Insecta Mundi
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774
Salacia crassifolia (Mart. ex Schult.) G.Don., (Celastraceae) is a native species of shrub/tree highly appreciated in Brazil for its fruits and medicinal properties. Scale insects have never been reported associated with S. crassifolia; nevertheless, this paper describes the occurrence of two diaspidids on S. crassifolia leaves in Brazil. Three mature trees were inspected in February and March 2018 and scale insect samples were collected and preserved in 70% alcohol, then mounted and identified under an optical microscope. Two species of scale insects were found associated with this plant, Pseudoparlatoria argentata Hempel and Melanaspis aristotelesi Lepage and Giannotti, both from the family Diaspididae (Hemiptera). The three observed trees were infested by the diaspidids, with some leaves completely colonized by both species. This is the first reported occurrence of P. argentata and M. aristotelesi in plants of the Celastraceae family. It is also the first report of these insects in the Distrito Federal, Brazil, expanding the distribution and hosts in native plant species of the Cerrado biome.
748
The following new species of Eupogonius LeConte, 1852 (Coleoptera: Cerambycidae: Lamiinae) are described: E. tlanchinolensis Wappes and Santos-Silva (Mexico, Hidalgo); E. albofasciatus Wappes and Santos- Silva (Mexico, Puebla); E. sonorensis Wappes and Santos-Silva (Mexico, Sonora); E. guerrerensis Wappes and Santos-Silva (Mexico, Guerrero); E. boteroi Wappes and Santos-Silva (Mexico, Guerrero); E. nascimentoi Wappes and Santo-Silva (Mexico, Jalisco and Colima); and E. monzoni Wappes and Santos-Silva (Guatemala, Alta Verapaz). Additionally, a detailed description of the female of Eupogonius fulvovestitus Schaeffer, 1905 is provided for the first time, along with notes on the likely host of the species. New state records in Mexico are provided for Eupogonius comus Bates, 1885, and E. stellatus Chemsak and Noguera, 1995. Other taxonomic or nomenclatural actions included herein are: Eupogonius knabi Fisher, 1925 is transferred to Atelodesmis Chevrolat, 1841, new combination; the gender of the species-group name in Eupogonius azteca Martins, Santos-Silva and Galileo, 2015 is commented on; notes on the geographical distribution of Eupogonius affinis Breuning, 1942, and the problematic morphology of E. infimus (Thomson, 1868) are presented; Eupogonius subaeneus Bates, 1872, and E. marmoratus Fisher, 1925 are revalidated, and E. columbianus Breuning, 1942 is a new synonym of E. subaeneus”.
813
842
The following Silvaninae (Coleoptera: Silvanidae) are included: Synobius Sharp, 1899, with its species, Synobius lobicollis Sharp, 1899 and Synobius lobatus (Grouvelle, 1896); Neocorimus thomasi, new genus and new species; Austronausibius wagneri (Grouvelle) new combination, a species originally placed in Nausibius Lentz by Grouvelle (1913); a third species of Pensus Halstead, 1973, is described, Pensus hirtus new species, and a short key given for distinguishing it from the already known species, Pensus gilae (Casey) and Pensus guatemalenus (Sharp); also Coccidotrophus Schwarz and Barber, 1921,including Coccidotrophus socialis Schwarz and Barber, 1921, Coccidotrophus cordiae Barber, 1928, Coccidotrophus wheeleri (Schwarz and Barber) new combination (a species originally placed in Eunausibius Grouvelle by Schwarz and Barber (1921)) plus two new species, Coccidotrophus platyops, new species;Coccidotrophus trinidadensis, new species making a total of five in this genus; other taxa included are, Eunausibius Grouvelle, 1913, with its described and a new species as follows, Eunausibius tenebrionoides (Grouvelle), Eunausibius jatahyensis, new species, Eunausibius elongatus (Grouvelle); and finally Annomus bolivianus, new genus and new species. Additionally, taxonomic changes are made for two species originally described in Eunausibius: Nausibius lophius (Parsons) new combination (= Eunausibius lophius Parsons) and Nausibius salutaris (Parsons) new combination (= Eunausibius salutaris Parsons). Descriptions, diagnoses, and illustrations (habitus and male genitalia line drawings plus four color habitus photographs) are provided.
