When you think about climate change in our oceans, you may picture coral bleaching, melting sea ice, or extreme weather events. But beneath the ocean's surface, another quiet shift is underway.

The ocean is an important carbon sink that absorbs 20–30% of the total anthropogenic CO 2 emissions in the industrial era (1.0–3.0 Pg annually, 1 Pg = 10 15 g). Tropical cyclones are among the most ...

The Hadley Circulation (HC) plays a crucial role in distributing heat and moisture around the planet. Over recent decades, surface warming has caused the HC to expand poleward, expanding subtropical ...

Air–sea interaction in tropical oceans encompasses the exchange of heat, momentum and gases across the ocean surface, driven by solar radiation, wind stress and ocean mixing. Diurnal variability in ...

Research reveals when and why ancient tropical seas transitioned from oxygen oases to marine dead zones, providing clues to the long-term evolution of oceanic environments. Subscribe to our newsletter ...