The previous studies for phylogenetic relationships within Elateridae were carried out, but not constructed a reliable evolutionary hypothesis. This study attempted to establish a robust evolutionary hypothesis, focusing on major subfamilies of the family Elateridae sensu stricto, using extensively selected 12 genetic markers, COI, 16S rRNA, 18S rRNA, 28S rRNA and 8 nuclear genes. As the results, phylogenetic analyses for 12 multiple genes constructed robust phylogeny with almost very strongly supported nodal values (>90%) and represented that the previously questioned systematic positions of nine subfamilies are fully resolved, excepting the basal lineage split. Especially, three subfamilies, which were recently reduced into tribal rank, Hypnoidinae, Oxynopterinae, and Denticollinae are monophyletic, respectively, and it is supported the traditional taxonomic schemes that had been treated these three taxa in subfamily rank. Whereas, Elaterinae, Hiopinae, and Melanotinae are clustered to a monophyletic group. Two tribes, Denticollini and Ctenicerini in Denticollinae are paraphyletic, respectively and it needs to reclassify their systematic positions. This study recovering of relationships between subfamilies using 12 gene loci resulted that their phylogenetic relationships are sufficiently and successfully resolved with strong supported nodes and provided more possible interpretations from subfamily to tribal levels than the previous studies.