Insecta Mundi
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0396
A new species of soft scale from Mexico, Toumeyella martinezi Kondo and Gonzalez sp. nov. (Hemiptera: Coccoidea: Coccidae) collected on Myrtillocactus geometrizans (Mart. ex Pfeiff.) Console (Cactaceae) is described and illustrated. An updated taxonomic key to the soft scale insects of the genus Toumeyella Cockerell known from Mexico is provided. A list of all currently known species of Toumeyella worldwide is given.
634
A new species of soft scale from Mexico, Toumeyella crataegi Kondo and González sp. nov., (Hemiptera: Coccomorpha: Coccidae) collected on Crataegus mexicana DC. (Rosaceae), is described and illustrated based on the adult female. An updated taxonomic key to the soft scale insects of the genus Toumeyella Cockerell known from Mexico is provided. The specific epithet of Toumeyella martinezi Kondo and González is here emended to T. martinezae. A checklist with information on geographical distribution, host plants and brief notes of all 18 currently known species of Toumeyella is provided.
0422
The white coconut scale, Parlagena bennetti Williams, 1969 (Hemiptera: Diaspididae) is reported for the fi rst time on New Zealand fl ax, Phormium tenax J.R. Forst. & G. Forst. (Xanthorrhoeaceae), coconut, Cocos nucifera L., Manila palm, Veitchia merrillii (Becc.) H.E. Moore, oil palm, Elaeis guineensis Jacq. and an oil palm hybrid OxG: E. oleifera x E. guineensis (Arecaceae) in continental Colombia, and on coconut from Venezuela. Previously, P. bennetti was known only on the Caribbean islands of Trinidad and San Andres, causing serious damage to coconut, its only known host until now. A brief characterization of P. bennetti and an updated list of 23 species of scale insects of the family Diaspididae reported worldwide on Elaeis spp. is provided.
0480
Crypticerya brasiliensis (Hempel) and Crypticerya genistae (Hempel) (Hemiptera: Monophlebidae:
Iceryini) are herein reported for the fi rst time in Colombia. The above two species and Crypticerya multicicatrices Kondo and Unruh and Crypticerya zeteki (Cockerell) are briefl y diagnosed based on the adult females. The presence of C. zeteki in Colombia is confi rmed and a key to the adult females of species of the tribe Iceryini reported in Colombia is provided.
0465
Scale insects (Hemiptera: Coccoidea) of avocado, Persea americana Mill. (Lauraceae) were collected in the State of Valle del Cauca, Colombia. The study was conducted for one year, during October 2008–October 2009.
As a result of this study, 34 scale insect species in seven families (Coccidae, Diaspididae, Kerriidae, Margarodidae,
Monophlebidae, Pseudococcidae and Putoidae) were collected. Together with previous records, the number of scale insects collected on avocado in Colombia increased to 44 species and to 137 species worldwide. Species commonly collected on avocado in Colombia include Hemiberlesia cyanophylli (Signoret), Pseudoparlatoria parlatorioides (Comstock) (Diaspididae), Ceroplastes rubens Maskell, Coccus hesperidum L., Protopulvinaria pyriformis (Cockerell), Pulvinaria psidii Maskell, Saissetia neglecta De Lotto (Coccidae) and Ferrisia williamsi Kaydan and Gullan (Pseudococcidae). Twenty-two scale insect species are new records on avocado for Colombia of which nine species are new records worldwide, namely, Lindingaspis rossi (Maskell), Pseudischnaspis bowreyi (Cockerell) (Diaspididae), Pulvinaria psidii Maskell, Saissetia neglecta De Lotto (Coccidae), Ferrisia kondoi Kaydan and Gullan, Pseudococcus jackbeardsleyi Gimpel and Miller, Ps. landoi (Balachowsky) (Pseudococcidae), Eurhizococcus colombianus Jakubski (Margarodidae) and Austrotachardiella colombiana Kondo and Gullan (Kerriidae).
1048
The chenopodium aphid, Hayhurstia atriplicis (Linnaeus, 1761) (Hemiptera: Aphididae), is reported for the first time in Colombia. The aphid was found on the aerial parts of the quinoa plant, Chenopodium quinoa Willd. (Amaranthaceae), especially on the leaves, in five municipalities in the department of Cauca, Colombia. Brief information on its natural enemies, distribution and biology is provided. This is the only aphid in Colombia known to cause malformations on the leaves of quinoa plants. In South America, this aphid has been found previously only in Ecuador, where it was reported for the first time in 2023 based on specimens collected from 2019 to 2021. However, we report that H. atriplicis was likely introduced to Ecuador in the 2000s or earlier, based on a collection dated 2006 found in the United States National Museum of Natural History.
ZooBank registration. urn:lsid:zoobank.org:pub:F43613E0-2854-44DE-9654-74138909717D
0265
The multicicatrices fluted scale, Crypticerya multicicatrices Kondo and Unruh (Hemiptera: Coccoidea: Monophlebidae) is reported from the islands of San Andres and Providencia, Colombia, as a recent invasive species. This scale insect is polyphagous, and attacks numerous plants of economic importance such as avocado, breadfruit, mango, papaya and tropical ornamental plants. A compiled list of 95 host plant species of C. multicicatrices is given. A diagnosis of the adult female of C. multicicatrices and a revised taxonomic key to the species of the tribe Iceryini (Hemiptera: Monophlebidae) known from South America is provided. The pink hibiscus mealybug, Maconellicoccus hirsutus (Green) (Hemiptera: Coccoidea: Pseudococcidae), also is reported for the first time from the island of San Andres, where it is found commonly on Hibiscus spp. and Malvaviscus arboreus Cav. The need for the implementation of a classical biological control program in the archipelago in order to control invasive scale insect pests is discussed.
525
The first myrmecophilous fl ea beetle genus (Myrmeconycha Konstantinov and Tishechkin, new genus) with four new species (M. erwini Konstantinov and Tishechkin, new species – Ecuador, M. gordoni Konstantinov and Tishechkin, new species – Brazil, M. pakaluki Konstantinov and Tishechkin, new species – Panama, and M. pheidole Konstantinov and Tishechkin, new species – Costa Rica) is described and illustrated. It is compared with fl ea beetles of the subtribe Disonychina (Coleoptera: Chrysomelidae: Galerucinae: Alticini) and may be easily differentiated based on the external and internal features, which include the waxy surface of the head and pronotum, reticulated surface of the pronotum, and four longitudinal ridges on each elytron.
