Xerosoma nannospinus, Engelking & Ghirotto & Crispino & Büscher & Heleodoro & Neves & Bispo, 2023

Engelking, Phillip Watzke, Ghirotto, Victor Morais, Crispino, Edgar Blois, Büscher, Thies H., Heleodoro, Raphael Aquino, Neves, Pedro Alvaro Barbosa Aguiar & Bispo, Pitágoras da Conceição, 2023, Fig. 23. Saiva formosana Kato, 1929, male genitalia. A in Lanternflies (Hemiptera: Fulgoridae) of Taiwan., Zoological Studies 62 (31), pp. 1-59 : 17-40

publication ID

https://doi.org/ 10.6620/ZS.2023.62-31

persistent identifier

https://treatment.plazi.org/id/CE5C794B-7C4B-FFD7-13F0-135E406E89E1

treatment provided by

Felipe

scientific name

Xerosoma nannospinus
status

 

Xerosoma canaliculatum Serville 1831 View in CoL ( Figs. 16–48 View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig )

Xerosoma canaliculatum Serville 1831 View in CoL (61); Gray 1835 (27); Serville 1838 [1839] (3) pl. 6, Fig. 3 View Fig ; Burmeister 1840 (40); Blanchard 1840 (18); Westwood 1859 (104); Stål 1875a (100); Kirby 1904 (416); Redtenbacher 1906 (9); Klante 1969 (3); Zompro 2004b (93); Otte and Brock 2005 (342); Araujo and Garraffoni 2012 (236); Delfosse et al. 2019 (193).

Dinelytron neptuna Kaup 1871 (41); Kaup 1871 (23); Kirby 1904 (414) [ Prexaspes neptunus View in CoL ]; Redtenbacher 1906 (131) [ Harupuna neptunus ]; Zompro 2001 (138), Fig. 13 View Fig [Harupuna neptuna ]; Zompro 2004b (93) [ X. canaliculatum View in CoL ].

Xerosoma senticosa Stål 1875a View in CoL (99); Kirby 1904 (416); Redtenbacher 1906 (144), pl. 5:10 [ X. senticosum View in CoL ]; Brock 1998 (57); Zompro 2004a (112) Otte and Brock 2005 (343); Araujo and Garraffoni 2012 (236). syn. nov.

Examined material: 1ñ (MNHN-EO-PHAS497): “ Brésil, 135” (holotype, examined by photo); 1ò ( MNHN) “ Brasilien ” (examined by illustration); 1ñ ( MNW 239): Brazil, Bahia, “ Xerosoma senticosa, Coll. Br. V. W., Coll. Sommer ” (holotype of Xerosoma senticosum , examined). 1ò ( MNW 7654): Brazil, Bahia, “Coll. Br. V. W., Coll. Sommer” (same coll. and locality as the holotype of Xerosoma senticosa , examined); 1ñ ( SMFD (examined by photo)): “ Brasilien ”; 1 egg ( HLDL (examined by illustration)); 1ò ( MZUSP 799): Brasil, Bahia, Parque Nacional do Pau Brasil, 16°28'24"S, 39°16'20"W, 18–19. XI.2016, P. I. Chiquetto‐Machado, J. P. Constantini, N. C. C. P. Barbosa. 2ò 1ñ ( MZUSP 751, 764, 845): Brasil, Espírito Santo, Reserva Biológica Córrego Grande, 18°14'32"S, 39°40'00"W, 20–21.XI.2016, P.

I. Chiquetto‐Machado, J. P. Constantini, N. C. C. P. Barbosa. 1ò 1ñ ( MZUSP 489, 490): Brasil, Minas Gerais, Parque Nacional do Caparaó, Núcleo Alto Caparaó, 20°25'10"S, 41°50'53"W, 30.xi-1.xii.2015, P. I. Chiquetto‐Machado, A. Z. Ramin, J. P. Constantini. 1ò ( MZUSP 851) Brasil, Rio de Janeiro, Parque Nacional de Itatiaia, 22°25'35"S, 44°37'05"W, 31.x-2.xi.2016, P. I. Chiquetto-Machado. 2ò ( MZUSP 1203, 1204): Brasil, Espírito Santo, Aracruz, Itaparica, 9–11.i.2019, E. B. Crispino, E. Travassos Júnior, P. W. Engelking, I. M. Cunha, S. Harumi. 5ò, 5ñ, eggs, nymphs ( MZUSP): raised in captivity by V. M. Ghirotto, origin: Brasil, Espírito Santo, Aracruz. 1ñ (last instar nymph) ( MZUSP 389): Brasil, Espírito Santo, Reserva Biológica de Sooretama, 19°03'15"S, 40°08'48"W, 24– 26.xi.2014, P. I. C. Machado, T. F. Carrijo, R. G. Santos; 2ò 1ñ ( INPA) Brasil, Espírito Santo, Reserva Vale, R. Heleodoro.

