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The checkered beetle genera Parvochaetus, n. gen. and Amboakis, n. gen. are described and the genus Ellipotoma Spinola is reviewed. Four new species plus P. linearis (Gorham), which represents a new combination, comprise Parvochaetus: P. albicornis, P. froeschneri, P. fucolatus, and P. sandaracus. Amboakis, a replacement name for the junior homonym Teutonia Opitz, involves four previously described species and 20 new species. The new species are A. anapsis, A. atra, A. barinas, A. binotonis, A. cauca, A. charis, A. epiomidia, A. erythrohapsis, A. funebris, A. incondita, A. katatonis, A. linitis, A. mica, A. micula, A. prolata, A. rudis, A. taruma, A. selva, A. stenosis, and A. vesca. Four previously described species now classified under Amboakis involve new combinations; they are Epiphloeus capitatus Gorham, Epiphloeus nitidus Gorham, Phlogistosternus flavicollis Zayas, and Teutonia nova Opitz. The bitypic Ellipotoma contains E. tenuiformis Spinola and E. turmalis, n. sp. Lectotypes are designated for Epiphloeus capitatus Gorham, Apolopha linearis Gorham, Epiphloeus nitidus Gorham, and Ellipotoma tenuiformis Spinola.
Parvochaetus specimens may be distinguished from Amboakis and Ellipotoma specimens by the extraordinarily slender antennal club. The expanded condition of the funicular antennomeres will separate specimens of Parvochaetus and Amboakis from those of Madoniella. Specimens of the bitypic genus Ellipotoma are very slender in body form and the elytral disk is devoid of secondary (2o) setae. These features will easily separate Ellipotoma specimens from those of Madoniella. On the basis of adult external morphology Parvochaetus and Amboakis may be conveniently organized into monophyletic species groups, 5 in Parvochaetus and 9 in Amboakis. Descriptions of the alimentary canal of Amboakis nova (Opitz) and of the stomodaeal valves of A. nova and Ellipotoma tenuiformis Spinola are provided and serve as basic data for subsequent analyses involving higher categories. The alimentary canal involves a well-differentiated stomodaeum, ventriculus, and proctodaeum. The ventricular papillae are poorly developed and there are 4 cryptonephridial Malpighian tubules. The stomodaeal valve is comprised of 4 primary lobes with the lateral lobes longer and more slender than shorter dorsal and
ventral lobes; the ventral lobe is particularly broad. The male internal reproductive organs are characterized by having two pairs of accessory glands with the medial being longer than the lateral. A well-developed spermatheca and saccular bursa copulatrix are important features of the female internal organs. Species descriptions, a key to species, and biological information are included. These checkered beetles are diurnal, considerably active flyers, and are predators of lignicolous insects and particularly of bark beetles. Included is a discourse of species level and supraspecific level discontinuities. Differences in the aedeagus, antennae, body form, presence or absence of 2o setae, and arrangement of punctations on the elytral disc were important characters in the discernment of species. Forty characters of Parvochaetus, Amboakis, and Ellipotoma
and their states were polarized to hypothesize intergeneric relationships and intrageneric relationships of Parvochaetus and Amboakis. Hennigian principles of phylogenetic analysis were implemented to prepare two trees. The predominant distribution of Parvochaetus, Amboakis, and Ellipotoma taxa in South America suggests that the progenitor of these genera may have existed on that continent with subsequent dispersal and vicariant events distributing species throughout Middle America and onto islands of the Greater Antilles. Pre-Tertiary South American diversification produced 3 ancestral stocks, each of which fostered lineages that migrated northward via the proto-Antillean Archipelago across the isthmanian closure of the late Tertiary. These temporal frameworks, paleographic dispersals, and vicariant events would explain the presence of relatively primitive,
and derived Amboakis elements in Mexico and the presence in Middle America of some more derived descendants from South American ancestral stocks. Herein, is included a list of specimen repositories and collection managers, key to species groups and species, Table of character analysis, Table that describes distributions of these checkered beetles in montane and nonmontane refugia, three halftone habitus illustrations, 146 line drawings, 16 SEM photographs, 10 distribution maps, and 2 diagrams that depict hypotheses of phylogeny.
