First fossil evidence of pediculochelid mites: two new species from Middle Cretaceous and Late Eocene amber revealing morphological stasis over at least 99 million years
2025
Kolesniko, Vasiliy, B | Vorontso, Dmitry, D | Norto, Roy, A | Klimo, Pavel, B | Federal public budgetary scientific institution All-Russian Research Institute of Plant Protection, VNIISS, Voronezh, Russia | Koltzov Institute of Developmental Biology ; Russian Academy of Science (RAS) | STATE UNIVERSITY OF NEW YORK COLLEGE OF ENVIRONMENTAL SCIENCE AND FORESTRY DEPARTMENT OF ENVIRONMENTAL AND FOREST BIOLOGY SYRACUSE USA ; Partenaires IRSTEA ; Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA) | Purdue University, Lilly Hall of Life Sciences, West Lafayette, Indiana, USA | Institute of Environmental and Agricultural Biology (X-BIO), Tyumen State University, Tyumen, Russia.
International audience
Mostrar más [+] Menos [-]Inglés. We present the first fossil evidence of pediculochelid mites, describing two new species: Paralycus ekaterinae sp. nov. (Eocene amber) and P. primus sp. nov. (Cretaceous amber). The exceptional preservation of the fossils, coupled with our newly developed methodological approach for examining minute arthropods in amber, has facilitated a detailed comparative morphological assessment at a resolution comparable to that of contemporary species, providing significant insights into their anatomical features. The observed morphological continuity between fossil and modern pediculochelid mites indicates the evolutionary stability of this lineage spanning at least 99 million years. These findings not only advance our knowledge of the evolutionary history of Pediculochelidae but also offer a broader perspective on the persistence of morphological traits over extensive geological timescales. We also address the phenomenon of phoresy within Paralycus and explore its potential implications for dispersal mechanisms. Furthermore, we evaluate the relationship between the dimensions of the amber imprints and the original size of the mites, contributing to our understanding of the mechanisms of microarthropod preservation in amber.
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