Comparative cytogenetics of the families Pteromalidae and Spalangiidae – a review

Abstract

AbstractAlthough chromosomes of only 20 members of Pteromalidae sensu lato (s.l.), which belong to the families Pteromalidae sensu stricto (hence Pteromalidae) and Spalangiidae, are studied up to now, the accumulated cytogenetic information has important implications for taxonomic and evolutionary studies of these parasitoids. Within the former family, which includes the overwhelming majority of karyotypically studied species of Pteromalidae s.l., the known haploid chromosome number (n) can vary from 4 to 7 in Pachycrepoideus vindemmiae (Rondani) and Anisopteromalus calandrae (Howard), respectively, with a clear mode at n = 5. Among these parasitoids, Nasonia vitripennis (Walker) is the most thoroughly studied species in terms of modern cytogenetic techniques. On the contrary, chromosomes of only two members of Spalangiidae are known, both belonging to the Spalangia endius Walker complex, with n = 4 and 6. A few cosmopolitan cryptic species of the family Pteromalidae were studied using cytogenetic approaches. Specifically, Anisopteromalus quinarius Gokhman et Baur, a newly described parasitoid of stored‐product pests with n = 5, was initially separated from A. calandrae based on its different chromosome number. Another pteromalid with a similar biology, Lariophagus distinguendus (Förster), was also found to harbor two cryptic species with n = 5 and 6. Moreover, a morphometric study of these karyotypes suggested that the largest chromosome in the set with n = 5 has resulted from a fusion of two particular chromosomes in the karyotype with n = 6, and this hypothesis was confirmed using microdissection and whole‐chromosome painting. Recent cytogenetic and bioinformatic research also showed that N. vitripennis, Nasonia longicornis Darling, Nasonia giraulti Darling, Nasonia oneida Raychouhury et Desjardins, Muscidifurax uniraptor Kogan et Legner, and Trichomalopsis sarcophagae (Gahan) (all Pteromalidae) share the TTATTGGG telomeric motif with most other Chalcidoidea. Perspectives of the chromosome study of Pteromalidae s.l. are briefly discussed.