How species evolve diverse color pattern and how species interaction shape the diverse appearance are the important issues to biodiversity research. Pachyrhynchus weevils are insular species that predominantly distributed across the Philippine archipelago, and display extremely diverse and colorful pattern. Sympatric Doliops longhorn beetles also show the similar colorful pattern with Pachyrhynchus weevils. Although those color patterns of Pachyrhynchus weevils are known to function as an aposematic signal or camouflage, the evolutionary history of color patterns on Pachyrhynchus weevils remain unclear. In chapter 1, the phylogenomic methods were used to reconstruct the phylogenetic relationship and to estimate divergent time of diversification in Pachyrhynchus weevils, and the evolutionary process of patterns was inferred. I also investigated the association between geographic distribution and patterns. The result of phylogenetic inference showed that there were eight major clades in Pachyrhynchus weevils, and most of diversification events occurred in the Pliocene. Pachyrhynchus weevils might origin from Luzon, and the significant associations between checker and northern islands, and between spots and Mindoro were found. Patterns have transited within Pachyrhynchus weevils frequently. Spots pattern was inferred as the ancestral character, and the evolution of reticulation pattern was relatively conserved. The hard elytra and colorful appearance in Pachyrhynchus weevils may function as antipredator mechanisms, and Doliops longhorn beetles are hypothesized to mimic Pachyrhynchus weevils with similar color pattern. However, coevolutionary relationships between Doliops longhorn beetles and Pachyrhynchus weevils were still unclear, and the mimetic pairs were defined subjectively. In chapter 2, I examined the degree of coevolution by using phylogenetic distance-based approach and event-based approach, and assessed divergent time within mimetic pairs. Besides, reflectance spectrum of color patches on pattern and body was measured to quantify color similarity between Doliops longhorn beetles and Pachyrhynchus weevils by Just Noticeable Differences (JNDs) based on the six visual model systems of potential predators. The results showed that the co-phylogeny occurred in Doliops longhorn beetles and Pachyrhynchus weevils, and most of Doliops longhorn beetles diverged earlier than Pachyrhynchus weevils. The visual model analyses indicated that chromatic colors in mimetic pairs were difficult to be distinguished by the predators, Doliops longhorn beetles might mimic the color of Pachyrhynchus weevils to get the protection.