Type condition: ( Fig. 17 View Fig ). The type ñ is very well preserved. Ventrally, it is possible to see that the specimen had its abdomen filled with cotton through an incision, which made it impossible to see the preopercular organ. The wings are opened.

Remarks: Xerosoma senticosum (Stål, 1875) is solely represented by the female holotype, deposited in NMW ( Fig. 18 View Fig ). However, a male also from NMW from the same locality and collector label, highly likely from the same population as the X. senticosum holotype was also analyzed ( Fig. 19 View Fig ). The only observable difference of this material from most Xerosoma canaliculatum is the absence of the black longitudinal line on the head of the female. As this line appeared poorly marked in some X. canaliculatum female specimens, in addition to all other morphological characteristics matching those of X. canaliculatum , we synonymized Xerosoma senticosum (Stål, 1875) syn. nov. under Xerosoma canaliculatum . The etymology of X. senticosum was not given by Stål (1875a), however, the epithet likely comes from the Latin words “ sentis ” and “ cosa ”, which mean thorns and hip, respectively, probably referring to the “lateral projections on the last terga”, as mentioned by Stål (1875a). Based on current knowledge and considering that no voucher material was specified, we disregard Bradley and Galil’s (1977) record of X. canaliculatum from Costa Rica.

Diagnosis: Xerosoma canaliculatum differs from X. michaelis by the fully developed hindwings and the reduced spination on femora I –II. It differs from X. nannospinus sp. nov. by the flattened vertex, larger eyes, stronger spines, longer tegmina, longer wings, lateral terga projections more pronounced, presence of three apical projections on tergum X in ñ and broad projections on tergum X in ò, compressed gonapophysis in ñ, longer cerci in ò, flattened vomer in ò, longer eggs, and male genitalia with smaller dorsal sclerite basal projection, as the more schlerotized apical of dorsal sclerite.

Comments on the etymology: The etymology as given by Serville (1831) comes from the Latin word “ canaliculatum ”, which means small canal (canaliculus), referring to the marked longitudinal black line on the head.

Redescription (based on type and additional material).

Female: Total body size of 57–70 mm, winged ( Figs. 20–24 View Fig View Fig View Fig View Fig ). Measurements are given in table 4.

Head: ( Fig. 20 View Fig ). Elongate, sub-rectangular in dorsal view, and slightly longer than wide; length and width approximately the same as the prothorax. Vertex slightly convex, with a pronounced longitudinal blackened line (canaliculus), less marked in some few specimens, appearing only as a stain in northern populations or depressed into a sulcus on the posterior half in southern populations. Head with a pronounced pair of carinae basally and 8–10 small granules dorsolaterally. Eyes large, pronounced, slightly elongated, about a third the length of the head. Labial and maxillary palps elongated; when extended, the labial palp slightly exceeds the head, while the maxillary palp entirely exceeds the head. Clypeus convex, with two paramedian deep triangular depressions. Lacinia with three distal teeth; mesal edge bearing a restricted bundle of strong setae. Galea broad, spatulate, bearing rows of setae along the outer lateral and the anterior edge; inner laterally and slightly apical with two dense patches of elongate, stout microtrichia, ventralmost patch long, distributed along the edge of the galea, dorsalmost patch smaller, elliptical; between this patch and the lateral rows of setae on both surfaces, several distinct circular granules around the same diameter of the base of nearby setae. Galealobulus well developed, conical, but only gradually tapering, very elongated, almost as long as the galea. Left mandible with two cutting edges, dorsal undulate and blunt, ventral straight and slightly sharper; right mandible with dorsal cutting edge undulate and blunt, ventral blunter, almost entirely straight, except for a convexity basally; both mandibles with a dense row of large setae at the base of the dorsal margin; mesal surfaces smooth without protuberances. Antennae filiform, reaching tergum III; composed of about 30 antennomeres; covered with fine bristles; scapus compressed dorsoventrally, 1.3× longer than wide; pedicel cylindrical, slightly shorter than scapus; first flagellomere (third antennomere) about 2.2× longer than the pedicel. Antennal bump distinct, present on the 14th antennomere.

