Taxonomic limits of the family Anthomyzidae are prescribed. Two fossil genera are affirmed, viz. Protanthomyza Hennig, 1965 (Baltic amber) and Grimalantha gen. n. (type species: G. vulnerata sp. n.) described from Dominican amber. Fourteen extant genera are recognized, including Chamaebosca Speiser, 1903 (= Penquistus Kieffer, 1906 syn. n.) and Apterosepsis Richards, 1962. New diagnoses of the latter two genera and redescriptions of their type species are given and their relationships are discussed. Chamaebosca cursor (Kieffer, 1906) becomes a new combination. The monotypic genus Echidnocephalodes Sabrosky, 1980 is removed from Anthomyzidae, newly diagnosed and its type species E. barbatus (Lamb, 1914) redescribed and a lectotype designated. Echidnocephalodes is considered to be related to Periscelididae and/or Aulacigastridae, particularly to those genera with symmetrical male postabdomen. The inferred phylogeny of the Anthomyzidae, based on cladistic analysis, is presented. The Opomyzidae are confirmed as a sister-group of the Anthomyzidae, while Protanthomyza is found to be the most primi tive anthomyzid genus forming a sister-group to all recent genera plus the fossil Grimalantha gen. n. The monophylies of the latter group of genera, and of the Anthomyzidae as a whole, are demonstrated. The genus Protanthomyza is classified in a new subfamily Protanthomyzinae, and all remaining genera are placed in the subfamily Anthomyzinae Frey, 1921. An annotated world checklist of the family Anthomyzidae is appended.
Paleoripiphorus deploegi gen. n., sp. n. and Macrosiagon ebboi sp. n., described from two French Albo-Cenomanian ambers (mid Cretaceous), are the oldest definitely identified representatives of the Ripiphoridae: Ripiphorinae. They belong to or are closely related to extant genera of this coleopteran subfamily. Together with Myodites burmiticus Cockerell, 1917 from the Albian Burmese amber, they demonstrate that the group is distinctly older than suggested by the hitherto available fossil record. By inference after the biology of the extant Ripiphorinae, Macrosiagon ebboi may have been parasitic on wasps and Paleoripiphorus deploegi on bees, suggesting that Apoidea may have been present in the Lower Cretaceous.