771
Three new species of flea beetles (Coleoptera: Chrysomelidae: Galerucinae: Alticini) from moss cushions from Puerto Rico are described: Borinken toronegro Konstantinov and Linzmeier and Kiskeya segar-rai Konstantinov and Linzmeier from the Toro Negro mountain region and Kiskeya micheliorum Konstantinov and Linzmeier from the Maricao mountains. New species are compared morphologically with already known species from the same genera. In addition, to determine the similarities between moss inhabiting flea beetles, we sequenced the Cytochrome oxidase I barcode region of larval and adult specimens. In all cases, the distances between species are well outside the 2% species-limit cutoff typically used as an indicator of different species.
1013
After 105 years of study and 425 recent natural photographs, the host spider and nesting behavior of Pepsis elegans Lepeletier (Hymenoptera: Pompilidae: Pepsinae) remain a mystery. Pepsis elegans is the only species in the large and impressive genus Pepsis Fabricius that lives east of the Mississippi River, mainly in the southern U.S. The other 14 Nearctic Pepsis species inhabit the southern U.S. west of the Mississippi River and northern Mexico. They capture and provision their nests with large, hairy, heavy-bodied, stout-legged tarantulas of the genus Aphonopelma Pocock (Araneae: Mygalomorphae: Theraphosidae), the only native theraphosid genus in this region. There are no tarantulas east of the Mississippi River, except in East Baton Rouge Parish, LA, and no valid host spider records or nesting biology information for P. elegans, the largest spider wasp in the eastern US. Rau and Rau’s (1918) questionable field observation of this secretive, dark, violaceous-winged spider wasp yielded no nest, host spider or wasp specimen, and only initiated questions about its identification and nesting biology. The method of host spider transport, as described in Rau and Rau’s (1918) observation, is identical with that of Entypus fulvicornis (Cresson) (Hymenoptera: Pompilidae: Pepsinae), a species similar in size and color to P. elegans and often misidentified as such and vice versa. Potential host spider for P. elegans may include cork-lid trapdoor spiders in the genus Ummidia Thorell, especially U. audouini (Lucas) (Araneae: Mygalomorphae: Halonoproctidae). This spider is abundant, sizeable, and stout enough to provide sufficient food for the developing P. elegans larva. The genus Ummidia and P. elegans have nearly identical geographic location maps and occur in the same habitat. Pepsis elegans could conveniently use the spider’s burrow as a nest without having to excavate one from the ground surface and be detected by the burrowing activity or lengthy, arduous, and cumbersome host spider transport. Pepsis elegans females from various localities had dried mud on the forewings and body inferring they were underground in moist, fine-grained soil as in a burrow. Females were active at night introducing the possibility of cryptic nocturnal nesting, as in some other Pepsis species. Ummidia audouini is nocturnally accessible in its burrow entrance, holding the trapdoor slightly ajar as it waits in the darkness to ambush unsuspecting prey. Punzo’s (2005) study of the closely related, orange-amber-winged, southwestern U. S. and Mexican P. cerberus Lucas is questionable based on the spider misidentification, possible wasp misidentification, and incompatible spider wasp-tarantula size difference. The host of P. cerberus and P. novitia Banks, a possible P. cerberus × P. elegans hybrid (Hurd 1952), is likely the southwestern wafer-lid spider Eucteniza relata (O. P.-Cambridge) (Araneae: Mygalomorphae: Euctenizidae) (Gillaspy 1990) and not Aphonopelma as indicated by Punzo (2005).
ZooBank registration. urn:lsid:zoobank.org:pub:A5795DAA-ABE6-494D-A6A5-1BCA9D84D0C7
1031
A first-time analysis of taxonomically relevant characters, functional morphology, geographic distribution, ecoregion preference, and hypothetical host spiders of Pepsis basifusca Lucas (Hymenoptera: Pompilidae: Pepsinae) is presented. This analysis is compared with other Nearctic species in Vardy’s (2005) Pepsis menechma species-group, particularly P. cerberus Lucas and P. elegans Lepeletier which are suspected parasitoids of trapdoor spiders. Pepsis basifusca females differ from females of these species in possessing a rounded gena-postgena in dorsal view; straight mid and hind tibial spurs; short hind tibial inner spur; and short, very stout, and backward slanted hind tibial bristles. Pepsis basifusca Level III Ecoregions comprise mountains, plateaus, highlands, and tablelands, often at high elevation (~3,000–5,000 feet (914–1,524 meters), from Utah, Colorado, Kansas, and Missouri to Panama. Pepsis basifusca, the smallest Nearctic congener, should be expected to capture comparatively small mygalomorph spiders like some other species in Vardy’s (2005) Pepsis menechma species-group. Based on taxonomic, morphological, biogeographical, and potential host spider criteria, P. basifusca should probably be removed from this group and transferred to another species-group.
ZooBank registration. urn:lsid:zoobank.org:pub:4D3BF37C-3358-4C25-B56A-104C57301AE2
1063
Three Nearctic species of Episyron Schiødte (Hymenoptera: Pompilidae: Pompilinae: Pompilini) were examined morphologically, geographically, and ecologically with intent to infer an aposematic correlation with habitat type, protarsal digging rake morphology, and host spider association. Episyron quinquenotatus quinquenotatus (Say) and E. conterminus cressoni (Dewitz), two subspecies with extensive aposematic markings and more and longer protarsal comb spines, were associated with bare or sparsely vegetated sandy soils near water courses. Episyron biguttatus biguttatus (Fabricus), with few aposematic markings and less and shorter protarsal comb spines, was associated with more densely vegetated terrain and gravelly and loamy soils. Three subspecies of Anoplius apiculatus (Smith) (Hymenoptera: Pompilidae: Pompilinae: Pompilini) are discussed as an aposematic-habitat comparison.
ZooBank registration. urn:lsid:zoobank.org:pub:6A128918-F0FC-4B58-BDDF-992DEDCD2755
1009
Hurd (1952), in revising the Nearctic species of Pepsis Fabricius, separated P. cerberus Lucas from P. elegans Lepeletier based on external morphology and geography. Vardy (2005), in his Western Hemisphere Pepsis revision, combined these taxa and several Neotropical color and structural variants in a broad definition of P. menechma Lepeletier extending across ~11,250 km and two continents. Vardy (2005) synonymized the familiar and well-documented, 160-year-old P. elegans under P. menechma probably because it appeared several pages later in Lepeletier’s (1845) Histoire Naturelle des Insectes. Hyménoptères. Vardy’s (2005) interpretation of Pepsis menechma as a viable species presents a taxonomic and nomenclatural problem. He violated the principle of nomenclatural stability in synonymizing the widely and established species names P. elegans and P. cerberus under P. menechma, a name that had not been used for 160 years. Recent discoveries warrant a re-evaluation of the problematic taxonomy of this species complex. Morphological and ecological divergence of P. elegans and its sister taxon, P. cerberus, combined with their narrow sympatric distribution justifies species recognition. Hurd’s (1952) two species concept for P. elegans and P. cerberus is more practicable, useful, and nomenclaturally acceptable than Vardy’s (2005) P. menechma. Pepsis cerberus Lucas and P. elegans Lepeletier should be reinstated as species and removed from the synonymy of Pepsis menechma Lepeletier.
ZooBank registration. urn:lsid:zoobank.org:pub:F59B3131-74DE-4704-9936-337E380BF3E0
1004
Size equivalence, seasonal synchronicity, geospatial sympatry, habitat specificity, and host-searching behavior implicate the spider wasp Chalcochares hirsutifemur (Banks) (Hymenoptera: Pompilidae: Pompilinae) as an obligate parasitoid on species of the wafer-lid spider genus Aptostichus Simon (Araneae: Mygalomorphae: Euctenizidae) on coastal sandy back dunes in San Luis Obispo and Santa Barbara counties, CA. This is substantiated by 2010–2022 macrophotographs, videos, and field observations. Such host evidence supports recent unpublished phylogenomic studies that place Chalcochares as a sister genus of the spider wasp tribe Aporini, in which all species are known obligate parasitoids on trapdoor spiders and related Mygalomorphae. Chalcochares hirsutifemur and C. engleharti (Banks) are separated based on morphological, geographic, and probable host spider differences. Resource partitioning on the coastal sand dunes between C. hirsutifemur and three species of smaller Aporus Spinola is proposed.
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773
Close-up photographs of nest entry, nest closure and prey transport taken on sandy coastal back dunes in Santa Barbara County, CA by Alice J. Abela substantiate and enhance written descriptions of these nesting behavior components in Miscophus californicus (Ashmead) [=M. laticeps (Ashmead)] (Hymenoptera: Crabronidae). Dictynidae (Dictyna Sundevall or Emblyna Chamberlin) is introduced as a new host family and host spider leg amputation is revealed for the first time for this small miscophine wasp.
902
Macrophotographs in series taken by Alice Abela on sandy coastal dunes in Santa Barbara and San Luis Obispo Counties, CA in 2010–2021 supplement and enhance F. X. Williams (1928) study of the ecology and nesting behavior of the trapdoor spider-hunting spider wasp Aporus (Plectraporus) hirsutus (Banks) (Hymenoptera: Pompilidae: Aporini). Abela’s macrophotographs and observations provide new details of adult wasp feeding, functional morphology, hunting, digging and prey transport, and host spider trapdoor, entrance, burrow structure, host capture and escape activity. Newly reported host records from this study and online photographs expand A. hirsutus host selection in the large wafer-lid trapdoor spider genus Aptostichus Simon (Araneae: Mygalomorphae: Euctenizidae). The A. hirsutus California geographic distribution map by Wasbauer and Kimsey (1985) is updated, thereby providing a broader definition of intraspecific variation in this species.
980
Nesting behavior of the spider wasp Calopompilus pyrrhomelas (Walker) (Hymenoptera: Pompilidae)
(2023)
The nesting behavior of the spider wasp Calopompilus pyrrhomelas (Hymenoptera: Pompilidae: Pepsini) is described for the first time based on independent observations and photographic series from Oakland, Alameda County, CA; Denio, Humboldt County, NV; and Tamalpais-Homestead Valley, Marin County, CA, respectively. The three wasps captured, immobilized, and provisioned the spider’s own burrows with Calisoga longitarsis (Simon) (Nemesiidae) and Antrodiaetus montanus (Chamberlin and Ivie) (Antrodiaetidae).
ZooBank registration: urn:lsid:zoobank.org:pub:99349A59-147A-4970-AAC1-959F2ABCA1C1
1052
Hurd (1952) separated Pepsis cerberus Lucas from P. elegans Lepeletier (Hymenoptera: Pompilidae: Pepsinae: Pepsini) based on external morphology and biogeography. Vardy (2005) synonymized the familiar and historically well-documented P. cerberus and P. elegans, combining these Nearctic taxa with several Neotropical variants in an extremely broad definition of P. menechma Lepeletier. In doing so, Vardy (2005) breached the principle of nomenclatural stability. He ignored the prevailing usage and clearly violated articles 23.2, 23.3 and 23.9.1.2 of the ICZN (1999). Morphological differences, ecological divergence, and narrow sympatric geographic distribution of P. cerberus and P. elegans contradict Vardy (2005) and justify full species status (Kurczewski 2023a). Furthermore, we propose the removal of the two species from the P. menechma list of synonyms and recommend full species reinstatement as Pepsis cerberus, restored status and Pepsis elegans, restored status. Pepsis menechma becomes a senior synonym of P. elegans. Morphometric re-examination and statistical analysis of P. cerberus and P. elegans structural features strongly support their reinstatement. Quantitative measurement of 10 parasitoid-related morphological characteristics of the females revealed the two species differ significantly in frons width/head width, head length/head width, vertex length/head width, vertex length/head length, flagellomere 1 length/flagellomere 1 width, forewing length/mesosoma width, and hind tibial inner spur length/hind basitarsus length. Pepsis cerberus and P. elegans females are structurally and statistically similar in gena-postgena corner radius, fore femur width/mesosoma width, and number of hind tibial serrations.