Thorax: (Fig. 21 A – C). Pro- and mesothorax subquadrate in cross section, with somewhat flat dorsal and lateral surfaces; ventrally bearing small, short setae. Prothorax about 1.7× longer than wide, slightly convex dorsally, with a central transversal groove; anterolateral margins slightly concave outlining the opening of the prothoracic glands. Pronotum bearing a pair of longitudinal, dorsolateral carinae, running from the gland openings and extending almost to the posterior margin, and bearing a pair of large, anteriorly pointed dorsal spines near the posterior margin, accompanied by smaller spines at their enlarged base. Small granules scattered on the dorsal surface and along the dorsolateral carinae of the pronotum. Profurcasternite slightly wider than long. Mesothorax in dorsal view slightly widening towards the posterior region. Mesonotum 1.8× longer than the pronotum, surface slightly rough, with a pair of longitudinal, dorsolateral carinae extending along the anterior two thirds, with a sparse row of 2 to 3 stout, short spines each. Mesepisternum with longitudinal carinae along the ventral margin; medially bearing large and short, stout rounded granules. Mesobasisterum with a longitudinal median carina. Metathorax and median segment smooth; combined length of both structures approximately 1.4× longer than the mesothorax. Metanotum parallel-sided, slightly longer than the mesonotum and 4–5× longer than the median segment. Metepisternum with a thick longitudinal carina along the ventral margin.

Wings: (Fig. 21D, E). Tegmina distinctly convex, 2.2× longer than wide, reaching tergum I, projecting dorsolaterally into large shoulder pads slightly pointing forward, venation pattern latticed. Costal area with Sc, R, Rs1, Rs2, and Ma veins reaching apical margin; Mp shorter, directed to the Cu margin. Anal area very reduced, A 1 short, following the Cu margin, spanning the first third of the length of the tegmina. Hindwings fully developed, reaching or exceeding tergum V. Costal area with Sc vein ending in C margin, spanning around 75% the total length of the costal area; veins R 1, Rs1, Rs2, Ma, and MP reaching the apical Cu margin. Anal area tesselate and fan-shaped, with 7 Aa veins and 8 Pa veins gradually decreasing in length.

Legs: ( Fig. 22 View Fig ). Femora and tibiae rectangular to trapezoidal in cross section, all carinae pronounced bearing one to three rows of short setae. Profemora with basal curvature and laterally compressed, bearing some small acuminate lobes in the ventral-posterior carinae. Area apicalis well developed, densely covered by setae. Tibiae slightly longer than the corresponding femora and 2.5× longer than the corresponding tarsi. Pro- and metabasitarsus slightly longer than the following two corresponding tarsomeres combined; mesobasitarsus relatively shorter, around the same length of the following two tarsomeres combined. Euplantulae strongly developed at the distal ends of tarsomeres 1–4, hemispherical and bilobed. Tarsomere 5 bearing an elongate accessory euplantula. Euplantulae covered with small conical protrusions (nubs). Praetarsus equipped with a large arolium and two curved claws without pectination.

Abdomen: ( Figs. 23 View Fig and 24 View Fig ). Approximately 1.2× longer than the combined length of the head, thorax and median segment. Dorsoventrally flattened, mainly towards the posterior margin, ventrally bearing short dark setae. Terga VIII–IX with a smooth medial hump near the posterior margin and X with a short and discrete carina near the posterior margin. Posterior margin of tergum X crenate. Sternum VIII (subgenital plate) barely reaching the median length of IX, slightly longer than wide. Epiprocts small, triangular, hidden under tergum X in dorsal view. Paraprocts wide, both briefly separated from each other near the posterior margin. Cerci clavate, apex conical. Praeopercular organ wide, short, shown as a wide elevation preceded by a slight, thin transversal depression and followed by a glabrous thicker depression continuous with the anterior margin. Gonapophyses VIII wide, conical in ventral view, not totally covered by the subgenital plate; surface similar to that of surrounding body areas and similarly bearing setae; gonapophyses IX fused with gonoplac for most of its length, then short, slightly thin, conical, shiny, bearing few setae apically, hidden from ventral view atop gonapophyses VIII and gonoplac. Gonoplac well developed, dorsoventrally flattened, surface similar to that of gonapophyses VIII, longer than both gonapophyses, apically elliptical. Gonangulum absent.

Variations: Some individuals presented a slightly longer and more acute subgenital plate, especially those from Espírito Santo and Bahia states (northern known range of the species) in comparison with those of São Paulo state in the southern range. The cerci also vary from more to less pointed. The holotype bears a slightly rounder cerci ( Fig. 17D View Fig ). The hindwings can be more or less marked with tessellate black stripes and vary slightly in length.

Color: Body mostly stained with irregular shades of brown, complemented by black and white spots and may have green, yellowish or reddish stains. Posterior region of the head, prothorax and mesothorax light brown or yellowish to creamish, lighter than the surrounding areas. Head may have a dorsal longitudinal black line; lateral region of the head, prothorax and mesothorax bearing a dark brown band. Metathorax dorsally black. Abdomen dorsally darker in the first 5 segments covered by the wings and laterally brownish; terga VII–VIII with lateral black spots. Antennae similar in color as the rest of the body, becoming lighter from the 7th antennomere. Costal area of tegmina irregularly brownish with lighter and darker spots and anal region with black spots; ventrally reddish basally. Hindwings with costal area similar to the tegmina and including a red stain basally; anal area with light, translucent cells centrally and near the costal area, area near veins brownish, veins dark brown to blackish. Legs in different shades of brown similar to the body, but with black spots mainly on the anterior femora.

Eggs: ( Figs. 25 View Fig , 26 View Fig ). As for the genus. Elongater than those of X. nannospinus . Micropylar plate rounded to rectangular or triangular. Capsule with medium size hairy setae, smaller than those of X. nannospinus .

Male: Body size of 53–67 mm, thinner, less rough, and less granulated than the female; fully winged ( Figs. 27–31 View Fig View Fig View Fig View Fig ). Measurements are given in table 4.

Head: ( Fig. 27 View Fig ). Similar to that of the female, except: with fewer and less pronounced granulations; eyes larger. Ocelli reduced; antennae longer, almost as long as the body; both maxillary and labial palps

D E

Fig. 21. Thorax and wings of ñ Xerosoma canaliculatum from Bertioga, São Paulo, Brazil. A: dorsal view. B: lateral view. C: ventral view. D: open wings in dorsal view. E: schematic drawing of wing venation. Abbreviations: C, costa vein; Cu cubitus vein; Sc, subcosta vein; R 1, radius 1 vein; Rs, radial sector vein; MA, media anterior vein; Mds, median segment; MP, media posterior vein; Mst, mesonotum; Mtt, metanotum; Pt, pronotum; Tg, tegmen; Wg, wing; 1 A, first anal vein; 1 AA –7 AA, first to seventh anterior anal veins; 1 PA –8 PA, first to fifth posterior anal veins. Scale bars = 1 cm.

more elongated; fewer setae on the mesal surface of the lacinia; galea shorter and thicker basally, with the area bearing the microtrichia projected ( Fig. 28E View Fig ); microtrichia of the galea similar, but with shorter patches than those of the female; galealobulus shorter and thicker. Antennal bump on the 13th antennomere.

Thorax: (Fig. 29). Similar to that of the female, except: thinner and more elongated; surface less

A B

granulated; ventral setae thinner, longer, and lighter in color; pair of spines on the pronotum thinner and bearing only few granules basally; profurcasternite longer than wide.

Wings: (Fig. 29). Similar to that of females, except: slightly elongated. Also presenting Rs subdivided into Rs1 and Rs2, reaching the tegmina apical costal area.

Legs: ( Fig. 30 View Fig ). Similar to those of the female,

E F G

except: slightly longer and more slender, profemora only gently compressed laterally with a weaker basal curvature. Tibiae slightly longer than the corresponding femora and 2.5× longer than the corresponding tarsi. Pro- and metabasitarsus slightly shorter than the respective following four tarsomeres combined; about the same length as the respective following three

A tarsomeres combined. Euplantulae strongly developed at the distal ends of tarsomeres 1–4, hemispherical and bilobed. Tarsomere 5 bearing an elongated accessory euplantula. Euplantulae covered with small conical protrusions (nubs). Praetarsus equipped with a large arolium and two curved claws without pectination.

