The Eastern Mediterranean is experiencing a large-scale invasion of alien tropical species from the Red Sea. This “Lessepsian invasion” began with the opening of the Suez Canal and is promoted by the ongoing oceanic warming. The environmental differences between the Red Sea and the Mediterranean act as a buffer allowing the invasion of certain species. This provides an opportunity to study the differences in temperature sensitivity between two sibling species of the cosmopolitian foraminifera Amphistegina. Both species are very common in the Red Sea. Whilest, only one is a successful invader and the other is absent in the Eastern Mediterranean. Here we show that the two species are different in their temperature sensitivity, which explains their selective invasion into the Mediterranean. These differences demonstrate that in respect to climate change resilient marine species can be distinguished by their ability to compensate for temperature changes by adjusting their physiological performance and by having tolerance to a wider temperature range. Moreover, we demonstrate that selective filtering mechanisms during invasion can prefer species that are more resilient to colder rather than expected warmer temperatures.
Bibliographical noteFunding Information:
We thank Chen Kenigsberg, and Anat Chen for their assistance in the fieldwork. We also thank Eyal Wurgaft and Hanni Vigderovich for their consultation regarding alkalinity measurements and Shai Roth for producing the SST maps. We also acknowledge much appreciated technical help from BioAnalytics Ltd. We acknowledge funding by the Israel Science Foundation grant No. 587/2013 to Sigal Abramovich and support provided to Danna Titelboim by the Mediterranean Sea Research Center of Israel.
© 2019, The Author(s).
ASJC Scopus subject areas