Among the families Acrididae, Ommexechidae and Romaleidae there is reported to be chromosomal stability with a high frequency of species harbouring diploid number (2n) of 23♂/24♀ chromosomes.[3][4] In species of Acrididae and Romaleidae it is common to have acrocentric chromosomes with a fundamental number (FN), i.e. number of chromosome arms, of 23♂/24♀.[4] However, chromosomal rearrangements are frequently found as deviations from the standard acrocentric karyotype. In the subfamily Ommexechinae most species show a unique karyotype (2n = 23♂/24♀, FN = 25♂/26♀) due to the occurrence of a large autosomal pair (L1) with submetacentric morphology.[4] There is some support for 'Mesa's hypothesis' of an ancestral pericentric inversion in the ancestor of Ommexechinae to explain this karyotype variation.[5][6][4][7]
References
^MacLeay WS (1821) Horae Entomologicae or Essays on the Annulose Animals (from www.biodiversitylibrary.org originally as "Acridina").
^ abCigliano, M. M.; Braun, H.; Eades, D. C.; Otte, D. "superfamily Acridoidea MacLeay, 1821". orthoptera.speciesfile.org. Orthoptera Species File. Retrieved 8 January 2019.
^G. M. Hewitt (1979). "Insecta 1: Orthoptera. Grasshoppers and crickets". In B. John; H. Bauer; H. Kayano; A. Levan; M. White (eds.). Animal cytogenetics 3. Berlin: Gebrüder Borntraeger.
^ abcdA. Mesa; A. Ferreira; C. S. Carbonell (1982). "Cariología de los acridoideos neotropicales: estado actual de su conocimiento y nuevas contribuciones". Annales de la Société Entomologique de France. 18: 507–526.
^A. Mesa (1963). "Acerca de la cariología de Ommexechidae (Orthoptera-Acridoidea)". Revista de la Sociedad Uruguaya de Entomología. 5: 37–43.
^A. Mesa; A. Ferreira (1977). "Cytological studies in family Ommexechidae (Orthoptera-Acridoidea)". Acrida. 6: 261–271.