Abdomen: ( Fig. 31 View Fig ). Dorsally glabrous under

D

wings and bearing keels in the posterior, exposed region, but in comparison to the female ventral setae are thinner and longer, light in color. Similar to that of the female, except: approximately 1.5× longer than the combined length of the head, thorax, and median segment; terga II– VI equal in length, parallel-sided, about 1.8× longer than wide; VII slightly shorter than VI; VII–X keeled, VII slightly longer than wide; VIII–IX slightly wider than long, convex; X slightly wider than long, slightly tapering from the mid-length to the posterior margin. Terga VIII–IX bearing a small medial round hump near the posterior margin pointing backwards. Cerci elongated, slightly flattened laterally from middle to apex. Thorn pads along the posterior ventral margin of tergum X with few short, strong dark thorns. Anterior portion of sternum IX short, not surpassing the posterior end of VIII; poculum (posterior portion of sternum IX) dorsoventrally flattened, posterior margin truncated.

Color: Similar to that of females, except: more frequently brown; fewer individuals greenish; mesonotum with a more contrasting wide, longitudinal beige band than that of the female.

Genitalia (phallic organ): ( Figs. 32–33 View Fig View Fig ). Dorsal sclerite elongated, bending towards the left; posterior margin from its wide attachment area connected to the dorsal wall of the body and continuing to the left, slightly curved towards the right side ( Fig. 33A View Fig ). Both the membrane covering the right side of the wall of the genitalia and the dorsal sclerite surface itself are dorsally covered with circular sclerotized granules. Longitudinal lobe with around three large folding parts ( Fig. 32B View Fig ). Great area of the longitudinal lobe in the central and right sides densely covered with minute, spiny conical setae ( Fig. 32L View Fig ), conferring a yellow appearance to the membrane in a cleared genitalia ( Fig. 32A–J View Fig ). Right side of the lobe basally bearing around a dozen large, straight, long bristles varying in size (similar to those in Fig. 32K View Fig ). Basal (left) lobe short and folding within the longitudinal lobe in untreated genitalia and before dissection ( Fig. 32M–P View Fig ), bearing around ten large, straight, long bristles (similar to those of the longitudinal lobe) of different sizes at the ventro-lateral right edge ( Fig. 32K View Fig ).

Nymphs: ( Fig. 34 View Fig ). First instar nymphs with proportionately large head, smooth body with only very few granules and scattered tiny dark bristles; body green with scattered small black spots and reddish eyes. Nymphs throughout ontogeny gain the adults usual brownish color and the rough and granulate surface with acute spines. Females take 6 instars to become adults, while males take 5 instars ( Fig. 35 View Fig ). Nymphs exhibiting sexual dimorphism since the first instar, males bearing a shortened sternum IX (poculum) and females with a shortened sternum VIII (subgenital plate) and budded gonapophyses and gonoplac, similar to Canuleius similis Redtenbacher 1906 ( Ghirotto 2021). Gonapophysis IX with the same size as other valves until subadult stage. First instar nymphs with four tarsomeres and inconspicuous euplantulae ( Fig. 36 View Fig ). Euplantulae of second instar nymphs larger and with four tarsomeres, but basitarsus showing a faint fissure. Nymphs from the third instar onwards with five tarsomeres. Euplantulae of all instars covered with a nubby microsculpture ( Fig. 36 View Fig ).

Natural history and biological aspects of Xerosoma canaliculatum

Geographic distribution: Xerosoma canaliculatum is recorded from five Brazilian states: Bahia, Espírito Santo, Minas Gerais, Rio de Janeiro, and São Paulo.

Habitat: Populations of Xerosoma canaliculatum a r e r e c o r d e d f r o m a l t i t u d e s r a n g i n g f r o m 1 4 meters above sea level (Bertioga, São Paulo state) to 1295 meters (Parque Nacional do Caparaó, Minas Gerais state). They inhabit distinct kinds of phytophysiognomies in the Atlantic Forest, such as Restingas Altas (coastal sandbank forests) ( Fig. 37 View Fig ), lowland ombrophilous forests, and submontane ombrophilous forests. In Bertioga, specimens were sighted from near the ground resting in the herbaceous stratum to the forest understory at 6 meters above the ground.

