Genomic data provide insights into the classification of extant termites

Simon Hellemans; Mauricio M. Rocha; Menglin Wang; Johanna Romero Arias; Duur K. Aanen; Anne Geneviève Bagnères; Aleš Buček; Tiago F. Carrijo; Thomas Chouvenc; Carolina Cuezzo; Joice P. Constantini; Reginaldo Constantino; Franck Dedeine; Jean Deligne; Paul Eggleton; Theodore A. Evans; Robert Hanus; Mark C. Harrison; Myriam Harry; Guy Josens; Corentin Jouault; Chicknayakanahalli M. Kalleshwaraswamy; Esra Kaymak; Judith Korb; Chow Yang Lee; Frédéric Legendre; Hou Feng Li; Nathan Lo; Tomer Lu; Kenji Matsuura; Kiyoto Maekawa; Dino P. McMahon; Nobuaki Mizumoto; Danilo E. Oliveira; Michael Poulsen; David Sillam-Dussès; Nan Yao Su; Gaku Tokuda; Edward L. Vargo; Jessica L. Ware; Jan Šobotník; Rudolf H. Scheffrahn; Eliana Cancello; Yves Roisin; Michael S. Engel; Thomas Bourguignon

doi:10.1038/s41467-024-51028-y

Genomic data provide insights into the classification of extant termites

Simon Hellemans^*, Mauricio M. Rocha, Menglin Wang, Johanna Romero Arias, Duur K. Aanen, Anne Geneviève Bagnères, Aleš Buček, Tiago F. Carrijo, Thomas Chouvenc, Carolina Cuezzo, Joice P. Constantini, Reginaldo Constantino, Franck Dedeine, Jean Deligne, Paul Eggleton, Theodore A. Evans, Robert Hanus, Mark C. Harrison, Myriam Harry, Guy JosensCorentin Jouault, Chicknayakanahalli M. Kalleshwaraswamy, Esra Kaymak, Judith Korb, Chow Yang Lee, Frédéric Legendre, Hou Feng Li, Nathan Lo, Tomer Lu, Kenji Matsuura, Kiyoto Maekawa, Dino P. McMahon, Nobuaki Mizumoto, Danilo E. Oliveira, Michael Poulsen, David Sillam-Dussès, Nan Yao Su, Gaku Tokuda, Edward L. Vargo, Jessica L. Ware, Jan Šobotník, Rudolf H. Scheffrahn, Eliana Cancello, Yves Roisin, Michael S. Engel, Thomas Bourguignon

^*Corresponding author af dette arbejde

Ecology and Evolution

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

14 Citationer (Scopus)

7 Downloads (Pure)

Abstract

The higher classification of termites requires substantial revision as the Neoisoptera, the most diverse termite lineage, comprise many paraphyletic and polyphyletic higher taxa. Here, we produce an updated termite classification using genomic-scale analyses. We reconstruct phylogenies under diverse substitution models with ultraconserved elements analyzed as concatenated matrices or within the multi-species coalescence framework. Our classification is further supported by analyses controlling for rogue loci and taxa, and topological tests. We show that the Neoisoptera are composed of seven family-level monophyletic lineages, including the Heterotermitidae Froggatt, Psammotermitidae Holmgren, and Termitogetonidae Holmgren, raised from subfamilial rank. The species-rich Termitidae are composed of 18 subfamily-level monophyletic lineages, including the new subfamilies Crepititermitinae, Cylindrotermitinae, Forficulitermitinae, Neocapritermitinae, Protohamitermitinae, and Promirotermitinae; and the revived Amitermitinae Kemner, Microcerotermitinae Holmgren, and Mirocapritermitinae Kemner. Building an updated taxonomic classification on the foundation of unambiguously supported monophyletic lineages makes it highly resilient to potential destabilization caused by the future availability of novel phylogenetic markers and methods. The taxonomic stability is further guaranteed by the modularity of the new termite classification, designed to accommodate as-yet undescribed species with uncertain affinities to the herein delimited monophyletic lineages in the form of new families or subfamilies.

Originalsprog	Engelsk
Artikelnummer	6724
Tidsskrift	Nature Communications
Vol/bind	15
Udgave nummer	1
Antal sider	17
ISSN	2041-1723
DOI	https://doi.org/10.1038/s41467-024-51028-y
Status	Udgivet - 2024

Bibliografisk note

Publisher Copyright:
© The Author(s) 2024.

