RESUMO

Males can control female reproduction using genital plugs to impede access by rivals. In social bees, ants, and wasps, plugging may involve traumatic mating, with females being harmed. In stingless bees, chances are that plugs may promote ovarian activan, and are thought to ensure single mating-a general tendency among the social Hymenoptera. However, understanding on relationships between mating plugs, traumatic mating, and mating systems in stingless bees remains limited. To address this, we (1) compared mated queens of 7 Neotropical species to understand the patterns of copulatory marks in females and (2) compared pre- and post-mating genitalia of males and females in Melipona fasciculata to depict plug functional morphology. Data revealed an unprecedented consequence of mating in stingless bees: the characteristic marks left by mating plugs on female abdomens and the inferences that can be made from them. To our surprise, in 1 species M. fasciculata we found that queens retain the plug long after mating, and may carry it for the rest of their lives. All the other 6 species retained the plug for only a short period. Remated queens were only found in M. seminigra, whose multiple copulatory marks match previous findings of polyandry in this species. Our study shows that queens can remate, and suggests that male genital morphology may determine in part the time persistence of plugs. We conclude that traumatic mating plugs do not fully prevent remating in stingless bees and that mating systems are not uniform in this group. Nonetheless, exceptional cases of facultative polyandry in social insects-for example, when mating plugs fail-may confirm a general tendency for single mating in close link with efficient mating plugs.

RESUMO

BACKGROUND: The largest number of species of the widespread and highly diverse micromoth genus Ypsolopha Latreille, 1796 (Lepidoptera, Yponomeutoidea, Ypsolophidae) is known from the Northern Hemisphere. Only seven species have been described from the Neotropical Region, two of which occur in Chile. NEW INFORMATION: The adult stage of Ypsolophachicoi sp. n. from the arid highlands of the western slopes of the Andes of northern Chile is described and illustrated. Its larvae feed on the native shrub Muehlenbeckiafruticulosa (Walp.) Standl. (Polygonaceae). The morphology of the genitalia of Y.chicoi sp. n. resembles that of the only congeneric known to occur in the same geographic area, Y.moltenii Vargas, 2018, whose larvae feed on Adesmiaverrucosa Meyen (Fabaceae). Besides using different host plants, the two species can be accurately separated, based on morphological differences in female and male genitalia.

RESUMO

In this study, two new genera of Desmiphorini (Lamiinae) are proposed: Cleidaria gen. nov., to include Cleidaria cleidae sp. nov. from the state of Chiapas in Mexico, and Obscenoides gen. nov. for Desmiphora (D.) compta Martins & Galileo, 2005. The shape of tarsal claws of Cleidaria cleidae sp. nov. (abruptly narrowed from basal half) is so far, not found in any current genera of the tribe. With respect to Obscenoides compta (Martins & Galileo, 2005) comb. nov., the genitalia of males have an unusual shape with non-retractile parameres. The character combination related to this genital structure is unknown to us in other species in the family, and hypotheses about its function are suggested.

Assuntos

Animais , Besouros/anatomia & histologia , Besouros/classificação , Genitália/anatomia & histologia , Classificação/métodos

RESUMO

In this study, two new genera of Desmiphorini (Lamiinae) are proposed: Cleidaria gen. nov., to include Cleidaria cleidae sp. nov. from the state of Chiapas in Mexico, and Obscenoides gen. nov. for Desmiphora (D.) compta Martins & Galileo, 2005. The shape of tarsal claws of Cleidaria cleidae sp. nov. (abruptly narrowed from basal half) is so far, not found in any current genera of the tribe. With respect to Obscenoides compta (Martins & Galileo, 2005) comb. nov., the genitalia of males have an unusual shape with non-retractile parameres. The character combination related to this genital structure is unknown to us in other species in the family, and hypotheses about its function are suggested.(AU)

Assuntos

Animais , Besouros/anatomia & histologia , Besouros/classificação , Genitália/anatomia & histologia , Classificação/métodos

RESUMO

Abstract In this study, two new genera of Desmiphorini (Lamiinae) are proposed: Cleidaria gen. nov., to include Cleidaria cleidae sp. nov. from the state of Chiapas in Mexico, and Obscenoides gen. nov. for Desmiphora (D.) comptaMartins & Galileo, 2005. The shape of tarsal claws of Cleidaria cleidae sp. nov. (abruptly narrowed from basal half) is so far, not found in any current genera of the tribe. With respect to Obscenoides compta (Martins & Galileo, 2005) comb. nov., the genitalia of males have an unusual shape with non-retractile parameres. The character combination related to this genital structure is unknown to us in other species in the family, and hypotheses about its function are suggested.