Ecdysis: ( Fig. 38 View Fig ). Reared individuals remained

D E

Fig. 29. Thorax and wings of ò Xerosoma canaliculatum from Bertioga, São Paulo, Brazil. A: dorsal view. B: lateral view. C: ventral view. D: open wings in dorsal view. E: schematic drawing of wing venation. Abbreviations: C, costa vein; Cu cubitus vein; Sc, subcosta vein; R 1, radius 1 vein; Rs, radial sector vein; MA, media anterior vein; Mds, median segment vein; MP, media posterior vein; Mst, mesonotum; Mtt, metanotum; Pt, pronotum; Tg, tegmen; Wg, wing; 1 A, first anal vein; 1 AA –7 AA, first to seventh anterior anal veins; 1 PA –8 PA, first to fifth posterior anal veins. Scale bars = 1 cm.

about 14 to 18 days in each instar. The duration of the ecdysis processes were approximately 30 minutes. During this process, it was possible for individuals to recover lost appendages ( Fig. 39 View Fig ).

Seasonality and longevity: This species appears to be perennial since individuals in all instars were observed during samplings in the rainy period. The lifespan of individuals in captivity and in a controlled

A B

environment ranged between 6 and 8 months, with around 3 to 4 months in the nymphal stage and 3 to 4 months in the adult stage. Egg incubation time was approximately 4 to 6 months.

Movement: This species is strictly nocturnal, remaining immobile during the day unless disturbed. Some individuals observed feeding or foraging at night were reencountered during daylight resting in situ ( Fig. View Fig

E F G

40) more than 2 meters away from the feeding site ( Fig. 40A View Fig ). Both in nature and in captivity, they rested during the day in different positions and on several parts of the plants, such as leaves, branches, trunks, dead leaves, or other plant material available ( Figs. 40 View Fig , 41 View Fig ). The most common resting position was with the first pair of legs extended concealing the head, the second pair usually facing forward, flexed at an angle of 45°, and

A the third pair extended very close to the abdomen. ( Figs. 40 View Fig , 44A View Fig ). During nocturnal activity most nymphs and adults hanged from the underside of leaves, while some adults, mainly males, were observed on the upper side of leaves, with some males eventually flying away.

Camouflage: Xerosoma are visually very similar to dry branches, exhibiting different patterns of colors to match their surroundings ( Fig. 42A–F View Fig ). During the

D

day, the insects tend to hide next to thicker branches or bark pieces when available, while at night individuals forage. Active individuals frequently stop moving when exposed to a flashlight. Specimens also vary in color according to the time of day or brightness of the environment, matching tones with their surroundings and perfecting their crypsis ( Fig. 42G, H View Fig ).

Secondary defense mechanisms: Nymphs mostly exhibit thanatosis when slightly disturbed, falling immobile to the ground with legs held close to the body. When intensely disturbed, i.e., grasped, nymphs always expel an irritating substance from their prothoracic glands. The substance is expelled in a microjet and quickly volatilizes ( Fig. 43D View Fig ). The smell is minty, sour in taste, and causes mild irritation in the airways when inhaled by a person, resulting in coughing or sneezing. Early-stage nymphs frequently autotomize legs when disturbed, probably to minimize damage from an attack ( Bedford 1978).

Adults bear red spots at the base of their wings, which can be opened as a deimatic display when they are disturbed. Males and females fully extend their wings, lift their bodies, and curve up their abdomen, while swaying from side to side or running away ( Fig. 43 View Fig ). The red color of the wing together with the black and white streak of the membranous area likely create an intimidating pattern of color and shape for visual predators. Whilst males were sometimes observed flying away when disturbed, females never tried to fly in response to a disturbance; but, they are likely to dampen a fall if dropped while running away (Video S 1).

Food plants: In situ, most specimens of Xerosoma canaliculatum were found in epiphytic Araceae plants, which are common in several Atlantic Forest areas, especially in the trunks of trees, in several distinct locations. Furthermore, whole generations could be bred with only Araceae as their food plant. In captivity, they fed well on several Araceae plant species (i.e., Monstera adansonii , Monstera deliciosa , Xanthosoma violaceum , Epipremnum aureum , Thaumatophyllum bipinnatifidum , Philodendron spp. , and others), but also accepted other plants such as the exotic Jalapa mirabilis and the Neotropical Bougainvillea glabra , both Nyctaginaceae , as well as the native Ludwigia sp. ( Onagraceae ) and Comelina spp. (Comelinaceae). To feed on the leaves, the insects chew from the outside to the inside along the leaf margin, in semicircles ( Fig. 34 View Fig ). They usually feed one to three times each night.

