The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps

Astrid Cruaud; Jean Yves Rasplus; Junxia Zhang; Roger Burks; Gérard Delvare; Lucian Fusu; Alex Gumovsky; John T. Huber; Petr Janšta; Mircea Dan Mitroiu; John S. Noyes; Simon van Noort; Austin Baker; Julie Böhmová; Hannes Baur; Bonnie B. Blaimer; Seán G. Brady; Kristýna Bubeníková; Marguerite Chartois; Robert S. Copeland; Natalie Dale-Skey Papilloud; Ana Dal Molin; Chrysalyn Dominguez; Marco Gebiola; Emilio Guerrieri; Robert L. Kresslein; Lars Krogmann; Emily Lemmon; Elizabeth A. Murray; Sabine Nidelet; José Luis Nieves-Aldrey; Ryan K. Perry; Ralph S. Peters; Andrew Polaszek; Laure Sauné; Javier Torréns; Serguei Triapitsyn; Ekaterina V. Tselikh; Matthew Yoder; Alan R. Lemmon; James B. Woolley; John M. Heraty

doi:10.1111/cla.12561

The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps

Astrid Cruaud, Jean Yves Rasplus, Junxia Zhang, Roger Burks, Gérard Delvare, Lucian Fusu, Alex Gumovsky, John T. Huber, Petr Janšta, Mircea Dan Mitroiu, John S. Noyes, Simon van Noort, Austin Baker, Julie Böhmová, Hannes Baur, Bonnie B. Blaimer, Seán G. Brady, Kristýna Bubeníková, Marguerite Chartois, Robert S. CopelandNatalie Dale-Skey Papilloud, Ana Dal Molin, Chrysalyn Dominguez, Marco Gebiola, Emilio Guerrieri, Robert L. Kresslein, Lars Krogmann, Emily Lemmon, Elizabeth A. Murray, Sabine Nidelet, José Luis Nieves-Aldrey, Ryan K. Perry, Ralph S. Peters, Andrew Polaszek, Laure Sauné, Javier Torréns, Serguei Triapitsyn, Ekaterina V. Tselikh, Matthew Yoder, Alan R. Lemmon, James B. Woolley, John M. Heraty

Illinois Natural History Survey

Research output: Contribution to journal › Article › peer-review

Abstract

Chalcidoidea are mostly parasitoid wasps that include as many as 500 000 estimated species. Capturing phylogenetic signal from such a massive radiation can be daunting. Chalcidoidea is an excellent example of a hyperdiverse group that has remained recalcitrant to phylogenetic resolution. We combined 1007 exons obtained with Anchored Hybrid Enrichment with 1048 ultra-conserved elements (UCEs) for 433 taxa including all extant families, >95% of all subfamilies, and 356 genera chosen to represent the vast diversity of the superfamily. Going back and forth between the molecular results and our collective knowledge of morphology and biology, we detected bias in the analyses that was driven by the saturation of nucleotide data. Our final results are based on a concatenated analysis of the least saturated exons and UCE datasets (2054 loci, 284 106 sites). Our analyses support an expected sister relationship with Mymarommatoidea. Seven previously recognized families were not monophyletic, so support for a new classification is discussed. Natural history in some cases would appear to be more informative than morphology, as illustrated by the elucidation of a clade of plant gall associates and a clade of taxa with planidial first-instar larvae. The phylogeny suggests a transition from smaller soft-bodied wasps to larger and more heavily sclerotized wasps, with egg parasitism as potentially ancestral for the entire superfamily. Deep divergences in Chalcidoidea coincide with an increase in insect families in the fossil record, and an early shift to phytophagy corresponds with the beginning of the “Angiosperm Terrestrial Revolution”. Our dating analyses suggest a middle Jurassic origin of 174 Ma (167.3–180.5 Ma) and a crown age of 162.2 Ma (153.9–169.8 Ma) for Chalcidoidea. During the Cretaceous, Chalcidoidea may have undergone a rapid radiation in southern Gondwana with subsequent dispersals to the Northern Hemisphere. This scenario is discussed with regard to knowledge about the host taxa of chalcid wasps, their fossil record and Earth's palaeogeographic history.

