Heat flow (Earth) refers to the conductive and convective transfer of thermal energy from Earth’s interior to its surface, quantified as heat flux (typically in mW/m²). It arises from the decay of radiogenic isotopes (primarily U, Th, K) in the crust and mantle, residual primordial heat from accretion and core formation, and secular cooling of the core. Measured using borehole temperature gradients and thermal conductivity of rocks, terrestrial heat flow constrains models of lithospheric thickness, mantle convection, plate tectonics, and the global energy budget, and is spatially heterogeneous, with elevated values at mid-ocean ridges and volcanic regions and lower values in stable cratons.
The world's oceans are heating faster in two bands stretching around the globe, one in the southern hemisphere and one in the north, according to new research led by climate scientist Dr. Kevin Trenberth.
Earth Sciences
May 1, 2025
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Much of Earth's heat uptake is passed to the ocean, making ocean heat content key for understanding long-term climate patterns. Ocean heat content is typically lower during ice ages and rises during warmer periods of glacier ...
Earth Sciences
Apr 14, 2025
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The Hadley circulation, a fundamental component of Earth's atmospheric system, plays a crucial role in global climate regulation by transporting energy and moisture between the tropics and higher latitudes. However, recent ...
Environment
Mar 26, 2025
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Earth's nearest neighboring body in the solar system is its moon, yet to date, humans have physically explored just 5% of its surface. It wasn't until 2023—building on Apollo-era data and more detailed studies made in 2011–2012 ...
Planetary Sciences
Dec 19, 2024
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