Patrick Roques scite author profile

The Eumetabola (Endopterygota (also known as Holometabola) plus Paraneoptera) have the highest number of species of any clade, and greatly contribute to animal species biodiversity. The palaeoecological circumstances that favoured their emergence and success remain an intriguing question. Recent molecular phylogenetic analyses have suggested a wide range of dates for the initial appearance of the Holometabola, from the Middle Devonian epoch (391 million years (Myr) ago) to the Late Pennsylvanian epoch (311 Myr ago), and Hemiptera (310 Myr ago). Palaeoenvironments greatly changed over these periods, with global cooling and increasing complexity of green forests. The Pennsylvanian-period crown-eumetabolan fossil record remains notably incomplete, particularly as several fossils have been erroneously considered to be stem Holometabola (Supplementary Information); the earliest definitive beetles are from the start of the Permian period. The emergence of the hymenopterids, sister group to other Holometabola, is dated between 350 and 309 Myr ago, incongruent with their current earliest record (Middle Triassic epoch). Here we describe five fossils--a Gzhelian-age stem coleopterid, a holometabolous larva of uncertain ordinal affinity, a stem hymenopterid, and early Hemiptera and Psocodea, all from the Moscovian age--and reveal a notable penecontemporaneous breadth of early eumetabolan insects. These discoveries are more congruent with current hypotheses of clade divergence. Eumetabola experienced episodes of diversification during the Bashkirian-Moscovian and the Kasimovian-Gzhelian ages. This cladogenetic activity is perhaps related to notable episodes of drying resulting from glaciations, leading to the eventual demise in Euramerica of coal-swamp ecosystems, evidenced by floral turnover during this interval. These ancient species were of very small size, living in the shadow of Palaeozoic-era 'giant' insects. Although these discoveries reveal unexpected Pennsylvanian eumetabolan diversity, the lineage radiated more successfully only after the mass extinctions at the end of the Permian period, giving rise to the familiar crown groups of their respective clades.

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Traits and evolution of wing venation pattern in paraneopteran insects

Nel

Prokop

Nel

et al. 2011

Journal of Morphology

125

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Two different patterns of wing venation are currently supposed to be present in each of the three orders of Paraneoptera. This is unlikely compared with the situation in other insects where only one pattern exists per order. We propose for all Paraneoptera a new and unique interpretation of wing venation pattern, assuming that the convex cubitus anterior gets fused with the common stem of median and radial veins at or very near to wing base, after separation from concave cubitus posterior, and re-emerges more distally from R + M stem. Thereafter, the vein between concave cubitus posterior and CuA is a specialized crossvein called "cua-cup," proximally concave and distally convex. We show that despite some variations, that is, cua-cup can vary from absent to hypertrophic; CuA can re-emerge together with M or not, or even completely disappear, this new interpretation explains all situations among all fossil and recent paraneopteran lineages. We propose that the characters "CuA fused in a common stem with R and M"and "presence of specialized crossvein cua-cup" are venation apomorphies that support the monophyly of the Paraneoptera. In the light of these characters, we reinterpret several Palaeozoic and early Mesozoic fossils that were ascribed to Paraneoptera, and confirm the attribution of several to this superorder as well as possible attribution of Zygopsocidae (Zygopsocus permianus Tillyard, 1935) as oldest Psocodea. We discuss the situation in extinct Hypoperlida and Miomoptera, suggesting that both orders could well be polyphyletic, with taxa related to Archaeorthoptera, Paraneoptera, or even Holometabola. The Carboniferous Protoprosbolidae is resurrected and retransferred into the Paraneoptera. The genus Lithoscytina is restored. The miomopteran Eodelopterum priscum Schmidt, 1962 is newly revised and considered as a fern pinnule. In addition, the new paraneopteran Bruayaphis oudardi gen. nov. et sp. nov. is described fromthe Upper Carboniferous of France (see Supporting Information).

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Technical note: Conditions for using the floating chamber method to estimate air-water gas exchange

et al. 2003

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The earliest holometabolous insect from the Carboniferous: a “crucial” innovation with delayed success (Insecta Protomeropina Protomeropidae)

Nel¹,

Roques²,

Nel³

et al. 2007

Annales de la Société entomologique de France (N.S.)