Original language	English (US)
Pages (from-to)	34-63
Number of pages	30
Journal	Cladistics
Volume	40
Issue number	1
Early online date	Nov 2 2023
DOIs	https://doi.org/10.1111/cla.12561
State	Published - Feb 2024

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics

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Cruaud, A., Rasplus, J. Y., Zhang, J., Burks, R., Delvare, G., Fusu, L., Gumovsky, A., Huber, J. T., Janšta, P., Mitroiu, M. D., Noyes, J. S., van Noort, S., Baker, A., Böhmová, J., Baur, H., Blaimer, B. B., Brady, S. G., Bubeníková, K., Chartois, M., ... Heraty, J. M. (2024). The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps. Cladistics, 40(1), 34-63. https://doi.org/10.1111/cla.12561

Cruaud, A, Rasplus, JY, Zhang, J, Burks, R, Delvare, G, Fusu, L, Gumovsky, A, Huber, JT, Janšta, P, Mitroiu, MD, Noyes, JS, van Noort, S, Baker, A, Böhmová, J, Baur, H, Blaimer, BB, Brady, SG, Bubeníková, K, Chartois, M, Copeland, RS, Dale-Skey Papilloud, N, Dal Molin, A, Dominguez, C, Gebiola, M, Guerrieri, E, Kresslein, RL, Krogmann, L, Lemmon, E, Murray, EA, Nidelet, S, Nieves-Aldrey, JL, Perry, RK, Peters, RS, Polaszek, A, Sauné, L, Torréns, J, Triapitsyn, S, Tselikh, EV, Yoder, M, Lemmon, AR, Woolley, JB & Heraty, JM 2024, 'The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps', Cladistics, vol. 40, no. 1, pp. 34-63. https://doi.org/10.1111/cla.12561

@article{01c5d350efdc448db6199ea82d163d29,

title = "The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps",

abstract = "Chalcidoidea are mostly parasitoid wasps that include as many as 500 000 estimated species. Capturing phylogenetic signal from such a massive radiation can be daunting. Chalcidoidea is an excellent example of a hyperdiverse group that has remained recalcitrant to phylogenetic resolution. We combined 1007 exons obtained with Anchored Hybrid Enrichment with 1048 ultra-conserved elements (UCEs) for 433 taxa including all extant families, >95% of all subfamilies, and 356 genera chosen to represent the vast diversity of the superfamily. Going back and forth between the molecular results and our collective knowledge of morphology and biology, we detected bias in the analyses that was driven by the saturation of nucleotide data. Our final results are based on a concatenated analysis of the least saturated exons and UCE datasets (2054 loci, 284 106 sites). Our analyses support an expected sister relationship with Mymarommatoidea. Seven previously recognized families were not monophyletic, so support for a new classification is discussed. Natural history in some cases would appear to be more informative than morphology, as illustrated by the elucidation of a clade of plant gall associates and a clade of taxa with planidial first-instar larvae. The phylogeny suggests a transition from smaller soft-bodied wasps to larger and more heavily sclerotized wasps, with egg parasitism as potentially ancestral for the entire superfamily. Deep divergences in Chalcidoidea coincide with an increase in insect families in the fossil record, and an early shift to phytophagy corresponds with the beginning of the “Angiosperm Terrestrial Revolution”. Our dating analyses suggest a middle Jurassic origin of 174 Ma (167.3–180.5 Ma) and a crown age of 162.2 Ma (153.9–169.8 Ma) for Chalcidoidea. During the Cretaceous, Chalcidoidea may have undergone a rapid radiation in southern Gondwana with subsequent dispersals to the Northern Hemisphere. This scenario is discussed with regard to knowledge about the host taxa of chalcid wasps, their fossil record and Earth's palaeogeographic history.",

author = "Astrid Cruaud and Rasplus, {Jean Yves} and Junxia Zhang and Roger Burks and G{\'e}rard Delvare and Lucian Fusu and Alex Gumovsky and Huber, {John T.} and Petr Jan{\v s}ta and Mitroiu, {Mircea Dan} and Noyes, {John S.} and {van Noort}, Simon and Austin Baker and Julie B{\"o}hmov{\'a} and Hannes Baur and Blaimer, {Bonnie B.} and Brady, {Se{\'a}n G.} and Krist{\'y}na Buben{\'i}kov{\'a} and Marguerite Chartois and Copeland, {Robert S.} and {Dale-Skey Papilloud}, Natalie and {Dal Molin}, Ana and Chrysalyn Dominguez and Marco Gebiola and Emilio Guerrieri and Kresslein, {Robert L.} and Lars Krogmann and Emily Lemmon and Murray, {Elizabeth A.} and Sabine Nidelet and Nieves-Aldrey, {Jos{\'e} Luis} and Perry, {Ryan K.} and Peters, {Ralph S.} and Andrew Polaszek and Laure Saun{\'e} and Javier Torr{\'e}ns and Serguei Triapitsyn and Tselikh, {Ekaterina V.} and Matthew Yoder and Lemmon, {Alan R.} and Woolley, {James B.} and Heraty, {John M.}",

