Insecta Mundi
Filtern
Erscheinungsjahr
- 2017 (78) (entfernen)
Dokumenttyp
Sprache
- Englisch (78) (entfernen)
Volltext vorhanden
- ja (78)
Gehört zur Bibliographie
- nein (78) (entfernen)
Schlagworte
- taxonomy (21)
- new species (9)
- new record (6)
- Lindgren funnel (5)
- Neotropical (4)
- Neotropical region (4)
- Neotropics (4)
- Taxonomy (4)
- systematics (4)
- Brazil (3)
537
The Republic of Panama currently has 21 recorded species of stoneflies, all in the genus Anacroneuria (Plecoptera: Perlidae). Herein, we record five species of this genus from the Mount Totumas Cloud Forest and Biological Reserve, in the upper reaches of the Río Chiriquí Viejo watershed. One of these species, A. plutonis (Banks), represents a new country record for Panama. These results are part of an ongoing effort to characterize the aquatic insect fauna of Panama, and to evaluate that country’s major watersheds.
521
520
549
563
519
Cnestus mutilatus (Blandford) (Coleoptera: Curculionidae: Scolytinae) is reported from Pennsylvania for the fi rst time, new state record. Specimens were collected using baited Lindgren funnels as early as 2013. Within Pennsylvania, C. mutilatus is now reported from Berks, Bucks, Lehigh, Montgomery, and York Counties.
550
Cixidia fusca and Synecdoche impunctata (Hemiptera: Achilidae) are reported from Missouri for the first time, new state records. Ecological and trapping information is also provided.
602 [korr. Vers.]
Species of Mortoniella are revised for the northern and Andean part of the South American continent, including the countries of Bolivia, Peru, Ecuador, Colombia, Venezuela, and Guyana. All previously described species from the region are reillustrated and redescribed, except for Mortoniella santiaga Sykora, 1999 and M. quinuas Harper and Turcotte, 1985, whose types could not be located, and M. tranquilla Martynov, 1912, whose type is based on a female specimen and thus is currently unidentifiable. Included in the revision are 35 described species and 59 new species. Mortoniella similis Sykora, 1999 is considered a junior synonym of M. roldani Flint, 1991, and M. macuta (Botosaneanu, 1998) is considered a junior synonym of M. limona (Flint, 1981). A new subgenus, Nanotrichia, is recognized to accommodate species previously referred to as members of the ormina and velasquezi groups. Mexitrichia pacuara Flint, 1974 is designated the type species for the subgenus. Species previously referred to as members of the bilineata and leroda species groups are retained in the nominate subgenus, along with additional taxa not previously placed to species group, and treated within a number of subgroups. Previously described species of M. (Mortoniella) which are redescribed and reillustrated include: M. angulata Flint, 1963; M. apiculata Flint, 1963; M. atenuata (Flint, 1963); M. bifurcata Sykora, 1999; M. bilineata Ulmer, 1906; M. bolivica (Schmid, 1958); M. chicana Sykora, 1999; M. denticulata Sykora, 1999; M. elongata (Flint, 1963); M. enchrysa Flint, 1991; M. flinti Sykora, 1999; M. foersteri (Schmid, 1964); M. hodgesi Flint, 1963; M. iridescens Flint, 1991; M. leei (Flint, 1974); M. limona (Flint, 1981); M. marini (Rueda Martín and Gibon, 2008); M. paralineata Sykora, 1999; M. paraenchrysa Sykora, 1999; M. pocita (Flint, 1983); M. punensis (Flint, 1983); M. roldani Flint, 1991; M. simla (Flint, 1974); M. spinulata (Flint, 1991); M. squamata Sykora, 1999; M. unilineata Sykora, 1999; and M. wygodzinskii (Schmid, 1958). New species described in M. (Mortoniella), followed by their respective areas of distribution, include: M. acutiterga (Ecuador); M. adamsae (Peru); M. akrogeneios (Ecuador); M. applanata (Peru); M. auricularis (Colombia); M. barinasi (Venezuela); M. biramosa (Venezuela); M. bothrops (Peru); M. brevis (Ecuador, Venezuela); M. bulbosa (Peru); M. catherinae (Peru); M. chalalan (Peru); M. cornuta (Peru); M. cressae (Venezuela); M. croca (Peru); M. curtispina (Venezuela); M. curvistylus (Ecuador); M. dentiterga (Ecuador); M. dinotes (Peru); M. draconis (Ecuador); M. emarginata (Ecuador, Colombia); M. esrossi (Colombia); M. flexuosa (Colombia); M. furcula (Ecuador); M. gilli (Ecuador); M. gracilis (Venezuela); M. grandiloba (Venezuela); M. guyanensis (Guyana); M. hamata (Colombia); M. langleyae (Ecuador); M. longiterga (Ecuador); M. membranacea (Bolivia); M. monopodis (Colombia, Ecuador); M. parameralda (Ecuador); M. pica (Ecuador); M. proakantha (Ecuador); M. prolata (Peru); M. quadrispina (Ecuador); M. rectiflexa (Ecuador); M. ruedae (Bolivia); M. schlingeri (Colombia); M. silacea (Colombia, Ecuador); M. sinuosa (Bolivia, Peru); M. spatulata (Venezuela); M. tanyrhabdos (Venezuela); M. tridens (Peru); M. triramosa (Bolivia); M. tusci (Venezuela); and M. variabilis (Venezuela, Colombia). Species assigned to the subgenus M. (Nanotrichia) which are redescribed and reillustrated include: M. aequalis (Flint, 1963); M. aries (Flint, 1963); M. collegarum (Rueda Martín and Gibon, 2008); M. eduardoi (Rueda Martín and Gibon, 2008); M. macarenica (Flint, 1974); M. pacuara (Flint, 1974); M. usseglioi (Rueda Martín and Gibon, 2008); and M. velasquezi (Flint, 1991). Previously described species of Mortoniella, outside the area of coverage, that are transferred to the subgenus M. (Nanotrichia) include: M. alicula Blahnik and Holzenthal, 2011; M. bocaina Blahnik and Holzenthal, 2011; M. catarinensis (Flint, 1974); M. froehlichi Blahnik and Holzenthal, 2011; M. ormina (Mosely, 1939); M. rodmani Blahnik and Holzenthal, 2008; and M. tripuiensis Blahnik and Holzenthal, 2011. New species in the subgenus M. (Nanotrichia), followed by their respective areas of distribution, include: Mortoniella cognata (Ecuador, Venezuela); M. coheni (Ecuador); M. licina (Ecuador); M. paucispina (Peru); M. quadridactyla (Venezuela); M. simplicis (Venezuela); M. spangleri (Ecuador); M. triangularis (Ecuador); M. venezuelensis (Venezuela); and M. zamora (Ecuador). A key to the males of species from the region is also provided, as well as a key to females for the major subgroups and a species key to females of the velasquezi group. Finally, a partially resolved phylogeny of the species is presented, along with a discussion of evolutionary trends within the genus.
602 [1. Version]
Species of Mortoniella are revised for the northern and Andean part of the South American continent, including the countries of Bolivia, Peru, Ecuador, Colombia, Venezuela, and Guyana. All previously described species from the region are reillustrated and redescribed, except for Mortoniella santiaga Sykora, 1999 and M. quinuas Harper and Turcotte, 1985, whose types could not be located, and M. tranquilla Martynov, 1912, whose type is based on a female specimen and thus is currently unidentifiable. Included in the revision are 35 described species and 59 new species. Mortoniella similis Sykora, 1999 is considered a junior synonym of M. roldani Flint, 1991, and M. macuta (Botosaneanu, 1998) is considered a junior synonym of M. limona (Flint, 1981). A new subgenus, Nanotrichia, is recognized to accommodate species previously referred to as members of the ormina and velasquezi groups. Mexitrichia pacuara Flint, 1974 is designated the type species for the subgenus. Species previously referred to as members of the bilineata and leroda species groups are retained in the nominate subgenus, along with additional taxa not previously placed to species group, and treated within a number of subgroups. Previously described species of M. (Mortoniella) which are redescribed and reillustrated include: M. angulata Flint, 1963; M. apiculata Flint, 1963; M. atenuata (Flint, 1963); M. bifurcata Sykora, 1999; M. bilineata Ulmer, 1906; M. bolivica (Schmid, 1958); M. chicana Sykora, 1999; M. denticulata Sykora, 1999; M. elongata (Flint, 1963); M. enchrysa Flint, 1991; M. flinti Sykora, 1999; M. foersteri (Schmid, 1964); M. hodgesi Flint, 1963; M. iridescens Flint, 1991; M. leei (Flint, 1974); M. limona (Flint, 1981); M. marini (Rueda Martín and Gibon, 2008); M. paralineata Sykora, 1999; M. paraenchrysa Sykora, 1999; M. pocita (Flint, 1983); M. punensis (Flint, 1983); M. roldani Flint, 1991; M. simla (Flint, 1974); M. spinulata (Flint, 1991); M. squamata Sykora, 1999; M. unilineata