Adgang til dokumentet

10.1038/s41467-024-51028-yLicens: CC BY-NC-ND

FulltextForlagets udgivne version, 4,1 MBLicens: CC BY-NC-ND

Citationsformater

Hellemans, S., Rocha, M. M., Wang, M., Romero Arias, J., Aanen, D. K., Bagnères, A. G., Buček, A., Carrijo, T. F., Chouvenc, T., Cuezzo, C., Constantini, J. P., Constantino, R., Dedeine, F., Deligne, J., Eggleton, P., Evans, T. A., Hanus, R., Harrison, M. C., Harry, M., ... Bourguignon, T. (2024). Genomic data provide insights into the classification of extant termites. Nature Communications, 15(1), Artikel 6724. https://doi.org/10.1038/s41467-024-51028-y

Hellemans, S, Rocha, MM, Wang, M, Romero Arias, J, Aanen, DK, Bagnères, AG, Buček, A, Carrijo, TF, Chouvenc, T, Cuezzo, C, Constantini, JP, Constantino, R, Dedeine, F, Deligne, J, Eggleton, P, Evans, TA, Hanus, R, Harrison, MC, Harry, M, Josens, G, Jouault, C, Kalleshwaraswamy, CM, Kaymak, E, Korb, J, Lee, CY, Legendre, F, Li, HF, Lo, N, Lu, T, Matsuura, K, Maekawa, K, McMahon, DP, Mizumoto, N, Oliveira, DE, Poulsen, M, Sillam-Dussès, D, Su, NY, Tokuda, G, Vargo, EL, Ware, JL, Šobotník, J, Scheffrahn, RH, Cancello, E, Roisin, Y, Engel, MS & Bourguignon, T 2024, 'Genomic data provide insights into the classification of extant termites', Nature Communications, bind 15, nr. 1, 6724. https://doi.org/10.1038/s41467-024-51028-y

@article{c6ff5334c12b444a82b8eb001b594b9a,

title = "Genomic data provide insights into the classification of extant termites",

abstract = "The higher classification of termites requires substantial revision as the Neoisoptera, the most diverse termite lineage, comprise many paraphyletic and polyphyletic higher taxa. Here, we produce an updated termite classification using genomic-scale analyses. We reconstruct phylogenies under diverse substitution models with ultraconserved elements analyzed as concatenated matrices or within the multi-species coalescence framework. Our classification is further supported by analyses controlling for rogue loci and taxa, and topological tests. We show that the Neoisoptera are composed of seven family-level monophyletic lineages, including the Heterotermitidae Froggatt, Psammotermitidae Holmgren, and Termitogetonidae Holmgren, raised from subfamilial rank. The species-rich Termitidae are composed of 18 subfamily-level monophyletic lineages, including the new subfamilies Crepititermitinae, Cylindrotermitinae, Forficulitermitinae, Neocapritermitinae, Protohamitermitinae, and Promirotermitinae; and the revived Amitermitinae Kemner, Microcerotermitinae Holmgren, and Mirocapritermitinae Kemner. Building an updated taxonomic classification on the foundation of unambiguously supported monophyletic lineages makes it highly resilient to potential destabilization caused by the future availability of novel phylogenetic markers and methods. The taxonomic stability is further guaranteed by the modularity of the new termite classification, designed to accommodate as-yet undescribed species with uncertain affinities to the herein delimited monophyletic lineages in the form of new families or subfamilies.",

author = "Simon Hellemans and Rocha, {Mauricio M.} and Menglin Wang and {Romero Arias}, Johanna and Aanen, {Duur K.} and Bagn{\`e}res, {Anne Genevi{\`e}ve} and Ale{\v s} Bu{\v c}ek and Carrijo, {Tiago F.} and Thomas Chouvenc and Carolina Cuezzo and Constantini, {Joice P.} and Reginaldo Constantino and Franck Dedeine and Jean Deligne and Paul Eggleton and Evans, {Theodore A.} and Robert Hanus and Harrison, {Mark C.} and Myriam Harry and Guy Josens and Corentin Jouault and Kalleshwaraswamy, {Chicknayakanahalli M.} and Esra Kaymak and Judith Korb and Lee, {Chow Yang} and Fr{\'e}d{\'e}ric Legendre and Li, {Hou Feng} and Nathan Lo and Tomer Lu and Kenji Matsuura and Kiyoto Maekawa and McMahon, {Dino P.} and Nobuaki Mizumoto and Oliveira, {Danilo E.} and Michael Poulsen and David Sillam-Duss{\`e}s and Su, {Nan Yao} and Gaku Tokuda and Vargo, {Edward L.} and Ware, {Jessica L.} and Jan {\v S}obotn{\'i}k and Scheffrahn, {Rudolf H.} and Eliana Cancello and Yves Roisin and Engel, {Michael S.} and Thomas Bourguignon",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

doi = "10.1038/s41467-024-51028-y",

language = "English",

volume = "15",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "nature publishing group",

number = "1",

}

TY - JOUR

T1 - Genomic data provide insights into the classification of extant termites

AU - Hellemans, Simon

AU - Rocha, Mauricio M.

