Distinct phylogeographic and population genetic patterns of decapod species across Mediterranean biogeographic barriers

The Mediterranean Sea is a semi-enclosed oceanic basin that communicates with the Atlantic Ocean and can be subdivided into seven geographical regions. It is considered a hotspot of biodiversity and is characterised by high rates of endemism. Over the past decades, many studies showed the presence of potential geographical breaks both across the Atlanto-Mediterranean transition and within the Mediterranean Sea. These investigations led to the identification of three distinct types of population genetic structures: (1) populations characterized by panmixia; (2) Atlanto-Mediterranean geographical partitioning; and (3) possible further subdivision between East and West Mediterranean basins. In this review, mainly focused on Christoph Schubart’s works and interests, we summarize the different patterns of gene flows across the Atlanto-Mediterranean transition and within the Mediterranean Sea, recorded for decapod species living in littoral zones. Although some species share similar biological traits, larval dispersal mechanisms and habitat preferences, differences in their phylogeographic and population genetic structures do emerge. These findings confirm the complex nature of gene flows across the Atlanto-Mediterranean transition and within the Mediterranean basin and how difficult it is to achieve a generalised picture of the phylogeographical patterns of Atlantic-Mediterranean species.