838
761
In April 2017, several scale insect specimens in the family Dactylopiidae were collected from infested cladodes of wild Opuntia tomentosa Salm-Dyck, 1822 (Cactaceae) in the outskirts of Morelia City, Michoacan, Mexico. The specimens were identified as Dactylopius confusus (Cockerell, 1929) (Hemiptera: Coccomorpha: Dactylopiidae). In this article, the presence of D. confusus in Michoacan state, Mexico, is recorded for the first time. A subsequent finding of D. confusus on Opuntia ficus-indica (L.) Mill., (1768) (Cactaceae) in October 2019 was confirmed with 18S rDNA and 28S rDNA.
782
In April 2018, specimens of an asterolecaniid were collected on infested wild plants of Asclepias curassavica Linnaeus, 1753 (Gentianales: Asclepiadaceae) in Jiquilpan, Michoacan, Mexico. The collected specimens were identified as Planchonia stentae (Brain,1920) (Hemiptera: Asterolecaniidae). In this paper, we record for the first time the presence of P. stentae infesting A. curassavica in Mexico.
779
First record of the orchid bee Euglossa dilemma (Hymenoptera: Apidae) in Hispaniola, the Antilles
(2020)
The occurrence of the orchid bee Euglossa dilemma Bembé and Eltz (Hymenoptera: Apidae) is recorded for the first time for the island of Hispaniola in the Greater Antilles. Males were observed visiting varieties of sweet basil plants (Ocimum basilicum Linnaeus (Lamiaceae)) to obtain fragrances used during courtship and reproduction. Our observations showed that the species is established in Hispaniola and that it does not require the presence of orchids for reproductive success, being able to adapt to new plant resources it finds in the areas it colonizes. These observations correspond to what was found in Florida, United States, where Euglossa dilemma was also recently introduced. It is not clear how the species was introduced to Hispaniola, but Euglossa dilemma is clearly an adventive species that is colonizing the Antilles in addition to peninsular Florida.
833
The two new species Phyllobaenus thomasi (Campeche, Oaxaca, Quintana Roo and Yucatán, Mexico, and Belize) and P. turnbowi (San Luis Potosi, Mexico), are described (Coleoptera: Cleridae: Hydnocerinae: Hydnocerini). The primary types are photographed and intrageneric relationships of the species are discussed.
758
Updated distributions are provided for all three species of Phlegyas Stål (Hemiptera: Heteroptera: Pachygronthidae) in the New World: Phlegyas abbreviatus (Uhler, 1876), P. annulicrus Stål, 1869, and P. patruelis Berg, 1883. In total, four new state records for the United States of America, four new state records for Mexico, one new Canadian provincial record, and one new country record (Nicaragua, P. annulicrus) are presented, along with remarks and corrections.
871
864
The tribe Platynini (Coleoptera: Carabidae: Harpalinae) is revised for New Zealand. Eight genera and forty-three species are recognized. Four genera and sixteen species are described as new: Ctenognathus davidsoni Larochelle and Larivière new species, Ctenognathus earlyi Larochelle and Larivière new species, Ctenognathus garnerae Larochelle and Larivière new species, Ctenognathus hoarei Larochelle and Larivière new species, Ctenognathus kaikoura Larochelle and Larivière new species, Ctenognathus marieclaudiae Larochelle new species, Ctenognathus perumalae Larochelle and Larivière new species, Ctenognathus takahe Larochelle and Larivière new species, Ctenognathus tawanui Larochelle and Larivière new species, Ctenognathus tepaki Larochelle and Larivière new species, Ctenognathus urewera Larochelle and Larivière new species, Kiwiplatynus Larochelle and Larivière new genus, Kiwiplatynus taranaki Larochelle and Larivière new species, Kupeplatynus Larochelle and Larivière new genus, Maoriplatynus Larochelle and Larivière new genus, Maoriplatynus marrisi Larochelle and