References
- Bukejs A, Alekseev VI, Pollock DA. 2019. Waidelotinae, a new subfamily of Pyrochroidae (Coleoptera: Tenebrionoidea) from Baltic amber of the Sambian peninsula and the interpretation of Sambian amber stratigraphy, age and location. Zootaxa. 4664(2):261–273. doi:10.11646/zootaxa.4664.2.8.
- Bukejs A, Ślipiński A, Mitchell JL, Mckellar RC, Barbi M, Larsson HCE, Alekseev VI. 2021. First fossil representative of Cerylonidae (Coleoptera: Coccinelloidea) described using X-ray micro-computed tomography, from Eocene Baltic amber. Zootaxa. 5032(2):225–236. doi:10.11646/zootaxa.5032.2.4.
- Iakovleva AI. 2017. Detalization of Eocene dinocyst zonation for Eastern Peritethys. Bulletin of Moscow Soci Nat Geo Ser. 92(2): 32–48. in Russian, with English summary
- Iakovleva AI, Mychko EV, Aleksandrova GN. 2021. New dinocyst data from the “Primorsky” amber quarry (Kaliningrad Region): clarification of the deposits’ age as the base for a revision of paleogeographic reconstructions of the Danish-Polish strait in the late Paleogene. Golubev VK, Nazarov VN. editors, Paleostrat-2021. Annual meeting of the paleontological section of Moscow society of naturalists and the Moscow branch of the Russian Paleontological society, Russian Academy of Sciences (Moscow. January 2526, 2021). Abstracts. A.A. Borisyak Paleontological Institute of the Russian Academy of Sciences. p. 2526, 2021). Abstracts. A.A. Borisyak Paleontological Institute of the Russian Academy of Sciences. p. 77–78. Moscow [in Russian]
- Kasiński JR, Kramarska R, Słodkowska B, Sivkov V, Piwocki M. 2020. Paleocene and Eocene deposits on the eastern margin of the Gulf of Gdańsk (Yantarny P-1 bore hole, Kaliningrad region, Russia). Geo Quarterly. 64(1):29–53. doi:10.7306/gq.1513.
- Lawrence JF, Stephan K. 1975. The North American Cerylonidae (Coleoptera: Clavicornia). Psyche: A Journal of Entomology. 82(2):131–166. doi:10.1155/1975/16703.
- Robertson JA, Ślipiński SA, Moulton M, Shockley FW, Giorgi A, Lord NP, McKenna DD, Tomaszewska W, Forrester J, Miller KB, Whiting, MF, McHugh, JV. 2015. Phylogeny and classification of Cucujoidea and the recognition of a new superfamily Coccinelloidea (Coleoptera: Cucujiformia). Syst Entomol. 40(4):745–778. doi:10.1111/syen.12138.
- Sadowski EM, Schmidt AR, Denk T. 2020. Staminate inflorescences with in situ pollen from Eocene Baltic amber reveal high diversity in Fagaceae (oak family). Willdenowia. 50(3):405–517. doi:10.3372/wi.50.50303.
- Sadowski EM, Seyfullah LJ, Schmidt AR, Kunzmann L. 2017. Conifers of the ‘Baltic amber forest’ and their palaeoecological significance. Stapfia. 106:1–73.
- Sen Gupta T, Crowson RA. 1973. A review of the classification of Cerylonidae (Coleoptera, Clavicornia). Trans of the Royal Entomolog Soc of London. 124(4):365–446. doi:10.1111/j.1365-2311.1973.tb00369.x.
- Seyfullah LJ, Beimforde C, Dal Corso J, Perrichot V, Rikkinen J, Schmidt AR 2018. Production and preservation of resins – past and present. Biol Rev 93:1684–1714. doi:10.1111/brv.12414.
- Ślipiński SA. 1984. Notes on Lapethini with a revision of the world Lapethus Casey (Coleoptera, Cerylonidae), including descriptions of related genera. Polskie Pismo Entomologiczne. 54:3–104.
- Ślipiński SA. 1990. A monograph of the world Cerylonidae (Coleoptera; Cucujoidea). Part 1: introduction and higher classification. Annali del Museo Civico di Storia Naturale “Giacomo Doria“. 88:1–273.
- Zollhöfer M, Stotko P, Görlitz A, Theobalt C, Nießner M, Klein R, Kolb A. 2018. State of the art on 3D reconstruction with RGB‐D cameras. Comput Graph Forum. 37(2):625–652. doi:10.1111/cgf.13386.