Litcius/Paper detail

The dawn of the tropical Atlantic invasion into the Mediterranean Sea

Paolo G. Albano, Lotta Schultz, Johannes Wessely, Marco Taviani, Stefan Dullinger, Silvia Danise

2024Proceedings of the National Academy of Sciences28 citationsDOIOpen Access PDF

Abstract

The Mediterranean Sea is a marine biodiversity hotspot already affected by climate-driven biodiversity collapses. Its highly endemic fauna is at further risk if global warming triggers an invasion of tropical Atlantic species. Here, we combine modern species occurrences with a unique paleorecord from the Last Interglacial (135 to 116 ka), a conservative analog of future climate, to model the future distribution of an exemplary subset of tropical West African mollusks, currently separated from the Mediterranean by cold upwelling off north-west Africa. We show that, already under an intermediate climate scenario (RCP 4.5) by 2050, climatic connectivity along north-west Africa may allow tropical species to colonize a by then largely environmentally suitable Mediterranean. The worst-case scenario RCP 8.5 leads to a fully tropicalized Mediterranean by 2100. The tropical Atlantic invasion will add to the ongoing Indo-Pacific invasion through the Suez Canal, irreversibly transforming the entire Mediterranean into a novel ecosystem unprecedented in human history.

Topics & Concepts

Mediterranean climateTropical AtlanticMediterranean seaBiodiversityGeographyBiodiversity hotspotThreatened speciesSuez canalOceanographyUpwellingEcologyTropical climateClimate changeBiologySea surface temperatureEnvironmental scienceGeologyHabitatWater resource managementParasite Biology and Host InteractionsMarine Ecology and Invasive SpeciesIsotope Analysis in Ecology