Mating behavior: While mating pairs were commonly observed in the rearing cage, only one courtship could be observed and filmed. When the male perceived the female, it moved back-and-forth palpating its partner with its antennae, palps, and abdomen. Then it twisted its abdomen to touch the female ventrally. These movements were alternate and were repeated a few times. The entire process took about one hour. The female eventually refused the male, pushing it away with its mid and hind legs (Video S 2).

When the male is accepted by the female, it uses its thorn pads to attach to the female’s preopercular organ. After fixation, the male extroverts its phallic organ which penetrates the female. This process always occurs at night, when individuals are active, but can extend into the day, with the mating pair remaining immobile ( Fig. 45 View Fig ). Males remain on the back of females throughout the entire process, which lasts about eight to ten hours.

In situ, adult males were observed flying, or about to fly, hanging on random plants, shaking their heads and antennae, probably trying to find a female.

Oviposition: The eggs of X. canaliculatum are glued to the substrate, close to food plants, and individually or most frequently in batches of 4– 14 eggs organized in two alternating rows ( Fig. 46 View Fig ). In captivity, each observed ñ laid around 100– 200 eggs. The female holds the eggs with the gonapophysis and presses them against the substrate with the cerci for some seconds, making slight lateral movements of its abdomen. A batch of seven eggs was glued in about 20 minutes. In Bertioga, an egg batch was spotted among roots of epiphytic plants in the bark of a tree bearing several Araceae food plants, where young nymphs were previously observed the night before ( Fig. 47 View Fig ).

Ecological relations: One ñ nymph in Bertioga at night was parasitized by a fly ( Forcipomyia sp. : Ceratopogonidae : Diptera ) attached to its antenna ( Fig. 48 View Fig ).

MNHN

Museum National d'Histoire Naturelle

V

Royal British Columbia Museum - Herbarium

W

Naturhistorisches Museum Wien

MZUSP

Museu de Zoologia da Universidade de Sao Paulo

P

Museum National d' Histoire Naturelle, Paris (MNHN) - Vascular Plants

I

"Alexandru Ioan Cuza" University

J

University of the Witwatersrand

N

Nanjing University

C

University of Copenhagen

A

Harvard University - Arnold Arboretum

Z

Universität Zürich

E

Royal Botanic Garden Edinburgh

B

Botanischer Garten und Botanisches Museum Berlin-Dahlem, Zentraleinrichtung der Freien Universitaet

M

Botanische Staatssammlung München

S

Department of Botany, Swedish Museum of Natural History

T

Tavera, Department of Geology and Geophysics

F

Field Museum of Natural History, Botany Department

R

Departamento de Geologia, Universidad de Chile

G

Conservatoire et Jardin botaniques de la Ville de Genève

INPA

Instituto Nacional de Pesquisas da Amazonia

NMW

Naturhistorisches Museum, Wien

MP

Mohonk Preserve, Inc.

MA

Real Jardín Botánico

AA

Ministry of Science, Academy of Sciences

PA

Universidade Federal do Oeste do Pará

VI

Mykotektet, National Veterinary Institute

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Phasmida

Family

Pseudophasmatidae

Genus

Xerosoma

Loc

Xerosoma nannospinus

Engelking, Phillip Watzke, Ghirotto, Victor Morais, Crispino, Edgar Blois, Büscher, Thies H., Heleodoro, Raphael Aquino, Neves, Pedro Alvaro Barbosa Aguiar & Bispo, Pitágoras da Conceição 2023
2023
Loc

Xerosoma senticosa Stål 1875a

Stal 1875
1875
Loc

X. senticosum

Stal 1875
1875
Loc

Dinelytron neptuna

Kaup 1871
1871
Loc

neptuna

Kaup 1871
1871
Loc

Xerosoma canaliculatum

Serville 1831
1831
Loc

Xerosoma canaliculatum

Serville 1831
1831
Loc

X. canaliculatum

Serville 1831
1831
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