Larivière new species, Prosphodrus mangamuka Larochelle and Larivière new species, Prosphodrus sirvidi Larochelle and Larivière new species, Prosphodrus waimana Larochelle and Larivière new species, Tuiplatynus Larochelle and Larivière new genus. Lectotypes are designated for twelve taxa: Anchomenus adamsi Broun, 1886, Anchomenus colensonis White, 1846, Anchomenus feredayi Bates, 1874, Anchomenus helmsi Sharp, 1881, Anchomenus intermedius Broun, 1908, Anchomenus macrocoelis Broun, 1908, Anchomenus munroi Broun, 1893, Anchomenus sophronitis Broun, 1908, Colpodes crenatus Chaudoir, 1878, Colpodes neozelandicus Chaudoir, 1878, Ctenognathus littorellus Broun, 1908, and Ctenognathus pictonensis Sharp, 1886.Six new combinations are established: Ctenognathus bidens (Chaudoir, 1878) = Kiwiplatynus bidens (Chaudoir, 1878); Ctenognathus crenatus (Chaudoir, 1878) = Kupeplatynus crenatus (Chaudoir, 1878); Ctenognathus lucifugus (Broun, 1886) = Kupeplatynus lucifugus (Broun, 1886); Ctenognathus sulcitarsis (Broun, 1880) = Kupeplatynus sulcitarsis (Broun, 1880); Ctenognathus libitus (Broun, 1914) = Tuiplatynus libitus (Broun, 1914); Ctenognathus sophronitis (Broun, 1908) = Tuiplatynus sophronitis (Broun, 1908).Fifteen new synonymies are established: Ctenognathus littorellus Broun, 1908 = Ctenognathus adamsi(Broun, 1886); Anchomenus parabilis Broun, 1880 = Ctenognathus cardiophorus (Chaudoir, 1878); Anchomenus integratus Broun, 1908 = Ctenognathus colensonis (White, 1846); Anchomenus macrocoelis Broun, 1908 = Ctenognathus edwardsii (Bates, 1874); Ctenognathus actochares Broun, 1894 = Ctenognathus elevatus(White, 1846); Anchomenus punctulatus Broun, 1877, Anchomenus montivagus Broun, 1880, Anchomenus perrugithorax Broun, 1880, Anchomenus politulus Broun, 1880, Anchomenus suborbithorax Broun, 1880, and Colpodes neozelandicus Chaudoir, 1878 = Ctenognathus novaezelandiae (Fairmaire, 1843); Ctenognathus simmondsi Broun, 1912 = Ctenognathus pictonensis Sharp, 1886; Anchomenus (Platynus) cheesemani Broun, 1880 and Calathus deformipes Broun, 1880 = Kupeplatynus crenatus (Chaudoir, 1878); Anchomenus munroi Broun, 1893 = Kupeplatynus lucifugus (Broun, 1886). Ctenognathus elevatus (White, 1846), previously synonymized with Ctenognathus novaezelandiae (Fairmaire, 1843), is reinstated as full species. A revision of all taxa is provided. Descriptions, identification keys, illustrations of male genitalia, habitus photos, distributional data and maps are given. Extensive information on ecology, biology, dispersal power, and collecting techniques is included for each species.
903
An interesting new taxon of scarabaeoid beetle is described from western Texas, USA. The remarkably small chafer, Ardella magnaemirabilis new genus, new species (Coleoptera: Scarabaeidae: Melolonthinae: Ardellini) is described and compared to other diminutive scarabaeoid genera from drier habitats of the southwestern USA. The tribe Ardellini, new tribe, is erected to accommodate the unusual genus.
874
865
A new genus, Cicatrisphaerion Lingafelter, Morris, Skillman, and Santos-Silva (Coleoptera: Cerambycidae), and three new species of the same authorship, C. wappesi from Quintana Roo, Mexico, C. rileyi from Chiapas, Mexico, and Eupogonius wappesi from Quintana Roo, Mexico, are described. New records and clarification on the distribution of Psyrassaforma janzeni Chemsak, 1991 and P. nitida Chemsak, 1991 are provided. Ameriphoderes amoena (Chemsak and Linsley, 1979) is redescribed based on four male specimens and a new country record from Guatemala is documented. New distributional records are provided for Estola flavobasalis Breuning, 1940 (including a new country record for Bolivia) and Estola vittulata Bates, 1874. A redescription and new distributional record are provided for Eupogonius flavovittatus Breuning, 1940 based on a female specimen.
866
897
New synonymies and notes in Criodion Audinet-Serville (Coleoptera: Cerambycidae: Cerambycinae)
(2021)
Criodion angustatum Buquet, 1852 a nd C. pilosum Lucas, 1857 (Coleoptera: Cerambycidae: Cerambycinae) are synonymized with C. tomentosum Audinet-Serville, 1834. The holotypes of C. angustatum and C. hirsutum, and syntypes of C. pilosum and of C. tuberculatum Gahan, 1892 are illustrated for the first time. One of the type localities of C. tuberculatum is corrected.
848
Within Nearctic Cicindelidae, Cicindelini, Eunota togata (LaFerté-Sénectère, 1841) (Coleoptera: Cicindelidae) exists as several distinct phenotypes, some described as subspecies whose taxonomic status has been misinterpreted. Eunota togata togata applies to adults marked with broadly sinuate inner margins on shiny brown elytra common across northern coastal Gulf of Mexico. Eunota togata fascinans (Casey,1914), new synonymy, incorrectly applied to populationsin western Texas and New Mexico, United States, is considered a junior synonym of E. togata globicollis (Casey,1913), the predominant subspecies with broadly sinuate inner margins on coppery elytra found from eastern New Mexico and western Texas into the Southern Great Plains of North America. Eunota togata leucophasma, new subspecies, is comprised of adults with mostly white elytra that are isolated in Hudspeth County, Texas, and Doña Ana, Otero, and Torrance Counties, New Mexico. Intergrades between E. togata globicollis and E. togata leucophasma, new subspecies, are found sporadically in eastern New Mexico and western Texas; however, suggested intergrades between E. togata globicollis and E. togata togata in western Texas are reinterpreted as more typical of intergrades farther north in New Mexico. Adults marked with acutely sinuate inner margins on darker elytra found only in northcentral Kansas to southeast Nebraska should be referred to as E. togata latilabris (Willis,1967), new status. All subspecies are collectively known as the white-cloaked tiger beetle. Geological conditions influencing development of saline habitats and subsequent evolution of divergent white E. togata subspecies in Texas and New Mexico, and darker E. togata subspecies in Kansas and Nebraska, are discussed and compared to more uniformly marked E. togata subspecies found elsewhere in North America.
851
The genus Stenaspis Audinet-Serville, 1834 (Coleoptera: Cerambycidae: Cerambycinae: Trachyderini) is recharacterized by providing additional morphological features to enhance the definition of this genus. Stenaspis plagiata Waterhouse, 1877 is transferred to Crioprosopus Audinet-Serville, 1834, new combination, and the latest key to species of Crioprosopus is modified. A key to the genera of Group III-Stenaspes with “abruptly separated anteocular space,” and a key to species of Stenaspis is provided. Color illustrations of the available species are included. Stenaspis lingafelteri Eya, new species, from Mexico is described.
861
Peru’s Cosñipata Region in Cuzco and Madre de Dios Departments is a valley between Manu National Park and the Amarakaeri Communal Reserve that ranges from 400 to 4,000 m elevation. A team of experienced lepidopterists sampled the butterfly fauna of this valley for more than a decade (7,440 field person-hours). We analyze the data for Lycaenidae (Lepidoptera: Papilionoidea), a family for which we have taxonomic expertise. After adding data on the fauna from museums and the literature, we present an annotated checklist of the 340 Lycaenidae species recorded from the Cosñipata Region with notes for each species on the elevations and seasons at which it occurs, adult behavior, and sampled relative abundance. Species richness is twice that recorded for Trinidad or Brazil’s Parque Nacional do Itatiaia, each of which also has a mix of low, mid, and high elevation habitats. There was an average of 8.3 adult specimens per species in the fieldwork sample. For those species with more than 8 specimens, the median elevational range was 1,100 m. Species richness in low elevation habitats was greater than that at mid or high elevations, which is contrary to findings for some other Neotropical insects. We present evidence why further sampling is likely to increase this difference. Maximal adult species richness occurs during the transition from dry to wet seasons (September to November) at all elevations, but there is little evidence that adults of species occur only during this season. Sampled relative abundances were skewed so that 70% of the species were encountered less frequently than average (1/340). These results are consistent with the observation that most species are rarely encountered using standard sampling methods.