ZooBank registation. urn:lsid:zoobank.org:pub:D22EC64F-7C55-4071-9290-4661CA377B24
925
This paper is the sequel to a 20 year-long (2002–2021) study of geographic variation in host selection in the common American spider wasps (Hymenoptera: Pompilidae) Entypus unifasciatus (Say) (Pepsini) and Tachypompilus ferrugineus (Say) (Pompilini) (rusty spider wasp). Geography and host spider family are strongly linked in both species when 3387 host spider locality records from the years 1918–2021 are mapped. Entypus unifasciatus lycosid host records are plentiful from 43–44° N in the United States and southern Ontario to northern Mexico. Tachypompilus ferrugineus lycosid host records are abundant from southern Ontario and New England southward to Mexico east of the Rocky Mountains. The vast majority (~80%) of E. unifasciatus and T. ferrugineus pisaurid host records are from the southeastern United States. Trechaleid host records for E. unifasciatus and T. ferrugineus are predominant in southern Mexico and Central America,
while ctenid host records for these spider wasps are prevalent in Central America and, especially, South America. All E. unifasciatus sparassid host records are from extreme southwestern United States and northern Mexico, whereas T. ferrugineus sparassid host records are scattered from Texas, Florida and Hispaniola/Puerto Rico southward to Panama and Brazil. Based on this study Lycosidae is the predominant host spider family in the Americas for E. unifasciatus (83.1%) and T. ferrugineus (64.0%) followed by Pisauridae (4.9%, 24.8%), Trechaleidae (4.2%, 6.0%), Ctenidae (4.3%, 2.7%), and Sparassidae (3.1%, 1.6%). Lycosidae and Pisauridae are overrepresented in this study as most host records (88.1%) are from the United States and Ontario, Canada where such species are abundant. Trechaleidae and Ctenidae are grossly underrepresented as host records from Mexico, Central America and South America are scarce (11.9%). Zoropsidae/Miturgidae and Zoropsidae / Agelenidae / Selenopidae are atypical host spider families for E. unifasciatus (0.2%, 0.2%) and T. ferrugineus (0.7%, 0.2%, <0.1%), respectively. Rabidosa rabida (Walckenaer) (Lycosidae) (rabid wolf spider) is the predominant host spider species for both E. unifasciatus (47.7%) and T. ferrugineus (48.0%) based mainly on United States host records.
759
Geography and host spider family are strongly linked in the spider wasps (Hymenoptera: Pompilidae) Entypus unifasciatus (Say) and Tachypompilus ferrugineus (Say) (rusty spider wasp) when 2031 host spider locality records from the years 1918–2020 are mapped. Entypus unifasciatus lycosid host records are plentiful from 43–44° N in the U.S. to northern Mexico. Tachypompilus ferrugineus lycosid host records are numerous from southern Ontario and New England to Mexico east of the Rocky Mountains. Most E. unifasciatus and T. ferrugineus pisaurid host records are from the SE U.S. Trechaleid host records for E. unifasciatus and T. ferrugineus are predominant in southern Mexico and Central America, while ctenid host records for these species are prevalent in northern South America. All E. unifasciatus sparassid host records are from extreme SW U.S. and Mexico, whereas T. ferrugineus sparassid host records are scattered from Texas, Florida and Puerto Rico to Panama. Lycosidae are the predominant host spider family in the Americas for E. unifasciatus (80.3%) and T. ferrugineus (67.4%) followed by Pisauridae (5.4%, 21.7%), Trechaleidae (4.8%, 6.8%), Ctenidae (4.6%, 1.8%), and Sparassidae (4.3%, 1.5%). Lycosidae and Pisauridae are overrepresented in this study as the vast majority of host records (87.8%) are from the U.S. and Ontario, Canada where such species are abundant. Trechaleidae and Ctenidae are grossly underrepresented as host records from Mexico, Central America and South America are scarce (12.2%). Zoropsidae/Miturgidae and Zoropsidae/Agelenidae are atypical host families for E. unifasciatus (0.3%, 0.3%) and T. ferrugineus (0.4%, 0.4%), respectively. Rabidosa rabida (Walckenaer) (Lycosidae) (rabid wolf spider) is the predominant host spider species for both E. unifasciatus (56.8%) and T. ferrugineus (58.3%).
989
The use of common names for species and subspecies of North American spider wasps (Hymenoptera: Pompilidae) presents a variety of questions for pompilid specialists as most pompilid taxa are difficult to identify, even under the microscope. Some common names currently being used for spider wasp species are acceptable while others are misleading, unfit and unacceptable. Opinions on the relative value of common names for spider wasps from current Pompilidae researchers are given in the Introduction. Eleven inappropriate common names for North American Pompilidae species and subspecies are identified and discussedin the Results.
ZooBank registration. urn:lsid:zoobank.org:pub:065150FE-AFD2-45C3-A3D2-C90CD811A03E
959
Host records and nesting behavior of the Nearctic trapdoor spider-hunting spider wasps (Hymenoptera: Pompilidae) Calopompilus Ashmead and Priocnemissus Haupt (Pepsinae: Pepsini) and Aporus Spinola and Psorthaspis Banks (Pompilinae: Aporini) are reviewed, investigated, compared, and discussed. First time incidental trapdoor spider host records for Priocnemis (Priocnemissus) minorata Banks (Pepsinae: Pepsini), Anoplius (Lophopompilus) carolina (Banks) (Pompilinae: Pompilini), and Notocyphus dorsalis dorsalis Cresson (Notocyphinae: Notocyphini) are included, although they are not typical trapdoor spiderhunting spider wasp species. The Palearctic Aporus (Aporus) unicolor Spinola, A. (Aporus) bicolor Spinola and A. (Aporus) planiceps (Latreille) are referenced for comparison with Nearctic Aporus sensu stricto. Early 20th century papers on species of Aporus and Psorthaspis are revived. New information on nesting behavior of Nearctic trapdoor spider-hunting spider wasps is described and first host trapdoor spider records for Psorthaspis formosa (Smith), P. legata (Cresson) and P. mariae (Cresson) are documented. Potential Pompilidae species in the genera Calopompilus and Aporus are suggested for host trapdoor spider remains found in burrows with spider wasp eggs, larvae and cocoons (pupae) based on geographic distribution, habitat, spider species, trapdoor and burrow structure, wasp cocoon size, and wasp congeneric host records.
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824
Four online photographs from Oaxaca, Mexico taken by N. R. Jenzen-Jones and posted on inaturalist.org reveal Selenops sp., probably S. mexicanus Keyserling (Arachnida: Araneae: Selenopidae), as a new host spider species, genus and family for the common and widespread American spider wasp Tachypompilus ferrugineus (Say) (rusty spider wasp). The wasp transported the immobilized spider up an exterior stucco wall of a house, dorsal side upward, walking backwards for 3m to her nest in a gap between the wooden planking and stucco wall beneath the roof, while grasping the femur of its right pedipalp with her mandibles.