The subfamily Epiphloeinae is defined to include fourteen genera as follows: Epiphloeus Spinola; Pilosirus, new genus; Plocamocera Spinola; Iontoclerus, new genus; Arenaria, new genus; Ichnea Laporte; Diapromeces, new genus; Pyticeroides Kuwert; Ellipotoma Spinola; J{atamyurus, new genus; Megatrachys, new genus; Madoniella Pic; Hapsidopteris, new genus; and Teutonia, new genus. The following type-species are described: Pilosirus brunoi, new species; Arenaria chiapas, new species; Diapromeces aclydis, new species; Katamyurus paxillus, new species; Megatrachys paniculus, new species; Hapsidopteris diastenus, new species; and Teutonia nova, new species. Elloplium humerale Klug is designated as the typespecies of Iontoclerus. The genus Madolliella is removed from the subfamily Korynetinae andis declared a senior synonym of Phlogistosternus Wolcott. Neiclmea is synonymized with Pyticeroides. This treatise includes a key to the genera of Epiphloeinae, descriptions of the genera and new type-species, and distribution map for each genus.
The New World genus Axina Kirby (Coleoptera: Cleridae) is revised for the first time. Thirty-two new species are described: Axina acutipennis, A. adelosa, A. atmis, A. bahia, A. bella, A. brunnea, A. chiasta, A. furcula, A. heveli, A. ignota, A. klisis, A. latilinea, A. lobispinula, A. luzia, A. macilenta, A. megaspina, A.minas, A. ochra, A. oligocheia, A. ordinis, A. orcastomata, A. pallidioccabus, A. phallospina, A. piperata, A. pollex, A. polycaula, A. rio, A. schenklingi, A. spina, A. trinalis, A. villa, and A. vista. The 19 previously described species are: Axina analis Kirby, A. apicalis Pic, A. basalis Schenkling, A. bifasciata (Chevrolat), A. centrimaculata Schenkling, A. conspicua Schenkling, A. diversesignata Pic, A. equestris (Schenkling), A. fasciata Kirsch, A. fortipes Pic, A. lateralis Pic, A. longevittata Pic, A. munda Schenkling, A. nigrifrons Schenkling, A.parcepunctata Schenkling, A. picta Schenkling, A. plagiata Schenkling, A. proxima (Chevrolat), and A. sexmaculata Spinola. Two species Priocera equestris Schenkling and Priocera proxima Chevrolat, are transferred into the genus Axina becoming new combinations: Axina equestris (Schenkling) and Axina proxima (Chevrolat). Two names, Priocera podagrica Schenkling, 1900, and P. podagrica variety pygmaea Schenkling, 1902, are new synonymies of Priocera proxima Chevrolat, 1876. Lectotypes are here designated for nine species: Axina basalis Schenkling, 1900; Axina centrimaculata Schenkling, 1900; Axina conspicua Schenkling, 1900; Axina diversesignata Pic, 1946; Axina munda Schenkling, 1900; Axina nigrifrons Schenkling, 1906; Axina parcepunctata Schenkling, 1900; Axina picta Schenkling, 1907; and Axina plagiata Schenkling, 1900. It is proposed that Axina species are predators of lignicolous insects, particularly bark beetles. The species of Axina can be classified into eight species groups and a theory of their phylogenetic relationships is proposed via WINCLADA in conjunction with NONA. Of the 51 species that now comprise Axina, only one traversed the Panamanian portal before the Colombian Andes reached their modern altitudes. This work includes a generic-level morphological analysis, brief treatise of natural history, key to species, comments about Axinazoogeography, and hypotheses of species-group phylogeny.
The West Indian genus Onychotillus Chapin (Coleoptera: Cleridae: Tillinae) is revised and includes O. androwi Opitz, new species, O. apiculus Opitz, new species, O. cinctipennis (Chevrolat,1874), O. cubana de Zayas,1988, O. dimidiatus de Zayas,1988, O. lineatus Opitz, new species, O. minutus de Zayas,1988, O. trinitatis de Zayas,1988, O. woodruffi Opitz, new species, and O. vittatus Chapin,1945.
Two new genera, Skelleyus Opitz and Divulgoatus Opitz (Coleoptera: Cleridae: Enopliinae), show unusual antennal development. Funicular antennomeres become shorter as they approach an extensive capitulum. This study involves three taxa, Skelleyus leavengoodi Opitz, new species, Divulgoatus kelleri Opitz, new species, and Divulgoatus discrepans (Gorham).
ZooBank registration. urn:lsid:zoobank.org:pub:E059A916-DDE2-4193-A090-8CDD46EDC859