Sphenarium rugosum Bruner 1906

Autor: Sanabria-Urb��n, Salom��n, Song, Hojun, Oyama, Ken, Gonz��lez-Rodr��guez, Antonio, Castillo, Ra��l Cueva Del
Rok vydání: 2017
Předmět:
DOI: 10.5281/zenodo.6029390
Popis: Sphenarium rugosum Bruner, 1906 (http://lsid.speciesfile.org/urn:lsid: Orthoptera.speciesfile.org:TaxonName:37030) Sphenarium barretti Bruner, 1906. Description. External morphology (Figs. 14 A, B, C; 9S, T; 15A, B, C, D): total body length ranging from 25.46 to 36.14 mm in females and from 19.8 to 35.07 mm in males; antennae filiform, slightly shorter in females or longer than head and pronotum together in males; head subtriangular-elongated nearly as wide as long in females or moderately longer than wide in males with oval eyes in both sexes; fastigium moderately elongated, nearly half the length of interocular space in both sexes; tegmina spatula-like in both sexes; subgenital plate of males rounded moderately developed posteriorly; dorsal ovipositor valves lanceolate moderately elongated towards the apex. Male genitalia: bridge of epiphallus moderately longer than the length of lateral plates (Fig. 13 D-I, G-I, J-I). Ectophallus in dorsal view (Fig. 13 D-II, G-II, J-II) with lateral borders of ramus convergent; basal emargination of cingulum moderately or not developed (morphotypes 1 and 3; Fig. 13 D-II, J-II, respectively) or notably developed (morphotype 2; Fig. 13 G-II); interspace between apodemal plates of cingulum moderately open (morphotypes 1 and 3; Fig. 13 D-II, J-II, respectively) or notably close (morphotype 2; Fig. 13 G-II). Ectophallus in posterior view (Fig. 13 E, H, K) without a conspicuous sclerotized hollow in the sheath; inflections of supraramus moderately developed with distal margins laterally or dorsally directed; valves of cingulum triangular to slightly quadrangular, relatively small (morphotypes 1 and 2; Fig. 13 E, H, respectively) or large (morphotype 3; Fig. 13 K), slightly developed posteriorly (Fig. 13 F, I, L). Endophallus in lateral view (Fig. 13 D-III, G-III, J-III) with elongated pseudoarch, loosely joined to the valves of cingulum; aedeagal valves moderately (morphotype 1; Fig. 13 D-III) or notably (morphotype 2 and 3; Fig. 13 G-III, J-III, respectively) broad, medium-sized (morphotype 1 and 3) or short (morphotype 2), with ventral margins smooth (morphotypes 1 and 2) or somewhat serrated (morphotype 3; Fig. 13 J-IV, arrow), broadly rounded apically (Fig. 13 E, I, K, arows); aedeagal valves and sclerites together varying from �� (morphotype 2; Fig. 13 G-III) to 1 �� (morphotypes 1 and 3; Fig. 13 D-III, J-III) fold the length of dorsal inflections of endophallic apodemes. Colouration. Ground colours vary from olive green to brown. Body uniformly coloured (Fig. 9 T; 15B, D) or with the following colour traits: antennae frequently black or dark brown; fastigium generally reddish; lateral postocular bands frequently present, wide and yellow; dorsomedial line frequently present, narrow and yellowish; dorsal shades often present, covering partially (Fig. 9 S) or entirely (Fig. 15 C) the dorsal part of the body, black to brown; lateral shades often present, black or dark brown, mostly evident in the abdomen (Fig. 9 S); lateral bands of blotches often present with distinct yellow colouration; ventral bands of pronotum often present and yellow; sometimes lateral carinas of pronotum highlighted with yellow (Fig. 9 S); mesonotum partially or entirely black; lateral blotches of 1st abdominal segment frequently present, whitish or yellowish; hind femora uniformly coloured or with upper medial area black and lower medial area yellowish: knees of hind femora laterally black, dorsally reddish; hind tibia frequently black. Diagnosis. Externally this species closely resembles S. macrophallicum, S. planum, S. tarascum sp.n., S. crypticum sp.n., and S. infernalis sp.n. Sometimes S. rugosum differs from all these species by its more conspicuous yellow colourations in the dorsomedial line, lateral carinas and lateral bands of blotches, in combination with darker dorsal colourations in the body (Fig. 15 C). Nevertheless, S. rugosum clearly differs from all these species by the following combination of male genitalia characters: lateral borders of ramus convergent, inflections of supraramus moderately to notably developed, and aedeagal valves moderately or notably broad, medium sized or small, broadly rounded apically. Distribution. This species is distributed in elevations ranging from 457 to 2344 m a.s.l. and is apparently confined to the eastern Balsas River Basin and the Sierra Madre del Sur in the Mexican states of Guerrero, Mexico, Michoacan, Morelos, Oaxaca, and Puebla (Fig. 7 A). The morphotype 1 of this species is widely distributed in the western portion of the Balsas River Basin; whereas the morphotype 2 is apparently restricted to inner slope of middle portion of the Sierra Madre del Sur (Fig. 7 A). The morphotype 3 is only known from three localities east of the middle portion of the Balsas River Basin (Fig. 7 A). Material examined. S. rugosum: lectotype m (Fig. 14 A) and paralectotype f (Fig. 14 B) from Mexico: Morelos, Cuernavaca, I-4-1899 (C. C. Deam); designation: Rehn and Hebard (1912); location: ANSP. S. barretti: lectotype m (Fig. 14 C), from Mexico: Guerrero, Rio Cocula, XII (O. W. Barrett); designation: Rehn and Hebard (1912); location: ANSP. We examined only external morphology of this type material. Additional material: 355 m, 201 f, from 80 localities (see Appendix Table 5). Taxonomic discussion. Bruner (1906) originally described this species based on one male and female syntypes from Cuernavaca, Morelos. He considered the dull granulose and pubescent surface of the type specimen of S. rugosum as the main evidence for separating this species from its congeners, though these traits are variable across the species and the genus. Bolivar (1909) and Hebard (1932) recognized S. rugosum as a valid species. M��rquez (1962) synonymized this species within S. purpurascens based on variable and ambiguous morphologic traits of the epiphallus and endophallus of both species. Later, Boyle (1974) and Kevan (1977) re-established S. rugosum as valid species based on more detailed analysis of its male genital morphology. Recent genetic studies (Pedraza-lara et al. 2015; Sanabria-Urb��n et al. 2015) have also supported the validity of S. rugosum. In this study we analysed several specimens of S. rugosum, some of them collected at or near the type locality of this species (L414, L435, L440, and L449; Appendix Table 5). Our phylogenetic analysis recovered S. rugosum as a paraphyletic species and we observed relatively low levels of genetic differentiation between S. rugosum and other morphologically different species including adjacent (S. crypticum sp.n., S. macrophallicum, S. purpurascens, and S. tarascum sp.n.) and distant taxa (S. minimum, S. variabile, and S. zapotecum sp.n.) (see Table 3). Nevertheless, the unique combination of morphologic traits, and restricted geographic distribution of this species supports its recognition as an independent species within the genus. Moreover, we observed considerable morphological similarity (externaly and in male genitalia), low genetic differentiation (CO1 P-distances S. rugosum and the putative new taxa Sphenarium sp. Gro1+Gro8 and Sphenarium sp.n. 6 recognized in Pedraza-Lara et al. (2015) and Sanabria-Urb��n et al. (2015) respectively. Therefore, we consider that these taxa represent part of the same species, S. rugosum (morphotype 2 and 3, respectively). Sphenarium barretti was originally described by Bruner (1906) based on an unstated number of specimens, from Rio Cocula, Guerrero. Bruner (1906) originally considered a closer relationship between S. barretti and S. purpurascens. Posteriorly, S. barretti was initially synonymised as S. purpurascens (M��rquez 1962) and later as S. rugosum (Boyle 1974; Kevan 1977). In this revision we examined several specimens collected near the type locality of this species (L428, L427 and L423; Appendix Table 5); which were similar in their male genitalia to other S. rugosum specimens (morphotype 1). Therefore, we agree in considering S. barretti as a synonym of S. rugosum.
Published as part of Sanabria-Urb��n, Salom��n, Song, Hojun, Oyama, Ken, Gonz��lez-Rodr��guez, Antonio & Castillo, Ra��l Cueva Del, 2017, Integrative taxonomy reveals cryptic diversity in neotropical grasshoppers: taxonomy, phylogenetics, and evolution of the genus Sphenarium Charpentier, 1842 (Orthoptera: Pyrgomorphidae), pp. 1-86 in Zootaxa 4274 (1) on pages 39-40, DOI: 10.5281/zenodo.804182
{"references":["Bruner, L. (1906) Insecta. Orthoptera. Vol. II. In: Godman, F. D. & Salvin, O. (Eds.), Biologia Centrali-Americana. R. H. Porter, London, pp. 199 - 207.","Rehn, J. A. G. & Hebard, M. (1912) Fixation of the single type (Lectotype) specimens of species of American Orthoptera. Proceedings of the Academy of Natural Sciences of Philadelphia, 64 (1), 60 - 183.","Bolivar, I. (1909) Orthoptera Fam. Acridiidae Subfam. Pyrgomorphinae. Genera insectorum, 90, 1 - 59.","Hebard, M. (1932) New species and records of Mexican Orthoptera. Transactions of the American Entomological Society, 58 (3), 201 - 371.","Marquez, C. (1962) Estudios de las especies del genero Sphenarium basado en sus genitalia (Acrididae; Orthoptera), con la descripcion de una nueva especie. Anales de Instituto de Biologia UNAM Serie Zoologia, 33, 247 - 258.","Boyle, W. K. (1974) A Revision of the Genus Sphenarium (Orthoptera: Pyrgomorphidae). McGill University, McGill, 214 pp.","Kevan, D. K. M. (1977) The American Pyrgomorphidae (Orthoptera). Revista de la Sociedad Entomologica Argentina, 36 (1 - 4), 3 - 28.","Sanabria-Urban, S., Song, H., Oyama, K., Gonzalez-Rodriguez, A., Serrano-Meneses, M. A. & Cueva del Castillo, R. (2015) Body size adaptations to altitudinal climatic variation in neotropical grasshoppers of the genus Sphenarium (Orthoptera: Pyrgomorphidae). Plos ONE, 10 (12), 1 - 24.","Pedraza-Lara, C., Barrientos-Lozano, L., Rocha-Sanchez, A. Y. & Zaldivar-Riveron, A. (2015) Montane and coastal species diversification in the economically important Mexican grasshopper genus Sphenarium (Orthoptera: Pyrgomorphidae). Molecular Phylogenetics and Evolution, 84, 220 - 231."]}
Databáze: OpenAIRE
Externí odkaz: