2023 en paleoentomología

Overview of the events of 2023 in paleoentomology

Esta lista de 2023 en paleoentomología registra nuevos taxones de insectos fósiles que se describirán durante el año, además de documentar descubrimientos y eventos paleoentomológicos importantes que ocurrieron durante ese año.

Clado Anfiesmenópteros

Lepidópteros

Investigación sobre lepidópteros

• Heikkilä et al. (2023) revisan el supuesto registro fósil de bombicoideos e informan que el material fósil más antiguo que puede asignarse a la superfamilia con certeza data del Mioceno medio, mientras que la mayoría de los supuestos bombicoideos fósiles carecen de caracteres bombicoideos definitivos. ^[3]

Tricópteros

Investigación sobre tricópteros

• Baranov et al. (2023) describen larvas de leptocéridos y lepidostomátidos del ámbar báltico del Eoceno, dos de las cuales aún conservan sus estuches, e interpretan este hallazgo como una indicación de que al menos algunas larvas acuáticas del ámbar báltico quedaron atrapadas en flujos de resina dentro de los cuerpos de agua. ^[11]

Otros anfiesmenópteros

Clado Antliophora

Dípteros

Braquiceros

Nematoceros

Investigación sobre dípteros

• Amaral et al. (2023) informan sobre nuevo material fósil de larvas de stratiomyomorpha del ámbar cretácico de Myanmar, e interpretan que los fósiles estudiados indican que los miembros de Stratiomyomorpha no eran raros, sino que, de hecho, eran comunes en el ámbar de Myanmar. ^[36]
• Nel & Kundura (2023) describen material fósil de un miembro del género Bibio , que representa el registro más antiguo del género reportado hasta la fecha, de la cuenca del Menat del Paleoceno ( Francia ). ^[37]

Mecópteros

Clado Archaeorthoptera

Ortópteros

Investigación sobre ortópteros

• Woodrow, Celiker y Montealegre-Z (2023) estudian la anatomía de las orejas y las alas anteriores de un espécimen de Eomortoniellus handlirschi del ámbar báltico del Eoceno, estiman la frecuencia del canto de llamado en E. handlirschi , interpretan que su oído está sintonizado con la frecuencia del canto del macho pero también es capaz de escuchar sonidos de mayor frecuencia, y consideran que esto es una posible adaptación para escuchar a escondidas los llamados de ecolocalización de los murciélagos. ^[61]

Otros panortópteros

Clado Coleopterida

Coleópteros

Adefaga

Arqueostemas

Mixófago

Polifaga

Bostrichiformia

Cucujiformia

Elateriformia

Escarabajoeiforme

Estafiliniformia

Investigación sobre coleópteros

• Peñalver et al. (2023) presentan evidencias de plumas y mudas larvarias preservadas en el ámbar del Albiano de los afloramientos de San Just, El Soplao y Peñacerrada I ( España ), que indican que las larvas de escarabajos del Cretácico se alimentaban de plumas de terópodos aviares o no aviares. ^[170]
• Li et al. (2023) interpretan a Notocupes como un pariente cercano de la familia Cupedidae en lugar de un omátido . ^[171]
• Un supuesto espécimen de la especie actual Tetracha carolina reportado en el ámbar báltico del Eoceno ( óblast de Kaliningrado , Rusia ) por Horn (1906) ^[172] es reinterpretado como un espécimen de Palaeoiresina cassolai por Schmidt et al. (2023). ^[173]
• El primer pariente cercano conocido del género neotropical Eohomopterus del Viejo Mundo fue reportado en ámbar del Eoceno de Rovno ( Ucrania ) por Kirichenko-Babko y Perkovsky (2023). ^[174]
• Linhart et al. (2023) describen posibles larvas de halípidos a partir del ámbar cretácico de Myanmar . ^[175]
• Jenkins Shaw, Solodovnikov y Perkovsky (2023) informan del descubrimiento de un miembro del género Trichophya (relacionado con la especie existente Trichophya Antennalis y distinto de Trichophya minor del ámbar de Myanmar ) del ámbar de Taimyr del Cretácico Superior de Yantardakh ( Rusia ), documentando la existencia de dos grupos de especies morfológicamente diferentes de Trichophya en el Cretácico. ^[176]
• El primer fósil de un miembro del género Proteinus reportado hasta la fecha fue descrito a partir del ámbar báltico del Eoceno de Dinamarca por Jenkins Shaw, Bai y Solodovnikov (2023). ^[177]
• Cifuentes-Ruiz et al. (2023) describen un espécimen de ptínido indeterminado que representa la primera inclusión biológica del ámbar Cenomaniano del Miembro Dexter del Grupo Woodbine ( Texas , Estados Unidos ) reportada hasta la fecha. ^[178]
• Zippel et al. (2023) describen larvas cucujiformes (posiblemente endomíquidas ) del ámbar birmano del Cretácico y del ámbar mexicano del Mioceno, interpretadas como posibles comedores de hongos en madera podrida. ^[179]