AU - Wang, Menglin

AU - Romero Arias, Johanna

AU - Aanen, Duur K.

AU - Bagnères, Anne Geneviève

AU - Buček, Aleš

AU - Carrijo, Tiago F.

AU - Chouvenc, Thomas

AU - Cuezzo, Carolina

AU - Constantini, Joice P.

AU - Constantino, Reginaldo

AU - Dedeine, Franck

AU - Deligne, Jean

AU - Eggleton, Paul

AU - Evans, Theodore A.

AU - Hanus, Robert

AU - Harrison, Mark C.

AU - Harry, Myriam

AU - Josens, Guy

AU - Jouault, Corentin

AU - Kalleshwaraswamy, Chicknayakanahalli M.

AU - Kaymak, Esra

AU - Korb, Judith

AU - Lee, Chow Yang

AU - Legendre, Frédéric

AU - Li, Hou Feng

AU - Lo, Nathan

AU - Lu, Tomer

AU - Matsuura, Kenji

AU - Maekawa, Kiyoto

AU - McMahon, Dino P.

AU - Mizumoto, Nobuaki

AU - Oliveira, Danilo E.

AU - Poulsen, Michael

AU - Sillam-Dussès, David

AU - Su, Nan Yao

AU - Tokuda, Gaku

AU - Vargo, Edward L.

AU - Ware, Jessica L.

AU - Šobotník, Jan

AU - Scheffrahn, Rudolf H.

AU - Cancello, Eliana

AU - Roisin, Yves

AU - Engel, Michael S.

AU - Bourguignon, Thomas

PY - 2024

Y1 - 2024

N2 - The higher classification of termites requires substantial revision as the Neoisoptera, the most diverse termite lineage, comprise many paraphyletic and polyphyletic higher taxa. Here, we produce an updated termite classification using genomic-scale analyses. We reconstruct phylogenies under diverse substitution models with ultraconserved elements analyzed as concatenated matrices or within the multi-species coalescence framework. Our classification is further supported by analyses controlling for rogue loci and taxa, and topological tests. We show that the Neoisoptera are composed of seven family-level monophyletic lineages, including the Heterotermitidae Froggatt, Psammotermitidae Holmgren, and Termitogetonidae Holmgren, raised from subfamilial rank. The species-rich Termitidae are composed of 18 subfamily-level monophyletic lineages, including the new subfamilies Crepititermitinae, Cylindrotermitinae, Forficulitermitinae, Neocapritermitinae, Protohamitermitinae, and Promirotermitinae; and the revived Amitermitinae Kemner, Microcerotermitinae Holmgren, and Mirocapritermitinae Kemner. Building an updated taxonomic classification on the foundation of unambiguously supported monophyletic lineages makes it highly resilient to potential destabilization caused by the future availability of novel phylogenetic markers and methods. The taxonomic stability is further guaranteed by the modularity of the new termite classification, designed to accommodate as-yet undescribed species with uncertain affinities to the herein delimited monophyletic lineages in the form of new families or subfamilies.

AB - The higher classification of termites requires substantial revision as the Neoisoptera, the most diverse termite lineage, comprise many paraphyletic and polyphyletic higher taxa. Here, we produce an updated termite classification using genomic-scale analyses. We reconstruct phylogenies under diverse substitution models with ultraconserved elements analyzed as concatenated matrices or within the multi-species coalescence framework. Our classification is further supported by analyses controlling for rogue loci and taxa, and topological tests. We show that the Neoisoptera are composed of seven family-level monophyletic lineages, including the Heterotermitidae Froggatt, Psammotermitidae Holmgren, and Termitogetonidae Holmgren, raised from subfamilial rank. The species-rich Termitidae are composed of 18 subfamily-level monophyletic lineages, including the new subfamilies Crepititermitinae, Cylindrotermitinae, Forficulitermitinae, Neocapritermitinae, Protohamitermitinae, and Promirotermitinae; and the revived Amitermitinae Kemner, Microcerotermitinae Holmgren, and Mirocapritermitinae Kemner. Building an updated taxonomic classification on the foundation of unambiguously supported monophyletic lineages makes it highly resilient to potential destabilization caused by the future availability of novel phylogenetic markers and methods. The taxonomic stability is further guaranteed by the modularity of the new termite classification, designed to accommodate as-yet undescribed species with uncertain affinities to the herein delimited monophyletic lineages in the form of new families or subfamilies.

U2 - 10.1038/s41467-024-51028-y

DO - 10.1038/s41467-024-51028-y

M3 - Journal article

C2 - 39112457

AN - SCOPUS:85200939382

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6724

ER -