Chevrolat, 1863, one of the most species-rich genera of Clytini, comprises 36 subgenera and 302 species/subspecies, with some species being of significant economic importance. To assess the monophyly and subgeneric system of this genus, we newly obtained mitochondrial genomic data from 21 species of via high-throughput sequencing and reconstructed the phylogeny of this genus using ML and BI methods. The mitochondrial genomes of all sequenced species were found to comprise 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs), and one non-coding region (control region, CR), reflecting a highly conserved gene arrangement. The mitochondrial genomes of the 21 species range from 15,387 bp to 15,779 bp in length, and all exhibited AT bias. Analysis of the non-synonymous and synonymous substitution rates revealed that has the highest evolution rate, whereas has the lowest. Further, phylogenetic analyses were performed based on different datasets (13 PCGs + 2 rRNAs, 13 PCGs + 2 rRNAs + 22 tRNAs, PCG123, PCG12) using maximum likelihood (ML) and Bayesian inference (BI) methods. The results indicate that is monophyletic, but the subgenera Özdikmen, 2011; Özdikmen, 2022; Özdikmen, 2022; and (s. str.) Chevrolat, 1863, are not monophyletic. Based on the comparison of male genitalia, we found that the sclerites of the endophallus may exhibit phylogenetic signals for the genus.
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Comparative Mitogenomics in the Genus (Coleoptera: Cerambycidae) and Its Phylogenetic Implications.
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December 2024
College of Plant Protection, Southwest University, Chongqing 400715, China.
Chevrolat, 1863, one of the most species-rich genera of Clytini, comprises 36 subgenera and 302 species/subspecies, with some species being of significant economic importance. To assess the monophyly and subgeneric system of this genus, we newly obtained mitochondrial genomic data from 21 species of via high-throughput sequencing and reconstructed the phylogeny of this genus using ML and BI methods. The mitochondrial genomes of all sequenced species were found to comprise 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs), and one non-coding region (control region, CR), reflecting a highly conserved gene arrangement.
View Article and Find Full Text PDFTaxonomic notes on the genus Chevrolat, 1863 (Coleoptera, Cerambycidae), with one new synonym and four newly recorded species from China.
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College of Plant Protection, Southwest University, Chongqing, China Southwest University Chongqing China.
Pic, 1918 is redescribed. Four species, Holzschuh, 1992, Holzschuh, 2016, Holzschuh, 1991 and Holzschuh, 1992 are newly reported from China. A new synonymy, (Chevrolat, 1863) = Pic, 1949, .
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State Key Laboratory of Palaeobiology and Stratigraphy, Nanjing Institute of Geology and Palaeontology, and Center for Excellence in Life and Paleoenvironment, Chinese Academy of Sciences, Nanjing 210008, China Nanjing Institute of Geology and Palaeontology, and Center for Excellence in Life and Paleoenvironment, Chinese Academy of Sciences Nanjing China.
More than 4700 nominal family-group names (including names for fossils and ichnotaxa) are nomenclaturally available in the order Coleoptera. Since each family-group name is based on the concept of its type genus, we argue that the stability of names used for the classification of beetles depends on accurate nomenclatural data for each type genus. Following a review of taxonomic literature, with a focus on works that potentially contain type species designations, we provide a synthesis of nomenclatural data associated with the type genus of each nomenclaturally available family-group name in Coleoptera.
View Article and Find Full Text PDFThe publication date of one of the works by Louis Alexandre Auguste Chevrolat is corrected. New records are provided for the following species and, in some cases, also with taxonomical notes: Cosmoplatidius lycoides (Gurin-Mneville, 1844); Eburodacrys notula Gounelle, 1909; Paranyssicus conspicillatus (Erichson, 1847); Argyrodines aurivillii (Gounelle, 1905); Hemilissa cornuta Bates, 1870; Isthmiade ichneumoniformis Bates, 1870; Chevrolatella tripunctata (Chevrolat, 1863); Oxymerus basalis (Dalman, 1823); Tropidion flechtmanni Santos-Silva, Nascimento & Biffi, 2019; Atrypanius remissus (Erichson, 1847); Nyssodrysternum amparense (Melzer, 1934); Nyssodrysternum rubiginosum Monn, 1975; Aegoschema moniliferum (White, 1855); Hippopsis quinquelineata Aurivillius, 1920; Callia fulvocincta Bates, 1866; Drycothaea angustifrons (Breuning, 1943); Drycothaea anteochracea (Breuning, 1974); Allocarterica buquetii (Thomson, 1860); Aerenea sulcicollis sulcicollis Melzer, 1932; Desmiphora (Desmiphora) lenkoi (Lane, 1959); Cacostola zanoa Dillon & Dillon, 1946; Sternycha diasi Martins & Galileo, 1990; and Anobrium punctatum Galileo & Martins, 2002. Correction of the Brazilian state of the type locality or previous records of the following species is provided: Chrysoprasis hypocrita Erichson, 1847; Coccoderus longespinicornis Fuchs, 1964; Compsibidion fairmairei (Thomson, 1865); Cycnidolon obliquum Martins, 1969; Dioridium hirsutum Zajciw, 1961; Eburodacrys rubicunda Monn & Martins, 1992; Engyum aurantium Martins, 1970; Oxymerus basalis (Dalman, 1823); Pachypeza phegea Dillon & Dillon, 1945; Aerenea brunnea Thomson, 1868.
View Article and Find Full Text PDFAdvance on the biology, behaviour ecology and management of the coffee white stem borer, Chevrolat, 1863 (Coleoptera: Cerambycidae).
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The coffee white stem borer, Chevrolat, 1863 (Coleoptera: Cerambycidae) - here removed from the synonymy with (Laporte & Gory, 1841) is the most notorious pest in Arabica coffee plantations in many southeast Asian countries. It can cause damage up to 80% in various gardens. The borer is reported on 16 different host plants other than coffee.
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