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Abstract. Insects dominate Earth by their diversity, and the most are Holometabola. Therefore, the holometabolous development characterised by a pupal stage between larvae and adult seems to be linked with the extensive radiation of insects. Holometaboly is suspected to appear in the carboniferous period, however until now fossils have not brought univocal evidence. The discovery in the Carboniferous (Early Langsettian, circa 310 mya, Bashkirian Stage) of France of the earliest Holometabola attributed to the Permian amphiesmenopteran or antliophoran family Protomeropidae brings the fi rst irrefutable evidence that holometaboly existed in the Carboniferous. Given the climatic data of France at this period, this discovery contradicts the traditional scenarii of a relation between the acquisition of endopterygote pupal stage and climatic global cooling during Late Carboniferous and Early Permian. This example illustrates the hypothesis that a new, apparently more effi cient, biological innovation is not always suffi cient to guarantee the 'evolutionary success' of the concerned clade. Ecological opportunities have to be considered as well for this innovation success.Résumé. Le plus ancien insecte holométabole du Carbonifère : une innovation cruciale au succès retardé (Insecta : Protomeropina : Protomeropidae). Les insectes dominant la Terre par leur diversité et les plus diversifi és sont les Holometabola. Le type de développement holométabole caractérisé par un stade pupal entre la larve et l'adulte semble lié à cette réussite radiative. L'holométabolie est suppose apparaître au Carbonifère, mais aucun fossile non équivoque n'est encore connu. La découverte dans le Carbonifère (Langséttien inférieur, environs 310 M.a., Bashkirien) de France du premier Holometabola non ambigu, attribué à la famille Protomeropidae, Amphiesmenoptera ou Antliophora permiens, apporte la première preuve irréfutable que l'holométabolie existait au Carbonifère. Etant donné les conditions climatiques en France à l'époque, cette découverte contredît les scenarii traditionnels d'une relation entre l'acquisition du stade pupal endoptérygote et le refroidissement climatique global de la fi n du Carbonifére et du Permien inférieur. Cet exemple illustre l'hypothèse qu'une innovation biologique en apparence plus 'effi cace' n'est pas toujours suffi sante pour expliquer le succès évolutif du clade concerné.

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A new genus and species of Breyeriidae and wings of immature stages from the Upper Carboniferous, Nord-Pas-de-Calais, France (Insecta: Palaeodictyoptera)

Prokop

Tippeltová

Roques³

et al. 2013

Insect Syst Evol

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A new palaeodictyopterid, Aviobreyeria gracilis gen.n., sp.n., is described from an outcrop of Upper Carboniferous (Westphalian C/D) deposits at Avion in the Nord-Pas-de-Calais department (France). This new taxon is placed in the family Breyetiidae based on a comparison of the pattern of venation in its forewing venation with that of other breyeriids and possibly related genera within the Breyerioidea. In addition, wings of different immature instars of palaeodictyopterids from the same strata with a similar pattern of venation but differing in having an enlarged RP and a broader anal area (supposed hind wings) were also tentatively attributed to Breyeriidae gen. et sp. indet.. These wings have a roughly identifiable venation and exhibit the gradual development of wings through different ontogenetic stages and their position on the thorax, which is sparsely documented for Paleozoic insects. Discovery of immature and adult stages of palaeodictyopterids in the same layers also indicates they lived in similar habitats.

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From Carboniferous to Recent: wing venation enlightens evolution of thysanopteran lineage

Nel

Azar

Prokop

et al. 2012

Journal of Systematic Palaeontology

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Revision of the enigmatic insect family Anthracoptilidae enlightens the evolution of Palaeozoic stem-dictyopterans

Guan¹,

Prokop²,

Roques³

et al. 2015

APP

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The position of the Palaeozoic Anthracoptilidae has been a major problem of insect systematics for over a century. The previous hypotheses suggested affinities of Anthracoptilidae with the Palaeodictyopteroida, Protorthoptera, Hypoperlida, stem-Mantodea, Paraneoptera, Holometabola, or Eoblattida. Herein we put forward a new hypothesis based mainly on a comprehensive re-evaluation of the wing venation characters and re-examination of the type material of Anthracoptilus perrieri and Mesoptilus dolloi. The Anthracoptilidae are considered as belonging to the paoliid lineage, sister group of the Dictyoptera. In particular this result refutes the presence of Mantodea in the Paleozoic fossil record. The two families Strephocladidae and Strephoneuridae, are considered as junior synonyms of the Anthracoptilidae, while the previous synonymy of the Anthracoptilidae with the Ischnoneuridae is rejected. We consider the Permarrhaphidae, previously considered as synonym of the Anthracoptilidae, (and Permarrhaphus) as Insecta incertae sedis. The following new taxa are proposed: Mesoptilus carpenteri sp. nov. from the early Permian of Wellington Formation in Oklahoma (USA) which extends the range and distribution of the genus; Pseudomesoptilus gen. nov. is designated to include Mesoptilus sellardsi; Strephocladus permianus sp. nov. from the middle Permian of South of France; Westphaloptilus gallicus gen. et sp. nov. from the Bashkirian of the North of France.

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New non-holometabolous insects from the Pennsylvanian of the Avion locality in Pas-de-Calais, France (Insecta: ‘Exopterygota’)

Prokop¹,

Roques²,

Nel³

2013

Alcheringa: An Australasian Journal of Palaeontology

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Patrick Roques

The earliest known holometabolous insects

Traits and evolution of wing venation pattern in paraneopteran insects

Technical note: Conditions for using the floating chamber method to estimate air-water gas exchange

The earliest holometabolous insect from the Carboniferous: a “crucial” innovation with delayed success (Insecta Protomeropina Protomeropidae)

A new genus and species of Breyeriidae and wings of immature stages from the Upper Carboniferous, Nord-Pas-de-Calais, France (Insecta: Palaeodictyoptera)

From Carboniferous to Recent: wing venation enlightens evolution of thysanopteran lineage

Revision of the enigmatic insect family Anthracoptilidae enlightens the evolution of Palaeozoic stem-dictyopterans

New non-holometabolous insects from the Pennsylvanian of the Avion locality in Pas-de-Calais, France (Insecta: ‘Exopterygota’)

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