note = "This work was supported by the NSF DEB-1555808 to JMH, JBW and MY; the ANR projects TRIPTIC (ANR-14-CE18-0002), BIDIME (ANR-19-ECOM-0010) and recurring funding of the INRAE to AC and JYR. JYR and AC are grateful to Audrey Weber (INRAE, France) for sequencing of the UCE libraries and to the Genotoul bioinformatics platform Toulouse Midi-Pyr{\'e}n{\'e}es, France for providing computing resources. We thank Gary Gibson (Agriculture and Agri-Food, Canada), Paul Hanson (Univ. de Costa Rica), Christopher Darling (Univ. of Toronto, Canada), Nicole Fisher (CSIRO, Australia), Michael Gates (USDA, USA), Michael Haas (Univ. of Marburg, Germany), Christer Hansson (Museum of Biology, Sweden), Jason Mottern (USDA, USA), John D. Pinto (UCR, USA), Stefan Schmidt (ZSM, Germany), Christine Lambkin, Chris Burwell and Susan Wright (QM, Australia) for providing specimens and for helpful discussion. We thank Matt Buffington and two anonymous reviewers for their comments on the final manuscript. AC and JYR acknowledge the Queensland parks and wildlife services for collecting permits (WITK18278817-WIF418664617). We dedicate this work to the memory of our dear friend and colleague John LaSalle, specialist of Eulophidae, who was an enthusiastic member of this project. This work was supported by the NSF DEB‐1555808 to JMH, JBW and MY; the ANR projects TRIPTIC (ANR‐14‐CE18‐0002), BIDIME (ANR‐19‐ECOM‐0010) and recurring funding of the INRAE to AC and JYR.",

year = "2024",

month = feb,

doi = "10.1111/cla.12561",

language = "English (US)",

volume = "40",

pages = "34--63",

journal = "Cladistics",

issn = "0748-3007",

publisher = "Wiley-Blackwell",

number = "1",

}

TY - JOUR

T1 - The Chalcidoidea bush of life

T2 - evolutionary history of a massive radiation of minute wasps

AU - Cruaud, Astrid

AU - Rasplus, Jean Yves

AU - Zhang, Junxia

AU - Burks, Roger

AU - Delvare, Gérard

AU - Fusu, Lucian

AU - Gumovsky, Alex

AU - Huber, John T.

AU - Janšta, Petr

AU - Mitroiu, Mircea Dan

AU - Noyes, John S.

AU - van Noort, Simon

AU - Baker, Austin

AU - Böhmová, Julie

AU - Baur, Hannes

AU - Blaimer, Bonnie B.

AU - Brady, Seán G.

AU - Bubeníková, Kristýna

AU - Chartois, Marguerite

AU - Copeland, Robert S.

AU - Dale-Skey Papilloud, Natalie

AU - Dal Molin, Ana

AU - Dominguez, Chrysalyn

AU - Gebiola, Marco

AU - Guerrieri, Emilio

AU - Kresslein, Robert L.

AU - Krogmann, Lars

AU - Lemmon, Emily

AU - Murray, Elizabeth A.

AU - Nidelet, Sabine

AU - Nieves-Aldrey, José Luis

AU - Perry, Ryan K.

AU - Peters, Ralph S.

AU - Polaszek, Andrew

AU - Sauné, Laure

AU - Torréns, Javier

AU - Triapitsyn, Serguei

AU - Tselikh, Ekaterina V.

AU - Yoder, Matthew

AU - Lemmon, Alan R.

AU - Woolley, James B.

AU - Heraty, John M.

N1 - This work was supported by the NSF DEB-1555808 to JMH, JBW and MY; the ANR projects TRIPTIC (ANR-14-CE18-0002), BIDIME (ANR-19-ECOM-0010) and recurring funding of the INRAE to AC and JYR. JYR and AC are grateful to Audrey Weber (INRAE, France) for sequencing of the UCE libraries and to the Genotoul bioinformatics platform Toulouse Midi-Pyrénées, France for providing computing resources. We thank Gary Gibson (Agriculture and Agri-Food, Canada), Paul Hanson (Univ. de Costa Rica), Christopher Darling (Univ. of Toronto, Canada), Nicole Fisher (CSIRO, Australia), Michael Gates (USDA, USA), Michael Haas (Univ. of Marburg, Germany), Christer Hansson (Museum of Biology, Sweden), Jason Mottern (USDA, USA), John D. Pinto (UCR, USA), Stefan Schmidt (ZSM, Germany), Christine Lambkin, Chris Burwell and Susan Wright (QM, Australia) for providing specimens and for helpful discussion. We thank Matt Buffington and two anonymous reviewers for their comments on the final manuscript. AC and JYR acknowledge the Queensland parks and wildlife services for collecting permits (WITK18278817-WIF418664617). We dedicate this work to the memory of our dear friend and colleague John LaSalle, specialist of Eulophidae, who was an enthusiastic member of this project. This work was supported by the NSF DEB‐1555808 to JMH, JBW and MY; the ANR projects TRIPTIC (ANR‐14‐CE18‐0002), BIDIME (ANR‐19‐ECOM‐0010) and recurring funding of the INRAE to AC and JYR.

