Earth's temperature increases by approximately 1 degree Fahrenheit for every 60-70 feet of depth on average, though this varies significantly based on location and geology.
Earth Gets 1°F Hotter Every 60 Feet You Dig Down
Imagine digging a hole in your backyard. For every 60 to 70 feet you descend, the temperature rises by about 1 degree Fahrenheit. This phenomenon, known as the geothermal gradient, means that just a few hundred feet below the surface, conditions are noticeably warmer than at ground level.
Scientists measure this gradient at roughly 25-30°C per kilometer (or about 1°F per 70 feet) in most continental regions. But here's where it gets interesting: this rate isn't constant everywhere. Near tectonic plate boundaries or volcanic zones, temperatures can skyrocket much faster—sometimes exceeding 100°C per kilometer.
Why Does Earth Get Hotter Below?
Two main sources fuel Earth's internal heat. First, primordial heat left over from our planet's formation 4.5 billion years ago, when colliding particles generated tremendous energy. Second, the radioactive decay of elements like uranium, thorium, and potassium in Earth's mantle continuously produces new heat.
This heat tries to escape to the surface through conduction and convection, creating the temperature gradient we observe. The rate of increase depends on factors like rock composition, proximity to magma chambers, and groundwater circulation.
Real-World Implications
Deep mines experience this gradient firsthand. South African gold mines, which extend over 2 miles deep, face temperatures exceeding 130°F (55°C). Mining companies spend millions on cooling systems to make working conditions survivable.
The geothermal gradient also explains natural hot springs—groundwater descends, heats up, and rises back to the surface. In places like Iceland and New Zealand, this heat powers entire communities through geothermal energy plants.
Journey to Earth's Core
If you could somehow travel to Earth's center (about 4,000 miles down), you wouldn't experience a steady 1°F per 60 feet the whole way. The gradient changes dramatically:
- Upper crust: 1°F per 60-100 feet
- Lower crust and mantle: Variable rates as pressure increases
- Outer core (liquid iron): Around 7,200-9,000°F
- Inner core: Approximately 9,000-10,800°F—as hot as the sun's surface
Next time you feel the warmth of a hot spring or hear about geothermal energy, remember: you're experiencing heat that's been rising from deep within our planet, following that steady gradient of roughly 1 degree every 60 feet.