Extant biodiversity can easily be underestimated by the presence of cryptic taxa, even among commonly observed species. Scleractinian corals are challenging to identify because of their ecophenotypic variationplasticity and morphological plasticityvariation determined by genotype. In addition, molecular analysesdata haves revealed the occurrence of cryptic speciation. Here, we described a new cryptic lobophylliid genus and species Paraechinophyllia variabilis gen. nov., sp. nov., which is morphologically indistinguishable similar to from Echinophyllia aspera and E. orpheensis. The new taxon occurs in Mayotte Island, Madagascar, the Gulf of Aden, and the Red Sea. Six molecular markers (COI, 12S, ATP6-NAD4, NAD3-NAD5, histone H3, and ITS) and 46 morphological characters at three different levels (macromorphology, micromorphology, and microstructure) were examined. The resulting molecular phylogeny reconstruction showed that Paraechinophyllia gen. nov. represents a distinct group within theof Lobophylliidae that diverged from the lineage leading to Echinophyllia and Oxypora in the Early Miocene, approximately 21.5 million years ago. The morphological phylogeny reconstruction clustered Paraechinophyllia gen. nov., Echinophyllia, and Oxypora together in a single clade. and Aa sole morphological character, calice relief, discriminated Paraechinophyllia gen. nov. from the latter two genera, suggesting that limited morphological variation has occurred over a long period. These results highlight the importance of cryptic taxa in reef corals, with implications for population genetics, ecological studies, and conservation.