960
First host record, prey transport, and burrow excavation are described for Hesperopompilus sp., an undescribed, rare spider wasp (Hymenoptera: Pompilidae) from Texas. Taxonomic, ecological, and behavioral examination of the genus subsequently led to an investigation of the previously related Perissopompilus Evans and Xerochares Evans. Taxonomic, host preference, nesting behavior, and phylogenomic relationships of the three taxa are discussed along with those of Xenopompilus Evans. The molecular connection of Perissopompilus and Allochares Banks is supported by their common use of host species of Filistatidae.
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935
The first host record for the North American spider wasp Cryptocheilus severini Banks (Hymenoptera: Pompilidae: Pepsinae) from Mazatlán, Sinaloa, México is introduced with pertinent observation information. The genus Cryptocheilus Panzer in North America is briefly described, its nesting habitat and prey transport outlined, and host specificity detailed.
ZooBank registration. urn:lsid:zoobank.org:pub:65404A9D-0B4C-4F7B-B8E2-0301EE922EF4
1034
We present new and atypical host records for 78 species, subspecies, species-groups, and variants of spider wasps (Hymenoptera: Pompilidae) from North America and South America. The records are listed in modified taxonomic order following the Catalog of Hymenoptera in America North of Mexico, Volume 2, Apocrita (Aculeata) (Krombein 1979). These records are an extension of previous host records reported by Kurczewski (2010), Kurczewski and Edwards (2012), and Kurczewski et al. (2017, 2020, 2022b). New genus and species host records are given for the genera and subgenera Calopompilus Ashmead, Chirodamus Haliday, Pepsis Fabricius, Hemipepsis Dahlbom, Priocnessus Banks, Entypus Dahlbom, Pompilocalus Roig-Alsina, Priocnemis Schiødte, Auplopus Spinola, Ageniella Banks, ?Aridestus Banks, Agenioideus (Agenioideus) Ashmead, Sericopompilus Howard, Episyron Schiødte, Poecilopompilus Ashmead, Tachypompilus Ashmead, Lophopompilus Radoszkowski, Notiochares Banks, Arachnophroctonus Howard, Anoplius Dufour, Xerochares Evans, Ammosphex Wilcke, Arachnospila Kincaid, and Priochilus Banks. New host families are presented for species of Chirodamus (Pycnothelidae), Pepsis (Actinopodidae, Idiopidae, Lycosidae), Priocnessus (Lycosidae), Pompilocalus (Barychelidae), Priocnemis (Araneidae), Ageniella (Trechaleidae), ?Aridestus (Theraphosidae), Agenioideus (Agenioideus) (Pimoidae), Tachypompilus (Theraphosidae, Amaurobiidae, Sicariidae), Lophopompilus (Tracheleidae), Arachnophroctonus (Theraphosidae), and Anoplius (Corinnidae, Cybaeidae). First-time host spider families are introduced for Chirodamus hirsutulus (Spinola) (Pycnothelidae), Pepsis albocinta Smith (Actinopodidae), P. elevata Fabricius (Theraphosidae, Lycosidae), P. plutus Erichson (Theraphosidae), P. amyntas Mocsáry (Actinopodidae), P. ?chrysoptera Burmeister (Pycnothelidae), P. viridisetosa Spinola (orange-winged variant) (Theraphosidae); Priocnessus apache Banks (Agelenidae), P. nebulosus (Lycosidae), P. nuperus (Cresson) (Agelenidae, Lycosidae), Entypus velutinus (Taschenberg) (Ctenidae), Pompilocalus nemequene Roig-Alsina (Barychelidae), Priocnemis sp. (Araneidae), Auplopus comparatus (Smith) (Sparassidae), Ageniella (Ageniella) coronata Banks (Gnaphosidae), Ageniella (Ageniella) cupida (Cresson) species-group (Agelenidae), Ageniella (Ameragenia) sanguinolenta (Smith) (Trechaleidae), ?Aridestus bergi (Holmberg) (Theraphosidae), Agenioideus (Agenioideus) humilis (Cresson) (Pimoidae), Poecilopompilus costatus (Taschenberg) (Araneidae), P. familiaris (Banks) (Thomisidae), P. fervidus (Smith) (Araneidae), Tachypompilus ferrugineus (Amaurobiidae), T. pallidus (Banks) (Theraphosidae), T. unicolor cerinus Evans (Sicariidae), Tachypompilus sp. (Theraphosidae), Anoplius (Lophopompilus) carolina (Banks) (Trachelidae), Anoplius (Notiochares) triquetrus (Fox) (Lycosidae), Anoplius (Arachnophroctonus) vividus (Smith) (Theraphosidae), ?Anoplius (Anoplius) imbellis Banks (Cybaeidae), Anoplius triquetrus (Fox) (Lycosidae), Anoplius sp. [undescribed] (Corinnidae), Arachnospila imitatrix Wahis or A. trochilinus (Holmberg) (Lycosidae), A. titicacaensis (Strand) (Lycosidae), and Priochilus regius (Fabricius) (Cyrtaucheniidae). Actinopodidae (mouse spiders), Idiopidae (true trapdoor spiders), Sicariidae (recluse and violin spiders), Cybaeidae (water spiders), and Pimoidae are reported as first-time pompilid host spider families. Our new records on nesting behavior and host spiders for the diverse family Pompilidae highlight the valuable information provided by citizen science and the use of such platforms as iNaturalist.org
ZooBank registration. urn:lsid:zoobank.org:pub:853E1294-B73D-43B8-8D82-AFD2E0B00352
928
We present 112 new and unusual host records for 63 species and subspecies of Pompilidae (Hymenoptera) from the Western Hemisphere in modified taxonomic order according to the Synoptic Catalog of Hymenoptera (Krombein 1979). These records supplement those reported in a recent study by Kurczewski et al. (2020b). New and atypical genus and species host records are given for the genera Calopompilus Ashmead, Herbstellus Wahis, Pepsis Fabricius, Priocnessus Banks, Entypus Dahlbom, Pompilocalus RoigAlsina, Sphictostethus Kohl, Priocnemis Schiødte, Caliadurgus Fabricius, Epipompilus Kohl, Auplopus Spinola, Ageniella Banks, Eragenia Banks, Agenioideus Ashmead, Sericopompilus Howard, Poecilopompilus Ashmead, Tachypompilus Ashmead, and Priochilus (Fabricius). New host spider families are introduced for species of Calopompilus (Nemesiidae), Pepsis (Idiopidae, Pycnothelidae), Priocnessus (Euagridae), Entypus (Agelenidae), Ageniella (Theridiidae, Zoropsidae), Agenioideus (Theridiidae), Poecilopompilus (Salticidae), Tachypompilus (Anyphaenidae, Xenoctenidae, Pycnothelidae), Xerochares (Sparassidae), and Priochilus (Agelenidae). Curicaberis ?culiacans Rheims (Sparassidae), as prey of Xerochares expulsus (Schulz), is the first host record for this rare monotypic genus. Four new host spider families are reported from the Western Hemisphere for the first time: Idiopidae for Pepsis terminata, Pycnothelidae for Pepsis completa Smith and Tachypompilus mendozae (Dalla Torre), Euagridae for Priocnessus hurdi Dreisbach, and Xenoctenidae for T. mendozae. Pycnothelidae represents the first host record of a mygalomorph spider [Acanthogonatus ?incursus (Chamberlin)] for the worldwide genus Tachypompilus, based on more than 2500 host records. Amputation of the host spider’s legs and Ageniellini method of prey transport is highly unique in Poecilopompilus mixtus.
