particularly the head, the absence of oval light brown infuscations on the fore wing membrane on the apices of veins Rs, M 1+2, M 3+4 and the touching point of Rs and M 1+2, the smaller number of small dark brown spots on fore wing veins, the relatively broader fore wing with shorter apical section of Rs, the larger distance between apices of Rs and M 1+2, and the smaller (narrower) cell cu 1 of fore wing. The fifth instar immature of  P. aspidospermigenerally resembles other  Pseudophacopteronspp.living in intralaminar galls (see the Discussion). It is similar to  P. longicaudatumin the unsegmented antenna oriented backwards and outwards over the body, the coarse microsculpture of the body dorsum, the presence of pointed lanceolate setae along whole body margin, and the structure of the circumanal pore ring. It differs from  P. longicaudatumin the shorter and relatively broader body, the more evenly shaped and distributed granulous microsculpture on whole body dorsum, the more numerous and densely arranged lanceolate setae on the wing pad margins, the lack of isolated lanceolate setae on the abdominal dorsum, the presence of submarginal groups of lanceolate setae on the caudal plate subapically, the longer and less robust antenna, the larger circumanal pore ring, and the smaller tarsal arolium. Another species with similar fifth instar immatures are  P. electumCapener, 1973and  P. sodalis Malenovský & Burckhardt, 2009from Africa with which  P. aspidospermishares similar body shape, antenna, circumanal pore ring and pointed lanceolate setae on body margin but differs in the arrangement of the latter (both Afrotropical species lack the subapical groups of setae on caudal plate;  P. electumalso completely lacks lanceolate setae on cephaloprothorax and wing pad margins) and some other details ( MALENOVSKÝ et al. 2007, MALENOVSKÝ & BURCKHARDT 2009). The only other Neotropical species of the genus with described fifth instar immatures,  P. punctinervis Brown & Hodkinson, 1988, associated with  Protium tenuifolium(Burseraceae)and known from Panama, differs from all the aforementioned species in the shape of the marginal lanceolate setae which are truncate, and the obliquely forwards-directed antenna with 3–5 indistinct divisions ( BURCKHARDT & BROWN 1992).   Etymology.Derived from the host plant genus  Aspidosperma; noun in genitive case.   Host plant and biology.Inducing intralaminar lenticular galls ( sensu ISAIAS et al. 2013) on the leaf lamina of both young and mature leaves of  Aspidosperma australeMüll. Arg. (Apocynaceae)( Figs 29, 30). Mature galls are green, glabrous, forming a slight projection of the adaxial surface and a more prominent projection of the abaxial surface of its host leaf, 5.0 ± 0.5 mm wide, with a central inner chamber lined with wax and enclosing one individual of  P. aspidospermifrom the first immature instar until the adult stage ( Fig. 31–35). The gall is parenchymatic, with vascular tissues only at the top of the chamber, which is permanently opened through an ostiole to the abaxial leaf surface. Two tissue zones, an inner cortex, around the inner chamber, and an outer cortex with larger cells, can be distinguished within the gall ( ISAIAS et al. 2000, CHRISTIANO 2002, CHRISTIANO et al. 2003, OLIVEIRA & ISAIAS 2010, OLIVEIRA et al. 2011). Feeding of  P. aspidospermiimmatures alters the metabolism of the host plant during the gall development, particularly in both reserve substances (storage of starch in cells close to the inner chamber) and enzyme activity (related to carbohydrate metabolism and reactive oxygen species production), even though a nutritive tissue per seis not differentiated ( CAMPOS et al. 2010, OLIVEIRA & ISAIAS 2010, OLIVEIRA et al. 2011). Senescent galls open with a wide aperture on the gall surface ( CAMPOS et al. 2010; Fig. 43). The galls can be frequent and numerous on the host; there are 5.35 ± 4.97 (mean ± standard deviation, n = 204) galls per leaf ( FERNANDES et al. 1988). Developing galls were observed over the entire year, indicating  P. aspidospermiis a multivoltine species ( CAMPOS et al. 2010). In 2006, the highest percentage (80 %) of galled leaves was recorded in December, after the peak of leaf flushing, which occurred in September and when most galls were concomitantly induced on the young leaves. However, another peak of occurrence of galled leaves (77 %) occurred in July 2007, independently of new leaf production, which indicates  P. aspidospermimight use mature leaf tissues as alternative oviposition sites ( CAMPOS et al. 2010).   Distribution. Brazil( Minas Gerais, Rio de Janeiro, Santa Catarina). The host plant,  Aspidosperma australe, is widely distributed in the Midwest, Southeast and South of Brazil(Distrito Federal, Goiás, Mato Grosso, Mato Grosso do Sul, Minas Gerais, Rio de Janeiro, São Paulo, Paraná, Rio Grande do Sul, Santa Catarina), Bolivia, Argentina( Corrientes, Misiones), and Paraguay( HASSLER 2014). 3744192301 on Aspidosperma australe 1998-04-12 BMNH J. C. S. Christiano Brazil Pampulha Campus of Universidade Federal de Minas Gerais Belo Horizonte 3 516 1 1 MINAS GERAIS holotype 3744192315 on Aspidosperma australe 1998-04-12 BMNH, MMBC, NHMB J. C. S. Christiano Brazil MINAS GERAIS Belo Horizonte 3 516 10 6 4 MINAS GERAIS paratype 3744192302 [113,572,569,588] on Aspidosperma australe 2014-06-17 J. C. S. Christiano Brazil MINAS GERAIS Belo Horizonte 3 516 3 MINAS GERAIS paratype 3744192313 on Aspidosperma australe 2014-07-03 J. C. S. Christiano Brazil MINAS GERAIS Belo Horizonte 3 516 8 MINAS GERAIS paratype 3744192312 on Aspidosperma australe 2014-09-10 MMBC, NHMB R. M. S. Isaias Brazil MINAS GERAIS Belo Horizonte 3 516 5 MINAS GERAIS paratype 3744192305 on Aspidosperma australe 2010-06-01 2010-06-06 2010-06-01 NHMB D. Burckhardt Brazil 900 -21.233334 Lavras 1264 -45.0 Lavras 3 516 1 1 1 MINAS GERAIS paratype 3744192317 [348,959,644,669] 1943-08-06 F. Plaumann Brazil Nova Teutonia Nova Teutonia 3 516 1 1 SANTA CATARINA 3744192304 1943-06-29 BMNH 3 516 1 1 3744192318 1899-07 ZMHB E. H. Rubsaamen Brazil a twig of Aspidosperma australe with galls on leaves Tijuca 3 516 1 RIO DE JANEIRO