, naturelle des animaux articulés, 3 vols, with atlas, pp.414-503

S. A. Marshall, A. H. Kirk-spriggs, B. S. Muller, S. M. Paiero, T. Yau et al., , 2017.

, Key to Diptera families -adults, Chapter, vol.12, p.427

, Introductory chapters and keys to Diptera 428 families, Manual of Afrotropical Diptera, vol.1, pp.267-355

G. A. Melo and B. B. Rosa, New genus of fossil apoid wasps (Hymenoptera, Apoidea) 430 from the Cretaceous amber of Myanmar, Revista Brasileira de Entomologia, vol.62, pp.319-323, 2018.

M. Mühlenberg, Die Abwandlung des Eilegeapparates der Bombyliidae (Diptera), Zeitschrift für Morphologie der Tiere, vol.70, pp.1-72, 1971.

A. Nel, Oldest records of Bombyliidae: Phthiriinae and Mythicomyiidae: Glabellulinae 434 from the Lowermost Eocene amber of France (Diptera: Bombylioidea), European Journal of 435 Entomology, vol.103, pp.109-114, 2006.

A. Nel, The oldest bee fly in the French Paleocene (Diptera: Bombyliidae), Comptes, vol.437, 2008.

, Rendus Palevol, vol.7, pp.401-405

A. Nel and G. De-ploëg, New fossil bee flies (Diptera: Bombylioidea) in the Lowermost 439, 2004.

, Eocene amber of the Paris Basin, Geologica Acta, vol.2, pp.57-65

C. R. Osten-sacken, 1877. Art. XIII. Western Diptera: descriptions of new genera and species, p.441

, of Diptera from the region west of the Mississippi and especially from California, Geographical Survey of the Territories, vol.3, pp.189-354

G. O. Poinar and . Jr, Melittosphex (Hymenoptera: Melittosphecidae), a primitive bee and 444 not a wasp, Palaeontology, vol.52, p.483, 2009.

G. O. Poinar, . Jr, and B. N. Danforth, A fossil bee from Early Cretaceous Burmese amber, 2006.

, Science, vol.314, p.614

G. Shi, D. A. Grimaldi, G. E. Harlow, J. Wang, J. Wang et al., , p.448

Q. Li and X. , Age constraint on Burmese amber based on UePb dating of zircons, 2012.

, Cretaceous Research, vol.37, pp.155-163

S. Shin, K. M. Bayless, S. L. Winterton, T. Dikow, B. D. Lessard et al., , p.451

B. M. Trautwein and M. D. , Taxon sampling to address an ancient rapid radiation: a 452 supermatrix phylogeny of early brachyceran flies (Diptera), Systematic Entomology, vol.43, pp.277-453, 2018.

L. P. Tatarinov, G. A. Afanaseyva, R. Barsbold, I. P. Morosowa, L. I. Novitskaya et al., , p.455

V. Yu, A. Rosanov, . Yu, V. A. Sysoev, and B. A. Trofimov, , 1986.

, Nasekomye v rannemelovykh ekosistemakh Zapadnoy Mongolii

, Cretaceous ecosystems of the West Mongolia

, Trudy Sovmestnaya Sovetsko-Mongol'skaya 458

, Paleontologicheskaya Ekspeditsiya, vol.28, pp.1-213

M. D. Trautwein, B. M. Wiegmann, and D. K. Yeates, A multigene phylogeny of the fly 460, 2010.

A. Superfamily, Insecta): taxon sampling and additional genes reveal the sister-group 461 to all higher flies (Cyclorrhapha), Molecular Phylogenetics and Evolution, vol.56, pp.918-930

M. D. Trautwein, B. M. Wiegmann, and D. K. Yeates, Overcoming the effects of rogue 463 taxa: evolutionary relationships of the bee flies, PLoS Currents, Tree of Life, pp.1-29, 2011.

C. R. Wiedemann, Über einige neue Fliegengattungen, Zoologisches Magazin, vol.1, p.61, 1817.

S. Wedmann and D. K. Yeates, Eocene records of bee flies (Insecta, p.468, 2008.

. Comptosia, their palaeobiogeographic implications and remarks on the evolutionary history 469 of bombyliids, vol.51, pp.231-240

B. M. Wiegmann, D. K. Yeates, J. L. Thorne, and H. Kishino, Time flies, a new molecular 471 time-scale for brachyceran fly evolution without a clock, Systematic Biology, vol.52, pp.745-756, 2003.

N. E. Woodley, Phylogeny and classification of the "orthorrhaphous" Brachycera, p.473, 1989.

J. F. Mcalpine, Manual of Nearctic Diptera, Ottawa: Research, vol.3, pp.1371-1395

X. Ye, G. Yao, C. Shih, D. Ren, and Y. Wang, New bee flies from the mid-Cretaceous 476, 2019.

M. Amber, Brachycera: Asiloidea: Bombyliidae), vol.100, pp.5-13

D. K. Yeates, The cladistics and classification of the Bombyliidae (Diptera: Asiloidea), 1994.

, Bulletin of the American Museum of Natural History, vol.219, pp.1-191

D. K. Yeates, Relationships of extant lower Brachycera (Diptera): a quantitative 480 synthesis of morphological characters, Zoologica Scripta, vol.31, pp.105-121, 2002.

D. K. Yeates and D. Greathead, The evolutionary pattern of host use in the Bombyliidae 482 (Diptera): a diverse family of parasitoid flies, Biological Journal of the Linnean Society, vol.60, pp.483-149, 1997.

T. Yu, R. Kelly, L. Mu, A. Ross, J. Kennedy et al., , p.485

D. Dilcher, An ammonite trapped in Burmese amber, Proceedings of the National 486 Academy of Sciences of the USA, vol.116, pp.11345-11350, 2019.

Q. Zhang, J. Zhang, and B. Wang, A remarkable brachyceran fly, p.488, 2016.

. Tabanomorpha, Late Cretaceous Burmese amber, Cretaceous Research, vol.67, pp.1-7

, FIG. 1. Paleocytherea pouilloni Ngô-Muller & Nel, gen. et sp. nov

, holotype 493 MHNE.2020.3.1. A, mouthparts. B, legs, left: fore tarsus, center: mid tibia, right: hind tibia, 494 arrows: spurs

, Paleocytherea pouilloni Ngô-Muller & Nel, gen. et sp. nov., holotype, p.496

, MHNE.2020.3.1. A, head above, arrows: second and third flagellomeres