ZooBank registration. urn:lsid:zoobank.org:pub:48EC3DE6-45D1-40E2-8C4D-2D8788058CAC
491
Four new species of the genus Polyphylla Harris (Coleoptera: Scarabaeidae: Melolonthinae) from the southwestern United States and Baja California, Mexico, are described and illustrated: Polyphylla anivallis, P. koso, P. morroensis, and P. socorriana. Two nomenclatural changes are proposed: Polyphylla ratcliffei Young is placed into synonymy with P. avittata Hardy and Andrews, new synonymy; P. uteana Tanner is removed from synonymy and reinstated as a valid species, reinstated status. The females of P. monahansensis Hardy and Andrews and P. stellata Young are described and illustrated. New distributional records and ecological associations are amended for P. avittata Hardy and Andrews, P. cavifrons LeConte, P. concurrens Casey, P. crinita LeConte, P. diffracta Casey, P. mescalerensis Young, P. petitii (Guérin-Méneville), and P. rugosipennis Casey. A checklist of the “Western Clade” species of Polyphylla, north of Mexico, is included.
0077
The classification of the genus Megalographa Lafontaine and Poole, 1991, is reviewed and the five known species diagnosed. The genus is essentially restricted to the New World, although one species M. biloba (Stephens) is migratory and has occasionally straggled to western Europe. A new species (Megalographa talamanca Lafontaine and Sullivan) endemic to the Talamanca Mountain Range in Costa Rica is described. Adults and genitalia are illustrated.
627
Morphological and cytochrome oxidase 1 (Cox1) data show that Aphis floridanae Tissot (Hemiptera: Aphididae) is not synonymous with A. nasturtii Kaltenbach. Instead, A. floridanae matches the morphological characters of A. impatientis Thomas. Additionally, the range of cytochrome oxidase 1 (Cox1) pair-wise distance of the multiple collections of A. impatientis on Cornus spp., Impatiens spp. and Erechtites hieraciifolius (L.) Raf. ex DC. is 0–0.39%. Therefore, we conclude that A. floridanae Tissot, 1933 is a junior synonym of A. impatientis Thomas, 1878, new synonymy. In addition, A. impatientis is re-described, including first descriptions of the ovipara and alate male of that species.
870
The soybean aphid, Aphis glycines Matsumura (Hemiptera: Aphididae), is a major pest of soybean, Glycine max (L.) Merr., both in Asia where it is native, and in the USA where it is adventive. The rapid spread and establishment of the soybean aphid in the USA since its discovery in 2000 was successful because of extensive soybean production in the Midwest and the wide distribution of common buckthorn, Rhamnus cathartica (L.), its preferred primary winter host. The survivorship of four soybean aphid biotypes on common and glossy buckthorn, Frangula alnus Mill., were compared. Our study showed that nymph oviparae of soybean aphid biotypes 1, 2, 3 and 4 reached adulthood and produced eggs on glossy buckthorn. When comparing morphs between the hosts, greater numbers were recorded on common than glossy buckthorn, with one exception where the number of eggs per bud for soybean aphid biotype 2 was not different between the hosts. We found for the first-time soybean aphid biotypes 2 and 3 apterous males produced on common and glossy buckthorn. Morphological descriptions of live and mounted alate and apterous males are presented.
946
Lipaphis alliariae Müller (Hemiptera: Aphididae) was identified from specimens collected in Lake County, Ohio, on the invasive garlic mustard, Alliaria petiolata (Bieb.) Cavara & Grande (Brassicaceae). The identification was performed on apterous viviparae using morphological and molecular data. Body color and shape of the cauda discriminated L. alliariae and L. pseudobrassicae Davis. Measurements of morphological characters of both species were similar, but they have distinct characters distinguishing them fromL. erysimi Kaltenbach. Neighbor-joining analysis of cytochrome oxidase 1 (Cox1) barcoding indicated a close relationship of the aphids that feed on Brassicaceae, and the range of pair-wise distances for Cox1 barcoding of these species was 0.3–0.9%.
ZooBank registration. urn:lsid:zoobank.org:pub:2A838BC1-6652-4042-B326-8351FBF6C329
535
Aphis elena Lagos-Kutz and Voegtlin, sp. nov. (Hemiptera: Aphididae), is described from specimens collected in Illinois, USA, on the North American native plant, Pycnanthemum virginianum (L.) T. Dur. & B.D. Jacks. ex B.L. Rob. & Fernald (Family: Lamiaceae). Both apterous and alate viviparae are described and illustrated, and a dichotomous key is provided to apterous and alate viviparae of the six species of Aphis that have been recorded on plants in the family Lamiaceae in North America. Neighbor-joining analysis of cytochrome oxidase 1 (Cox1) indicated a close relationship of the new species with Aphis monardae Oestlund, which also feeds on a member of Lamiaceae. The range of pair-wise distances for DNA barcoding of these species is 0.17–0.33%. The newly described Aphis elena is morphologically more similar to Aphis gossypii Glover than it is to Aphis monardae.
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.
