Taiping Gao scite author profile

Parasite-host associations among insects and mammals or birds are well attended by neontological studies [1]. An Eocene bird louse compression fossil [2, 3] and several flea specimens from Eocene and Oligocene ambers [4-8], reported to date, are exceptionally similar to living louse and flea taxa. But the origin, morphology, and early evolution of parasites and their associations with hosts are poorly known [9, 10] due to sparse records of putative ectoparasites with uncertain classification in the Mesozoic, most lacking mouthpart information and other critical details of the head morphology [11-15]. Here we present two primitive flea-like species assigned to the Pseudopulicidae Gao, Shih et Ren familia nova (fam. nov.), Pseudopulex jurassicus Gao, Shih et Ren genus novum et species nova (gen. et sp. nov) from the Middle Jurassic [16] and P. magnus Gao, Shih et Ren sp. nov. from the Early Cretaceous in China [17]. They exhibit many features of ectoparasitic insects. Large body size and long serrated stylets for piercing tough and thick skin or hides of hosts suggest that these primitive ectoparasites might have lived on and sucked the blood of relatively large hosts, such as contemporaneous feathered dinosaurs and/or pterosaurs or medium-sized mammals (found in the Early Cretaceous, but not the Middle Jurassic).

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New Transitional Fleas from China Highlighting Diversity of Early Cretaceous Ectoparasitic Insects

Gao

Shih

Rasnitsyn

et al. 2013

Current Biology

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Fleas are a group of highly specialized blood-feeding ectoparasites whose early evolutionary history is poorly known. Although several recent discoveries have shed new light on the origin of the group, a considerable gap exists between stem fleas and crown fleas. Here we report a new transitional flea, Saurophthirus exquisitus sp. nov., assigned to a new family Saurophthiridae fam. nov., from the Lower Cretaceous Yixian Formation of northeastern China. Saurophthirids are more similar to crown fleas than other stem fleas in having a relatively small body size, relatively short and slender piercing-sucking stylet mouthparts, comparably short and compact antennae, rows of short and stiff bristles on the thorax, and highly elongated legs. The new finding greatly improves our understanding of the morphological transition to the highly specialized body plan of extant fleas. However, saurophthirids also display several features unknown in other fleas, and some of these features are suggestive of a possible ectoparasitic relationship to contemporaneous pterosaurs, though other possibilities exist. The new fossils, in conjunction with previous discoveries, highlight a broad diversity of ectoparasitic insects in the mid-Mesozoic.

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Termite colonies from mid-Cretaceous Myanmar demonstrate their early eusocial lifestyle in damp wood

Zhao

Shih

et al. 2019

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Insect eusociality is characterized by cooperative brood care, reproductive division of labour and multiple generations of adults within a colony. The morphological specializations of the different termite castes from Burmese amber were recently reported, indicating the termites possessed advanced sociality in the mid-Cretaceous. Unfortunately, all the reported Cretaceous termites are individually preserved, which does not cover the behaviours of the cooperative brood care and multiple generations of adults in the nests of the Cretaceous termites. Herein, we report three eusocial aggregations from colonies of the oldest known Stolotermitidae, Cosmotermesgen. nov., in 100 Ma mid-Cretaceous Burmese amber. One large aggregation, comprising 8 soldiers, 56 workers/pseudergates and 25 immatures of different instars, additionally presents the behaviours of cooperative brood care and overlapping generations. Furthermore, taphonomic evidence indicates Cosmotermes most probably dwelled in damp/rotting wood, which provides a broader horizon of the early societies and ecology of the eusocial Cosmotermes.

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The oldest known mastotermitids (Blattodea: Termitoidae) and phylogeny of basal termites

Zhao

Eggleton

et al. 2019

Systematic Entomology

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Five finely preserved termites from the mid-Cretaceous (Cenomanian) amber of Myanmar provide new information allowing a reanalysis of the phylogeny of basal termites. The Mastotermitidae family is recovered as monophyletic, and a redefined Hodotermitidae sensu lato is also monophyletic to include Archotermopsidae, Hodotermitidae and Stolotermitidae. Such a phylogenetic relationship agrees with the results from previous molecular phylogeny. Alongside these findings, there are many taxa that can only be shown to be termites with no other phylogenetically informative data. These form a comb of 'grade groups' emerging in the Late Jurassic. The new amber specimens are described as two new species. Anisotermes xiai gen. et sp.n. is described from multiple castes and has symplesiomorphic characteristics: large body size, a broad pronotum, well-developed reticulated veins, and a large anal lobe of the hindwings. It shares wing features with the other new species, Mastotermes monostichus sp.n. Both new taxa are assigned to the Mastotermitidae, as they are shown to have synapomorphies that unite the family.This published work has been registered on ZooBank, http://zoobank.org/urn:lsid: zoobank.

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Behaviors and Interactions of Insects in Mid-Mesozoic Ecosystems of Northeastern China

Gao

Shih

Ren

2021

Annu. Rev. Entomol.

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During the past 20 years, more than 1,600 species of well-preserved fossil insects, including members of over 270 families within 24 orders, have been described from the Middle Jurassic Yanliao Entomofauna and Early Cretaceous Jehol Entomofauna in Northeastern China. Diversified fossil insects not only document the origin, systematics, and early evolution of many lineages, but also reveal these lineages’ behaviors and interactions with coexisting plants, vertebrates, and other insects in their ecosystems. For example, fossil evidence has been documented, for example, regarding insects’ feeding and pollination mutualism with gymnosperms; ectoparasitic feeding on blood of vertebrates; camouflage, mimicry of gymnosperm plants, and eyespot warning; sound stridulation for attracting potential mates; and sexual display, mating, egg-laying, and parental care. In this article, we review the diverse taxonomy of mid-Mesozoic insects of Northeastern China and elucidate their behaviors and interactions within their ecosystems, which have impacted their early evolution and development into extant insects. Expected final online publication date for the Annual Review of Entomology, Volume 66 is January 11, 2020. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Taiping Gao

Mid-Mesozoic Flea-like Ectoparasites of Feathered or Haired Vertebrates

New Transitional Fleas from China Highlighting Diversity of Early Cretaceous Ectoparasitic Insects

Termite colonies from mid-Cretaceous Myanmar demonstrate their early eusocial lifestyle in damp wood

The oldest known mastotermitids (Blattodea: Termitoidae) and phylogeny of basal termites

Behaviors and Interactions of Insects in Mid-Mesozoic Ecosystems of Northeastern China

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