Effects of inter-subspecies hybridization of non-native Monochamus alternatus alternatus and native M. a. endai (Coleoptera: Cerambycidae) on the induction of larval diapause and adult body size

Abstract

To evaluate the effects of Taiwanese Monochamus alternatus alternatus (Coleoptera: Cerambycidae) (T) on native M. a. endai populations (J) and pine wilt disease epidemics in Japan, the biological traits of reciprocally crossed lines between two subspecies were compared with parental lines. No significant differences were observed in egg viability among four crosses in the F1 generation. Hybridized lines had greater survival rates than inbred lines of the J × J cross. The incidence of larval diapause was lower in the inbred lines of M. a. alternatus (0.176 and 0.361) than in the inbred lines of M. a. endai (1.000). Hybridized lines showed a high diapause incidence of 0.896–1.000 in the F1 and F2 generations, indicating that diapause induction was dominant over nondiapause induction. Large numbers of ovarioles dominated over small numbers of ovarioles. Hybridized lines revealed greater adult body sizes than the inbred lines of parental subspecies in the F1 generation (heterosis), but not in the F2 generation. Heterosis in adult body size may contribute to pine wilt disease epidemics because of the greater oviposition rate and initial load of pathogenic nematodes. Two unlinked loci are estimated to control diapause induction. Gene introgression and the dynamics of nondiapause-inducing alleles are discussed.