RESUMO

BACKGROUND: A series of databases is being prepared to list the valid species of Opiliones worldwide. This paper containing nomenclatural acts is meant to accompany Part 2, which includes the members of the infraorder Grassatores of the superfamilies Samooidea and Zalmoxoidea plus the Grassatores currently not allocated to any family (i.e. Grassatores incertae sedis). NEW INFORMATION: The following 32 taxonomic changes are proposed here: (1-3) The Afrotropical genera Hovanoceros Lawrence, 1959, Malgaceros Lawrence, 1959 and Tetebius Roewer, 1949 (all currently in Samoidae) are all newly transferred to Biantidae. (4-5) Microminua soerenseni Soares & Soares, 1954, from Brazil is newly transferred to Tibangara (Gonyleptoidea: Cryptogeobiidae), newly combined as Tibangara soerenseni new comb., new familial allocation for the species. (6-7) The new genus Llaguenia Gen. nov is erected for the South American species Zamora peruviana Roewer, 1956, newly combined as Llaguenia peruviana new comb., and newly placed in Gonyleptoidea: Cranaidae (Prostygninae). (8) Bebedoura Roewer, 1949, known from a single Brazilian species, is transferred from Tricommatinae to Grassatores incertae sedis. (9) Microconomma Roewer, 1915, known from a single Cameroonian species, is transferred from Samoidae to Grassatores incertae sedis. (10) Stygnomimus Roewer, 1927, with two Indomalayan species and hitherto included in the Stygnommatidae, is here formally considered Grassatores incertae sedis. (11) Bichito González-Sponga, 1998, known from a single Venezuelan species, originally described in Phalangodidae: Phalangodinae, and currently in Grassatores incertae sedis is transferred to Samoidae. (12) The Neotropical genus Microminua Sørensen, 1932, currently with two species, is newly transferred from Kimulidae to Samoidae. (13-14) Cornigera González-Sponga, 1987 (currently in Samoidae), is newly considered a junior subjective synonym of Microminua, and its single species is combined under Microminua as Microminua flava (González-Sponga, 1987) new comb. (15) Niquitaia González-Sponga, 1999 (originally in Phalangodidae: Phalangodinae, currently in Zalmoxidae), monotypic from Venezuela, is newly transferred to Samoidae. (16) Heteroscotolemon Roewer, 1912 originally described in Phalangodidae: Phalangodinae, and currently in Grassatores incertae sedis is transferred to Zalmoxidae. (17) While the Australasian genus Zalmoxista Roewer, 1949 is currently in Samoidae and some of its former species have been transferred to Zalmoxis Sørensen, 1886, Zalmoxista americana Roewer, 1952 from Peru, is here newly transferred to Zalmoxidae into Minuides Sørensen, 1932, forming the combination Minuides americanus (Roewer, 1952) new comb. (specific name inflected to match the masculine gender). (18) Neobabrius Roewer, 1949 (currently in Phalangodidae), monotypic from Indonesia, is newly transferred to Zalmoxidae. (19) While Crosbyella Roewer, 1927, belongs to Phalangodidae, Crosbyella roraima Goodnight & Goodnight, 1943 (originally Phalangodinae, but currently Zalmoxidae without generic assignment) is here transferred to Soledadiella González-Sponga, 1987, as Soledadiella roraima new comb. (Zalmoxoidea: Zalmoxidae). (20) Zalmoxissus Roewer, 1949 is newly synonymized with Zalmoxis Sørensen, 1886 (Zalmoxidae). (21) The original spelling Zalmoxis sorenseni Simon, 1892 is restored from the unjustified emendation soerenseni. (22) The Neotropical genus Phalangodella Roewer, 1912 (originally in Phalangodidae: Tricommatinae, but currently in Grassatores incertae sedis) is newly transferred to Zalmoxoidea incertae sedis and (23-26) four other genera are newly synonymized with it: Phalangodella Roewer, 1912 = Exlineia Mello-Leitão, 1942 = Langodinus Mello-Leitão, 1949 = Cochirapha Roewer, 1949 = Phalpuna Roewer, 1949, generating the following new combinations (27-32): Phalangodella fulvescens (Mello-Leitão, 1943) new comb., Phalangodella milagroi (Mello-Leitão, 1942) new comb., Phalangodella rhinoceros (Mello-Leitão, 1945) new comb., Phalangodella flavipes (Mello-Leitão, 1949) new comb., Phalangodella rugipes (Roewer, 1949) new comb. and Phalangodella urarmata (Roewer, 1949) new comb.