988
A team of experienced lepidopterists sampled the butterfly fauna of Peru’s Cosñipata Region from 400 to 4,000 m elevation for more than a decade (7,440 field person hours) and supplemented this sample with data from museum specimens and the scientific literature. An annotated checklist of Cosñipata Riodinidae (Lepidoptera: Papilionoidea) documents 398 species, which represents 29% of the world Riodinidae fauna. For each, it lists sample abundance, adult behavior, elevation, and temporal distribution. In the fieldwork sample, 75 species (20.9%) were sampled once and 39 (9.8%) were not encountered (collected or imaged by others). A riodinid species of median abundance was sampled an average of once every 826 field person-hours. Sampled sex ratios were 81.2% male, but were not statistically higher in species in which male perching behavior was observed. We document examples of conspicuous geographic variation in the time of male perching behavior. Species richness is greatest at low elevation and at the transition between the dry and wet seasons. There is little evidence that the community is composed of species restricted to narrow elevational bands or restricted in the adult stage to a single season. Compared with Lycaenidae, Riodinidae are significantly more restricted to lowland habitats and were sampled 2.5 times as frequently with a mean number of individuals per species more than twice as great as that of Lycaenidae.
ZooBank registration. urn:lsid:zoobank.org:pub:51233294-9511-41E4-980F-5A0D9080C680
0320
For the first time in Brazil, the weevil Cissoanthonomus tuberculipennis Hustache, 1939 (Coleoptera: Curculionidae) are reported preying on seeds of Cardiospermum grandiflorum Swartz (Sapindaceae). Observations are presented on oviposition and larval behavior, pupation site, and adult emergence. Photos of host plant, egg, larva, pupa and adult are provided.
578
Tragosoma soror (Coleoptera: Cerambycidae: Prioninae), a new Nearctic species, is described and compared to its North American congeners. Tragosoma harrisii LeConte, revised status, and Tragosoma spiculum Casey, revised status are both resurrected from synonymy and considered valid species distinct from T. depsarium (Linnaeus). The Mexican T. nigripenne Bates is confi rmed as a valid species. Tragosoma chiricahuae Linsley, new synonym, is placed in synonymy under T. spiculum Casey, and T. sodale Casey, new synonym, T. parvicolle Casey, new synonym, and T. repens Casey new synonym are placed in synonymy under T. harrisii. Tragosoma repens is a junior objective synonym of T. parvicolle. A lectotype is designated for T. sodale. An updated synonymical and distributional checklist of Tragosoma of the world is provided.
961
The subfamily Carventinae (Heteroptera: Aradidae) is revised for New Zealand. Eight genera and fifteen species are recognized. One genus and six species are described as new: Carventaptera hallae Larivière and Larochelle new species, Lissaptera heissi Larivière and Larochelle new species, Modicarventus kirmani Larivière and Larochelle new species, Neocarventus montanus Larivière and Larochelle new species, Neocarventus northlandicus Larivière and Larochelle new species, Neocarventus potterae Larivière and Larochelle new species, Tuataraptera Larivière and Larochelle new genus. One new combination is established: Neocarventus uncus Kirman, 1989 = Tuataraptera unca (Kirman, 1989). One new synonymy is made: Leuraptera yakasi Heiss, 1990 = Leuraptera zealandica Usinger and Matsuda, 1959. A revision of al taxa is provided. Descriptions, identification keys, illustrations of male genitalia, habitus photos, distributional data and maps are given. Extensive information on biology is included for each species.
ZooBank registration. urn:lsid:zoobank.org:pub:CAF794A0-89C7-498F-84D0-940FDDB648F3
1058
The subfamily Prosympiestinae (Heteroptera: Aradidae) is revised for New Zealand. Three genera and thirteen species are recognized. Five species are described as new: Neadenocoris centralis Larivière and Larochelle new species, Neadenocoris hoarei Larivière and Larochelle new species, Neadenocoris northlandicus Larivière and Larochelle new species, Neadenocoris pseudovatus Larivière and Larochelle new species, Neadenocoris wellingtonensis Larivière and Larochelle new species. One new synonymy is established: Neadenocoris reflexus Usinger and Matsuda, 1959 becomes a junior synonym of Neadenocoris acutus Usinger and Matsuda, 1959. A revision of all taxa is provided. Descriptions, identification keys, illustrations of male parandria, habitus photos, distributional data and maps are given. Extensive information on biology is included for each species.
ZooBank registration. urn:lsid:zoobank.org:pub:BFF9716E-100D-492F-8F11-6F8EFBADF940
0415
The genus Bembidion Latreille (Carabidae: Bembidiini) is reviewed for New Zealand. Thirty-six species-group taxa are recognized. Seven species are described as new: Bembidion (Zecillenus) karikari new species, Bembidion (Zecillenus) puponga new species, Bembidion (Zecillenus) tepaki new species, Bembidion (Zecillenus) waimarama new species, Bembidion (Zemetallina) bullerense new species, Bembidion (Zemetallina) mangamuka new species, Bembidion (Zemetallina) waiho new species. The taxonomic status of two species-group taxa is changed (valid names listed after equal sign): Bembidion (Zeactedium) orbiferum giachinoi Toledano, 2005 = Bembidion (Zeactedium) giachinoi Toledano, 2005; Bembidion (Zeperyphodes) nesophilum Broun, 1886 (previously synonymized with Bembidion (Zeperyphodes) callipeplum Bates, 1878) is resurrected from synonymy. A new synonymy is established (valid name listed after equal sign): Bembidion (Ananotaphus) rotundicolle eustictum Bates, 1878 = Bembidion (Ananotaphus) rotundicolle Bates, 1874. A concise review of the taxonomy of all taxa is provided.
Descriptions, identifi cation keys, illustrations of male genitalia, habitus photos, as well a s distributional data and
maps are given. Extensive information on ecology, biology, dispersal power, and collecting techniques is included for each species.
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.
502
Taxonomic supplement (2001 to 2015) to the catalogue of New Zealand Carabidae (Insecta: Coleoptera)
(2016)
A supplement to the “Carabidae (Insecta: Coleoptera): catalogue” published by Larochelle and Larivière (2001; Fauna of New Zealand 43), is provided. A total of 99 genera and 547 species and subspecies belonging to 21 tribes and 8 subfamilies of Carabidae (including Cicindelini and Rhysodini), is recorded for New Zealand. Endemism is high, with 93% of the species and subspecies as well as 62% of the genera recorded from this country only. Changes to the 2001 catalogue are documented. The synonymy and type locality of taxa described between 2001 and 2015 are also provided.
