GOSA (The Geyser Observation and Study Association)

Yellowstone's Geysers


Quick Guide

Introduction | Geysers | Hot Springs | Fumaroles | Mud Pots
Upper Geyser Basin | Lower Geyser Basin | Norris Geyser Basin
Mammoth Hot Springs | Mud Volcano Area
Some Other Geyser Basins

GOSA Home Page | Yellowstone's Geysers


Grand Prismatic Spring
Photo of Grand Prismatic Spring from the "Attractions within 3-4 hours drive of Idaho Falls" page.
Yellowstone National Park is home to some 10,000 thermal features, over 500 hundred of which are geysers. In fact, Yellowstone contains the majority of the worlds geysers. Within Yellowstone's thermal features can be seen the product of millions of years of geology at work. Much of Yellowstone sits inside an ancient volcanic caldera (the exploded crater of a volcano). The last major caldera forming eruption occurred 600,000 years ago. For hundreds of thousands of years following that, subsequent lava flows slowly filled in most of the caldera. Even now, in some places, nearly molten rock resides as little as 2-5 miles below the surface. Heat from the volcanic activity makes its presence known by heating ground water and creating the thermal features we now see. The four basic types of thermal features present in the Park are geysers, hot springs, fumaroles, and mudpots. Many of these are concentrated in Yellowstone's major geyser basins: Upper, Midway, Lower, Norris, West Thumb, Shoshone and Heart Lake.


Yellowstone's Thermal Features

Geysers are hot springs that erupt periodically. The eruptions is the result of super-heated water below-ground becoming trapped in channels leading to the surface. The hottest temperatures are at the bottom of these channels (nearer the hot rock that heats the water) but the deep water cannot vaporize because of the weight of the water above. Instead, steam is sent upwards in bubbles, collecting in the channel's tight spots until they essentially become clogged, leading to a point where the confined bubbles actually lift the water above, causing the geyser to overflow. This causes the pressure to decrease until suddenly violent boiling occurs throughout much the length of the column, producing a tremendous volume of steam which forces the water out of the vent in a superheated mass. This is an eruption. As the eruption continues, the heat and pressure gradually decrease, and the eruption stops when the water reservoir is depleted or the steam runs out. The two types of geysers are fountain geysers (which shoot water out in