Sykora, 1999; and M. wygodzinskii (Schmid, 1958). New species described in M. (Mortoniella), followed by their respective areas of distribution, include: M. acutiterga (Ecuador); M. adamsae (Peru); M. akrogeneios (Ecuador); M. applanata (Peru); M. auricularis (Colombia); M. barinasi (Venezuela); M. biramosa (Venezuela); M. bothrops (Peru); M. brevis (Ecuador, Venezuela); M. bulbosa (Peru); M. catherinae (Peru); M. chalalan (Peru); M. cornuta (Peru); M. cressae (Venezuela); M. croca (Peru); M. curtispina (Venezuela); M. curvistylus (Ecuador); M. dentiterga (Ecuador); M. dinotes (Peru); M. draconis (Ecuador); M. emarginata (Ecuador, Colombia); M. esrossi (Colombia); M. flexuosa (Colombia); M. furcula (Ecuador); M. gilli (Ecuador); M. gracilis (Venezuela); M. grandiloba (Venezuela); M. guyanensis (Guyana); M. hamata (Colombia); M. langleyae (Ecuador); M. longiterga (Ecuador); M. membranacea (Bolivia); M. monopodis (Colombia, Ecuador); M. parameralda (Ecuador); M. pica (Ecuador); M. proakantha (Ecuador); M. prolata (Peru); M. quadrispina (Ecuador); M. rectiflexa (Ecuador); M. ruedae (Bolivia); M. schlingeri (Colombia); M. silacea (Colombia, Ecuador); M. sinuosa (Bolivia, Peru); M. spatulata (Venezuela); M. tanyrhabdos (Venezuela); M. tridens (Peru); M. triramosa (Bolivia); M. tusci (Venezuela); and M. variabilis (Venezuela, Colombia). Species assigned to the subgenus M. (Nanotrichia) which are redescribed and reillustrated include: M. aequalis (Flint, 1963); M. aries (Flint, 1963); M. collegarum (Rueda Martín and Gibon, 2008); M. eduardoi (Rueda Martín and Gibon, 2008); M. macarenica (Flint, 1974); M. pacuara (Flint, 1974); M. usseglioi (Rueda Martín and Gibon, 2008); and M. velasquezi (Flint, 1991). Previously described species of Mortoniella, outside the area of coverage, that are transferred to the subgenus M. (Nanotrichia) include: M. alicula Blahnik and Holzenthal, 2011; M. bocaina Blahnik and Holzenthal, 2011; M. catarinensis (Flint, 1974); M. froehlichi Blahnik and Holzenthal, 2011; M. ormina (Mosely, 1939); M. rodmani Blahnik and Holzenthal, 2008; and M. tripuiensis Blahnik and Holzenthal, 2011. New species in the subgenus M. (Nanotrichia), followed by their respective areas of distribution, include: Mortoniella cognata (Ecuador, Venezuela); M. coheni (Ecuador); M. licina (Ecuador); M. paucispina (Peru); M. quadridactyla (Venezuela); M. simplicis (Venezuela); M. spangleri (Ecuador); M. triangularis (Ecuador); M. venezuelensis (Venezuela); and M. zamora (Ecuador). A key to the males of species from the region is also provided, as well as a key to females for the major subgroups and a species key to females of the velasquezi group. Finally, a partially resolved phylogeny of the species is presented, along with a discussion of evolutionary trends within the genus.
570
A detailed study of the holotype of Sphecomyrma canadensis Wilson, 1985 (Hymenoptera: Formicidae) from Canadian amber has led to the conclusion that the specimen belongs to a new genus, here named Boltonimecia gen.n. Since the taxonomy of stem-group ants is not well understood, in order to find the taxonomic position of this genus, it is necessary to review the classifi cation of stem-group ants in a study of their relation to crown-group ants. In the absence of data for traditional taxonomic approaches, a statistical study was done based on a morphometric analysis of antennae. Scape elongation is believed to play an important role in the evolution of eusociality in ants; however, this hypothesis has never been confirmed statistically. The statistical analysis presented herein lends support to the view that antennal morphology reliably distinguishes stem-group ants from crown-group ants, to determine whether a species belongs to one or the other group. This, in turn, may indicate a relationship exists between eusociality and scape elongation. A review of Cretaceous records of ants is made and the higher classification of Formicidae with definitions of stem and crown groups is proposed. Newly obtained data are discussed focusing particularly on the origin, evolution and diversity of ants.