942
The tribe Amarotypini (Coleoptera: Carabidae: Migadopinae) is revised for New Zealand. Three genera and fourteen species are recognized.
Two genera and thirteen species are described as new: Amarophilus Larochelle and Larivière new genus, Amarophilus lomondensis Larochelle and Larivière new species, Amarophilus otagoensis Larochelle and Larivière new species, Amarophilus rotundicollis Larochelle and Larivière new species, Amarophilus wanakensis Larochelle and Larivière new species, Amarotypus fiordlandensis Larochelle and Larivière new species, Amarotypus glasgowensis Larochelle and Larivière new species, Amarotypus murchisonorum Larochelle and Larivière new species, Amarotypus simoninensis Larochelle and Larivière new species, Amarotypus takaheensis Larochelle and Larivière new species, Amaroxenus Larochelle and Larivière new genus, Amaroxenus arnaudensis Larochelle and Larivière new species, Amaroxenus glacialis Larochelle and Larivière new species, Amaroxenus huttensis Larochelle and Larivière new species, Amaroxenus kahurangiensis Larochelle and Larivière new species.
A revision of all taxa is provided. Descriptions, identification keys, illustrations of male genitalia, habitus photos, distributional data and maps are given. Information on ecology, biology, dispersal power, and collecting techniques is included for each species.
ZooBank registration. urn:lsid:zoobank.org:pub:6BBC7A99-0736-44D1-BAD1-3C719F9A69C2
594
The tribe Zolini (Carabidae: Trechinae) is revised for New Zealand. Two subtribes, fi ve genera, and fortyeight species are recognized. The presence of the subtribe Merizodina is confi rmed for New Zealand; it includes three genera (Maungazolus n. gen., Pseudoopterus Csiki, 1928, and Synteratus Broun, 1909). The subtribe Zolina contains two genera (Oopterus Guérin-Méneville, 1841 and Zolus Sharp, 1886).
One genus and twenty-fi ve species are described as new: Maungazolus n. gen.; Maungazolus acutus n. sp., Maungazolus priestleyensisn. sp., Maungazolus ranatungaen. sp., Maungazolus septempunctatus n. sp., Maungazolus tararuaensisn. sp., Oopterus anglemensisn. sp., Oopterus arthurensisn. sp., Oopterus corvinki n. sp., Oopterus discoideus n. sp., Oopterus garnerae n. sp., Oopterus marrisin. sp., Oopterus mohiensis n. sp., Oopterus monticola n. sp., Oopterus nanus n. sp., Oopterus nunni n. sp., Oopterus palmai n. sp., Oopterus punctatus n. sp., Oopterus quadripunctatus n. sp., Oopterus taieriensis n. sp., Oopterus trechoides n. sp., Pseudoopterus fi ordlandensis n. sp., Pseudoopterus otiraensis n. sp., Zolus kauriensis n. sp., Zolus unisetosus n. sp., Zolus wongi n. sp.
Lectotypes are designated for Zolus helmsi Sharp, 1886 and Oopterus parvulus Broun, 1903.
Seven taxa are reinstated as valid genera and previous combinations: Zolus Sharp, 1886 and Pseudoopterus Csiki, 1928 (previously synonymized with Oopterus Guérin-Méneville,1841); Oopterus carinatus Broun, 1882 = Zolus carinatus (Broun, 1882); Oopterus helmsi (Sharp, 1886) = Zolus helmsi Sharp, 1886; Oopterus latipennis Broun, 1903 = Pseudoopterus latipennis (Broun, 1903); Oopterus plicaticollis Blanchard, 1843 = Pseudoopterus plicaticollis (Blanchard, 1843); Oopterus subopacus (Broun, 1915) = Zolus subopacus Broun, 1915.
Three new combinations are established: Oopterus pallidipes Broun, 1893 = Maungazolus pallidipes (Broun, 1893); Oopterus parvulus Broun, 1903 = Maungazolus parvulus (Broun, 1903); Oopterus pygmeatus Broun, 1907 = Maungazolus pygmeatus (Broun, 1907).
Eleven new synonymies are established: Oopterus basalis Broun, 1915 and Oopterus minor Broun, 1917 = Maungazolus pygmeatus (Broun, 1907); Oopterus nigritulus Broun, 1908 and Oopterus laevigatus Broun, 1912 = Oopterus sobrinus Broun, 1886; Oopterus sculpturatus ovinotatus Broun, 1908 = Oopterus sculpturatus Broun, 1908; Oopterus probus Broun, 1903 and Oopterus latifossus Broun, 1917 = Pseudoopterus latipennis (Broun, 1903); Oopterus puncticeps Broun, 1893 = Oopterus laevicollis Bates, 1871; Zolus atratus Broun, 1893 and Zolus femoralis Broun, 1894 = Zolus carinatus (Broun, 1882); Zolus labralis Broun, 1921 = Zolus helmsi Sharp, 1886.
A revision of all taxa is provided. Descriptions, identifi cation 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.
1036
The genus Cerabilia Laporte de Castelnau (Carabidae: Abacetini) is revised for New Zealand. Thirteen species are recognized.
Seven species are described as new: Cerabilia (Cerabilia) cordata Larochelle and Larivière new species, Cerabilia (Cerabilia) kaihoka Larochelle and Larivière new species, Cerabilia (Cerabilia) laevis Larochelle and Larivière new species, Cerabilia (Cerabilia) motunau Larochelle and Larivière new species, Cerabilia (Cerabilia) rugosa Larochelle and Larivière new species, Cerabilia (Cerabilia) takaka Larochelle and Larivière new species, Cerabilia (Cerabilia) willi Larochelle and Larivière new species.
A lectotype is designated for Zabronothus striatulus Broun, 1893.
A revision of all species of Cerabilia (Cerabilia) is provided. Descriptions, an identification key, illustrations of male genitalia, habitus photos, distributional data, and maps are given. Information on ecology, biology, dispersal power, and collecting techniques is included for each species.
ZooBank registration. urn:lsid:zoobank.org:pub:7E3F093D-A5EA-4912-8B30-8380A6F2D890
0387
0425
0351
0391
512
Two new species of Eburiini (Coleoptera, Cerambycidae, Cerambycinae) are described from Mexico (Guerrero): Susuacanga boteroi; and Eburia (Eburia) girouxae. Both are included in previous keys.