Research output: Contribution to journal › Article › peer-review
Phylogeny of Lumbricidae based on mitochondrial genomes with emphasis on the genus Dendrobaena. / Shekhovtsov, S. V.; Rapoport, I. B.; Leonov, P. A. et al.
In: Organisms Diversity and Evolution, 24.10.2024.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Phylogeny of Lumbricidae based on mitochondrial genomes with emphasis on the genus Dendrobaena
AU - Shekhovtsov, S. V.
AU - Rapoport, I. B.
AU - Leonov, P. A.
AU - Poluboyarova, T. V.
AU - Yurlova, G. V.
AU - Shipova, A. A.
AU - Vasiliev, G. V.
AU - Golovanova, E. V.
AU - Roohi Aminjan, A.
AU - Latif, R.
N1 - This study was supported by the grant of the Russian Foundation for Basic Research (RFBR) no. 20–54-5603_Iran_t and of the Iran National Science Foundation no. 99003929, as well as by the State Budget Projects nos. AAAA-A18-122011900453–0 and FWNR-2022–0022.
PY - 2024/10/24
Y1 - 2024/10/24
N2 - Obtaining reliable phylogenies for earthworms used to be challenging due to the limited number of morphological characters and their high levels of homoplasy. Methods utilizing DNA sequences have shown promise, but the amount of available data is still limited, and comparing results from different papers that utilize different molecular markers can be difficult. Mitochondrial genomes offer a convenient tool for phylogenetic analysis: they are relatively easy to obtain and can be appended to further studies. In this study, we added 28 new lumbricid mitochondrial genomes, with a focus on little-studied taxa from the Caucasus, primarily belonging to the Dendrobaena genus. Our findings indicate that most representatives of the Dendrobaena genus formed a sister group to the other studied lumbricid genera. Notably, D. byblica did not fall within this clade, supporting the suggestion that it may belong to a separate genus. The remaining lumbricid genera mostly grouped together with several internal clades, and most remained unresolved, except for the clade consisting of Bimastos, Rapheodrilus, and Eisenia. Consistent with other studies, the genus Aporrectodea was found to be polyphyletic. Additionally, we identified several species complexes with extensive genetic diversity, including the D. schmidti and E. nordenskioldi complexes, as well as the group comprising D. veneta and D. hortensis.
AB - Obtaining reliable phylogenies for earthworms used to be challenging due to the limited number of morphological characters and their high levels of homoplasy. Methods utilizing DNA sequences have shown promise, but the amount of available data is still limited, and comparing results from different papers that utilize different molecular markers can be difficult. Mitochondrial genomes offer a convenient tool for phylogenetic analysis: they are relatively easy to obtain and can be appended to further studies. In this study, we added 28 new lumbricid mitochondrial genomes, with a focus on little-studied taxa from the Caucasus, primarily belonging to the Dendrobaena genus. Our findings indicate that most representatives of the Dendrobaena genus formed a sister group to the other studied lumbricid genera. Notably, D. byblica did not fall within this clade, supporting the suggestion that it may belong to a separate genus. The remaining lumbricid genera mostly grouped together with several internal clades, and most remained unresolved, except for the clade consisting of Bimastos, Rapheodrilus, and Eisenia. Consistent with other studies, the genus Aporrectodea was found to be polyphyletic. Additionally, we identified several species complexes with extensive genetic diversity, including the D. schmidti and E. nordenskioldi complexes, as well as the group comprising D. veneta and D. hortensis.
KW - Dendrobaena
KW - Lumbricidae
KW - MtDNA
KW - Phylogeny
UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001335696100003
UR - https://www.mendeley.com/catalogue/e1c395f6-7a84-387b-abe9-1215740d7e05/
U2 - 10.1007/s13127-024-00656-9
DO - 10.1007/s13127-024-00656-9
M3 - статья
JO - Organisms Diversity and Evolution
JF - Organisms Diversity and Evolution
SN - 1439-6092
ER -
ID: 61246024