Clado Dictyoptera

Himenópteros

"Sinfita"

Apócrita

Apoidea

Investigación sobre apoide

• Almeida et al. (2023) publican un estudio sobre la historia evolutiva de las abejas, inferida a partir del registro fósil y los datos genómicos. ^[202]

Calcidoidea

Chrysidoidea

Diaprioidea

Evanioidea

Formicoidea

Formicoidea research

• A study on the ecology of haidomyrmecine ants is published by Sosiak et al. (2023), who interpret the studied ants as primarily leaf litter or ground-nesting and foraging predators, find support for specialized predation in several haidomyrmecine genera, and argue that the extinction of haidomyrmecines may have resulted in a vacant ecospace that was subsequently filled by members of modern ant lineages with trap-jaw like morphology and behavior.^[228]
• Archibald, Mathewes, & Aase (2023) document two additional fossils of Titanomyrma species ant queens from the Green River Formation and a single queen from the Eocene Okanagan Highlands Allenby Formation. They discuss the implications of the range extension for Formiciinae into the Ypresian temperate uplands, previously considered a thermophilic ant group, and the complication arising from preservational distortion during diagenesis.^[229]
• Zharkov & Dubovikoff (2023) report the first discovery of proventriculus in the fossil ants Oecophylla brischkei and Oecophylla crassinoda from the Eocene Baltic amber.^[230]

Ichneumonoidea

Platygastroidea

Pompiloidea

Proctotrupoidea

Stephanoidea

Vespoidea

Clade Neuropterida

Megalopterans

Neuropterans

Neuropteran research

• The oldest dustywing-type larva reported to date is described from the Cretaceous amber from Myanmar by Haug & Haug (2023).^[274]
• Mengel et al. (2023) describe new nevrorthid larvae from the Cretaceous amber from Myanmar and from the Eocene Baltic amber, and study on the morphological diversity of nevrorthid larvae, reporting the existence of fossil larvae with morphologies that are now extinct.^[275]
• New fossil material of long-nosed antlion larvae, mostly from the Cretaceous Myanmar amber (and two specimens from the Eocene Baltic amber), is described by Hassenbach et al. (2023), who interpret the studied fossils as confirming that the morphological diversity of Cretaceous silky lacewings was much higher than the diversity of their extant relatives.^[276]
• A study on the diversity of lacewing larvae with tooth-bearing mouthparts, based on data from new specimens from the Cretaceous Myanmar amber, is published by Braig et al. (2023), who interpret their findings as indicative of greater morphological diversity of the Cretaceous larvae than extant larvae, as well as indicative of convergent evolution resulting in partial reappearance of morphologies that went extinct after the Cretaceous.^[277]

Raphidiopterans

Clade †Palaeodictyopteroidea

†Megasecoptera

†Palaeodictyoptera

Clade Palaeoptera

Ephemeropterans

Ephemeropteran research

• A study on the diversity of mayflies throughout their evolutionary history is published by Sroka, Godunko & Prokop (2023), who interpret their findings as indicative of a major extinction of mayflies in the mid-Cretaceous which was likely connected to the rise of the flowering plants.^[287]

