Результаты исследований: Научные публикации в периодических изданиях › Обзорная статья › Рецензирование
DNA-barcode and endophallus morphology delimit congruent species in a systematic revision of the oxyporine rove beetles of Russia (Coleoptera : Staphylinidae: Oxyporinae). / Tokareva, Alexandra S.; Konstantinov, Fedor V.; Brunke, Adam J.; Solodovnikov, Alexey.
в: Contributions to Zoology, Том 90, № 3, 07.06.2021, стр. 344-407.Результаты исследований: Научные публикации в периодических изданиях › Обзорная статья › Рецензирование
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TY - JOUR
T1 - DNA-barcode and endophallus morphology delimit congruent species in a systematic revision of the oxyporine rove beetles of Russia (Coleoptera
T2 - Staphylinidae: Oxyporinae)
AU - Tokareva, Alexandra S.
AU - Konstantinov, Fedor V.
AU - Brunke, Adam J.
AU - Solodovnikov, Alexey
N1 - Publisher Copyright: © 2021 Brill Academic Publishers. All rights reserved. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2021/6/7
Y1 - 2021/6/7
N2 - Rigorous species delimitation is a challenge in biology and systematics in particular. In insects, male genitalia traditionally, and the barcoding region of the CO1 gene recently, are the main markers to identify species, even though a standalone use of CO1 for that is often criticized. In our systematic revision of the mycophagous and in other ways peculiar oxyporine rove beetles of Russia, the legacy alpha-taxonomy could not be improved by traditional investigation of genitalia as they are unusually character-poor in this group. Using phylogenetic inference and ancestral state reconstruction, we demonstrate that CO1 and endophallus are useful markers for species delimitation in Oxyporus. We also show that manymorphological traits previously used for species delimitation in Oxyporus are in fact highly variable and thus inconsistent. We hypothesize that in Oxyporus diversification of the endophallic structures is driven by intense intra-A nd inter-species interactions of multiple individuals co-occurring in narrow spaces inside fungal bodies during mating. Our results encourage broader use of both markers, especially easyto-generate DNA barcodes, for the desired alpha-taxonomical work in Oxyporinae globally. The revision revealed 10 species of Oxyporus in the fauna of the Russian Federation; eliminated erroneous species records; established two new synonyms, Oxyporus (Oxyporus) basicornis Cameron, 1930 = O. (O.) aequicollis Bernhauer, 1935, syn.nov. = O. (O.) parvus Lee et al., 2020, syn. nov.; and raised the hypothesis that O. (O.) aokii Dvoaak, 1956, O. (O.) basiventris Jarrige, 1948 and O. (O.) kobayashii Hayashi, 2015 are conspecific with O. (O.) maxillosus Fabricius, 1793. Lectotypes are designated for O. (O.) basicornis Cameron, 1930, O. (O.) germanus Sharp, 1889, O. (O.) niger Sharp, 1889, and O. (O.) triangulus Sharp, 1889. Comprehensive taxonomic treatment and an identification key are provided for all species. c Alexandra S. Tokareva et al., 2021.
AB - Rigorous species delimitation is a challenge in biology and systematics in particular. In insects, male genitalia traditionally, and the barcoding region of the CO1 gene recently, are the main markers to identify species, even though a standalone use of CO1 for that is often criticized. In our systematic revision of the mycophagous and in other ways peculiar oxyporine rove beetles of Russia, the legacy alpha-taxonomy could not be improved by traditional investigation of genitalia as they are unusually character-poor in this group. Using phylogenetic inference and ancestral state reconstruction, we demonstrate that CO1 and endophallus are useful markers for species delimitation in Oxyporus. We also show that manymorphological traits previously used for species delimitation in Oxyporus are in fact highly variable and thus inconsistent. We hypothesize that in Oxyporus diversification of the endophallic structures is driven by intense intra-A nd inter-species interactions of multiple individuals co-occurring in narrow spaces inside fungal bodies during mating. Our results encourage broader use of both markers, especially easyto-generate DNA barcodes, for the desired alpha-taxonomical work in Oxyporinae globally. The revision revealed 10 species of Oxyporus in the fauna of the Russian Federation; eliminated erroneous species records; established two new synonyms, Oxyporus (Oxyporus) basicornis Cameron, 1930 = O. (O.) aequicollis Bernhauer, 1935, syn.nov. = O. (O.) parvus Lee et al., 2020, syn. nov.; and raised the hypothesis that O. (O.) aokii Dvoaak, 1956, O. (O.) basiventris Jarrige, 1948 and O. (O.) kobayashii Hayashi, 2015 are conspecific with O. (O.) maxillosus Fabricius, 1793. Lectotypes are designated for O. (O.) basicornis Cameron, 1930, O. (O.) germanus Sharp, 1889, O. (O.) niger Sharp, 1889, and O. (O.) triangulus Sharp, 1889. Comprehensive taxonomic treatment and an identification key are provided for all species. c Alexandra S. Tokareva et al., 2021.
KW - Aedeagus
KW - Co1
KW - Inner sac
KW - New synonyms
KW - Oxyporus s. str.
KW - Palaearctic
KW - Pseudoxyporus
KW - Taxonomy
KW - aedeagus
KW - PHYLOGENY
KW - CO1
KW - new synonyms
KW - taxonomy
KW - CHRYSOMELIDAE
KW - Pseudoxyporus, Palaearctic
KW - SOFTWARE
KW - EVOLUTION
KW - inner sac
UR - http://www.scopus.com/inward/record.url?scp=85108260541&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/ffc52615-d5e9-328b-945b-f40ca9e1f3ee/
U2 - 10.1163/18759866-bja10020
DO - 10.1163/18759866-bja10020
M3 - Review article
AN - SCOPUS:85108260541
VL - 90
SP - 344
EP - 407
JO - Contributions to Zoology
JF - Contributions to Zoology
SN - 1383-4517
IS - 3
ER -
ID: 78267304