Reef-building corals show high morphological variation within and among species. This variability can be associated with species plasticity and hybridization, phenotypic polymorphism, geographic distribution, and environmental factors hindering taxonomic identification. Recent studies have demonstrated the relevance of combining landmark skeleton morphometry and genetic analysis to identify coral species and the populations within. However, accurate and less destructive sampling methods are required for field studies. Therefore, robust and reproducible approaches are necessary for coral identification in the field. The Tara Pacific expedition collected more than 3000 coral samples from 32 different islands across two transects spanning the Pacific Ocean East-West and South-North. Three species, Pocillopora meandrina, Porites lobata and Millepora platyphylla were chosen based on their relative abundance and presence across the whole Pacific. Here, we tested whether it is possible to predict genetic lineages within these three genera from in situ photos. We used colony morphometric analysis and SNPs based genotyping combined with unsupervised and supervised machine learning random forest algorithm. We showed that only a limited number of genetic lineages could be predicted based on colony morphology with low error rates. Furthermore, discuss the potential effects of environmental factors such as temperature and wave intensity in determining the colony morphology. This study shows the potential and limitations of in situ photographs for the identification of genetic lineages in reef-building corals.