Odonatopterans

Odonatopteran research

• A study on trends in morphological diversity of Permian to Jurassic members of Odonata is published by Deregnaucourt et al. (2023), who report evidence of decreasing morphological diversity through time in spite of increasing species richness, as well evidence of significant changes in morphological diversity at the Permian-Triassic and Triassic-Jurassic transitions.^[305]
• Qi et al. (2023) describe new fossil material of Sinomesuropetala daohugensis from the Haifanggou Formation (China), providing new information on the forewing characters of this species and confirming its close relationship with Mesuropetala.^[306]

Other palaeopterans

Clade †Paoliidea

†Paoliida

Clade Paraneoptera

Hemipterans

Auchenorrhyncha

Coleorrhyncha

Heteroptera

Sternorrhyncha

Hemipteran research

• Fossil material of a member of the genus Aphelocheirus, representing the oldest record of the family Aphelocheiridae reported to date, is described from the Lower Eocene Palana Formation (Rajasthan, India) by Patel et al. (2023).^[356]
• New fossil material of the archijassid species Kisa fasciata is described from the Jurassic Yangshuzhuang and Yan'an formations (China) by Fu et al. (2023), expanding known distribution of Archijassidae in Eurasia and providing evidence of a considerable intraspecific variation of K. fasciata.^[357]

Psocodea

Thysanoptera

Clade Perlidea

Dermapterans

Dermapteran research

• Evidence from new immature earwig specimens from the Cretaceous amber from Myanmar, interpreted as indicative of reduction of morphological diversity of grasping apparatuses of earwigs over the past 100 million years, is presented by Haug et al. (2023).^[364]

Embiopterans

Phasmatodeans

Plecopterans

Other insects

• Khramov, Foraponova & Węgierek (2023) describe specimens of Tillyardembia from the Permian locality Chekarda (Perm Krai, Russia) preserved with pollen on their heads, thoraces, legs and abdomens, representing the oldest record of pollen-bearing insects reported to date.^[381]
• Haug et al. (2023) describe a holometabolan larva (probably a new specimen of ?Partisaniferus edjarzembowskii) from the Cretaceous Burmese amber, preserved with the mouthparts forming a beak and with a large and inflated trunk, and interpret the studied larva as physogastric and possibly living in confined spaces inside wood.^[382]

General research

• A study on the taxonomic diversity of insects throughout the Permian and Triassic, providing evidence of more than one extinction events accompanied by significant diversity drop and faunal turnovers, is published by Gui, Liu & Tian (2023).^[383]
• Solórzano‑Kraemer et al. (2023) report the preservation of phorid flies (but not fly larvae) associated with the holotype of Oculudentavis naga from the Cretaceous Myanmar amber, and interpret this finding as preserving early stage of scavenging by flies; the authors also note that there is not evidence of scavenging by ants from the Myanmar amber, and interpret it as suggesting that the Cretaceous ants did not yet have a foraging strategy to search for vertebrate corpses and to eat carrion.^[384]
• Review of anti-predator strategies of holometabolan larvae from the Cretaceous ambert from Myanmar is published by Haug et al. (2023), who find evidence of repeated independent evolution of strategies employed by extant insects, and report the discovery of a new leaf-mining hymenopteran caterpillar and a hangingfly caterpillar with extensive spines.^[385]
• An assemblage of chironomid (referrable to extant subfamilies), mayfly and lepidopteran fossils, closer in composition to Cenozoic insect assemblages than to Mesozoic ones, is described from the Upper Cretaceous (Maastrichtian) Chorrillo Formation (Argentina) by Vera et al. (2023).^[386]
• A diverse insect assemblage, including representatives of the orders Coleoptera, Diptera, Hymenoptera, Orthoptera and Hemiptera, is described from the Miocene shales from Wang Kaew in the Mae Sot basin (Thailand) by Warapeang et al. (2023).^[387]
• Evidence from thermal maturation experiments on extant beetles, interpreted as indicating that colour patterns preserved in fossil insect specimens can be plausibly explained as biological in origin and represent melanin-based color patterns, is presented by Wang et al. (2023).^[388]

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