A study predicts the extension of the Strait of Gibraltar subduction zone into the Atlantic Ocean, which could create an Atlantic Ring of Fire within about 20 million years. This research sheds light on the dynamic nature of ocean life cycles and the formation of new reduction zones, using advanced computational models. It offers new insights into the activity of the subduction zone in Gibraltar and its implications for seismic activity, emphasizing the importance of preparedness and studying the process of ocean contraction as a key process in the geological evolution of the Earth. Credit: Mr Elliot Lim, CIRES &NOAA/NCEI

A study predicts the extension of the Strait of Gibraltar subduction zone into the Atlantic Ocean, which could create an Atlantic Ring of Fire within about 20 million years. This research sheds light on the dynamic nature of ocean life cycles and the formation of new reduction zones, using advanced computational models. It offers new insights into the activity of the subduction zone in Gibraltar and its implications for seismic activity, emphasizing the importance of preparedness and studying the process of ocean contraction as a key process in the geological evolution of the Earth. Credit: Mr Elliot Lim, CIRES &NOAA/NCEI

A study predicts the extension of the Strait of Gibraltar subduction zone into the Atlantic Ocean, which could create an Atlantic Ring of Fire within about 20 million years. This research sheds light on the dynamic nature of ocean life cycles and the formation of new reduction zones, using advanced computational models. It offers new insights into the activity of the subduction zone in Gibraltar and its implications for seismic activity, emphasizing the importance of preparedness and studying the process of ocean contraction as a key process in the geological evolution of the Earth. Credit: Mr Elliot Lim, CIRES &NOAA/NCEI