Ancient clam shells reveal Atlantic Ocean currents are becoming dangerously unstable, approaching critical climate tipping ...
For nearly twenty years, satellites have quietly gauged the flow of sunlight and heat through the Earth’s atmosphere. Today, ...
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Massive system of rotating ocean currents in the North Atlantic is behaving strangely — and it may be reaching a tipping point
An analysis of clam shells suggests the North Atlantic subpolar gyre has had two periods of destabilization over the past 150 ...
Paul Myers emphasizes the necessity for very high-resolution computer models to effectively understand how ocean currents ...
A new study analyzing chemical traces in the growth rings of clam shells reinforces growing concerns about the stability of a ...
The North Atlantic Subpolar Gyre moves heat from the tropics to the North Atlantic, and it is a part of a much larger network ...
An expansive marine heat wave in the North Pacific Ocean will contribute to late surges of summer-like temperatures across ...
Bivalves, such as clams, oysters and mussels, record seasonal environmental changes in their shells, making them living ...
Ocean currents driven by wind, water density, tides, ocean floor features, or the Coriolis effect, have an important role on climate regulation and marine ecology. In turn, increasing water surface ...
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