PY - 2024/2

Y1 - 2024/2

N2 - Chalcidoidea are mostly parasitoid wasps that include as many as 500 000 estimated species. Capturing phylogenetic signal from such a massive radiation can be daunting. Chalcidoidea is an excellent example of a hyperdiverse group that has remained recalcitrant to phylogenetic resolution. We combined 1007 exons obtained with Anchored Hybrid Enrichment with 1048 ultra-conserved elements (UCEs) for 433 taxa including all extant families, >95% of all subfamilies, and 356 genera chosen to represent the vast diversity of the superfamily. Going back and forth between the molecular results and our collective knowledge of morphology and biology, we detected bias in the analyses that was driven by the saturation of nucleotide data. Our final results are based on a concatenated analysis of the least saturated exons and UCE datasets (2054 loci, 284 106 sites). Our analyses support an expected sister relationship with Mymarommatoidea. Seven previously recognized families were not monophyletic, so support for a new classification is discussed. Natural history in some cases would appear to be more informative than morphology, as illustrated by the elucidation of a clade of plant gall associates and a clade of taxa with planidial first-instar larvae. The phylogeny suggests a transition from smaller soft-bodied wasps to larger and more heavily sclerotized wasps, with egg parasitism as potentially ancestral for the entire superfamily. Deep divergences in Chalcidoidea coincide with an increase in insect families in the fossil record, and an early shift to phytophagy corresponds with the beginning of the “Angiosperm Terrestrial Revolution”. Our dating analyses suggest a middle Jurassic origin of 174 Ma (167.3–180.5 Ma) and a crown age of 162.2 Ma (153.9–169.8 Ma) for Chalcidoidea. During the Cretaceous, Chalcidoidea may have undergone a rapid radiation in southern Gondwana with subsequent dispersals to the Northern Hemisphere. This scenario is discussed with regard to knowledge about the host taxa of chalcid wasps, their fossil record and Earth's palaeogeographic history.

AB - Chalcidoidea are mostly parasitoid wasps that include as many as 500 000 estimated species. Capturing phylogenetic signal from such a massive radiation can be daunting. Chalcidoidea is an excellent example of a hyperdiverse group that has remained recalcitrant to phylogenetic resolution. We combined 1007 exons obtained with Anchored Hybrid Enrichment with 1048 ultra-conserved elements (UCEs) for 433 taxa including all extant families, >95% of all subfamilies, and 356 genera chosen to represent the vast diversity of the superfamily. Going back and forth between the molecular results and our collective knowledge of morphology and biology, we detected bias in the analyses that was driven by the saturation of nucleotide data. Our final results are based on a concatenated analysis of the least saturated exons and UCE datasets (2054 loci, 284 106 sites). Our analyses support an expected sister relationship with Mymarommatoidea. Seven previously recognized families were not monophyletic, so support for a new classification is discussed. Natural history in some cases would appear to be more informative than morphology, as illustrated by the elucidation of a clade of plant gall associates and a clade of taxa with planidial first-instar larvae. The phylogeny suggests a transition from smaller soft-bodied wasps to larger and more heavily sclerotized wasps, with egg parasitism as potentially ancestral for the entire superfamily. Deep divergences in Chalcidoidea coincide with an increase in insect families in the fossil record, and an early shift to phytophagy corresponds with the beginning of the “Angiosperm Terrestrial Revolution”. Our dating analyses suggest a middle Jurassic origin of 174 Ma (167.3–180.5 Ma) and a crown age of 162.2 Ma (153.9–169.8 Ma) for Chalcidoidea. During the Cretaceous, Chalcidoidea may have undergone a rapid radiation in southern Gondwana with subsequent dispersals to the Northern Hemisphere. This scenario is discussed with regard to knowledge about the host taxa of chalcid wasps, their fossil record and Earth's palaeogeographic history.

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The Chalcidoidea bush of life: evolutionary history of a massive radiation of minute wasps

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