Yellowstone's active hydrothermal system - What's with the hot water?
The recent series of geyser eruptions emphasize the importance, variability, power, and beauty of Yellowstone's hot springs, geysers, fumaroles, and mudpots. Steamboat Geyser, which had not erupted since 2014, entered a new period of activity with 7 eruptions from March 15 to May 27. Geysers are known to change eruption patterns periodically and the present activity is similar to periods of frequent Steamboat eruptions in the 1960's and 1980's. But…where does the hot water come from?
The water that ends up in Yellowstone's hydrothermal systems comes from rain and snowfall that seeps down through the ground. It then become part of a groundwater system for the whole Yellowstone region. Within Yellowstone Caldera, deeper groundwater fluids are heated as they circulate through rocks that overly the magma storage region. It's here where the chemical composition of both the fluid and rock become altered by geochemical reactions. The result? Heated and altered "hydrothermal fluids" that absorb gases and chemical compounds from the magma and crust (CO2, H2S, H2, CH4, Ar, and He).
These heated fluids are lighter than colder groundwaters and buoyantly rise to the surface. When they near the surface, hydrothermal fluids mix with the cold groundwaters and deposit siliceous (SiO2) sinter or calcareous (CaCO3) travertine that form the impressive cones, mounds, and terraces in Yellowstone's thermal basins.
Hot Springs are a natural outflow of hot water at the Earth's surface. They typically collect in shallow depressions to form thermal pools. In Yellowstone, hot springs can form from 1) silica-bearing alkaline chloride waters, 2) travertine-forming calcium carbonate waters, or 3) steam condensation originating from fumaroles.
Geysers represent a familiar and special type of surface expression of Yellowstone's active hydrothermal systems. They are especially abundant in the Lower, Midway, and Upper Geyser Basins near Old Faithful. Geyser eruptions can occur on a regular schedule, like Old Faithful in Upper Geyser Basin, or can occur only occasionally and/or unpredictably like Steamboat in Norris Geyser Basin. Geyser eruption intervals and activity vary due to changes in the subsurface natural plumbing system – some of which we don't yet understand well.
All geysers require two fundamental features: (1) a subsurface reservoir where hot waters can accumulate and reach boiling temperatures, and (2) a constriction in the geyser conduit that provides throttling and focusing of erupting fluids. For a geyser to erupt, the subsurface reservoir boils, builds pressure, then ejects small amounts of water. When enough water is ejected the pressure drops, causing the remaining water to become a steam-water mixture that is forcibly ejected through the constricted conduit. Geysers may erupt through narrow cones, large silica structures, or hot spring pools (called fountain geysers).
Fumaroles are holes or cracks in volcanic areas that emit steam containing carbon dioxide and hydrogen sulfide. The gaseous mixtures form when magma in the subsurface releases gases that rise through and react with overlying hot water. In many cases, fumarolic steam condenses to form thermal pools at the surface. Hydrogen sulfide (H2S) creates the distinctive rotten-egg odor of sulfur gases. Bacteria thrive in fumarolic environments, and usually oxidize the fluids to be strongly acidic sulfuric acid (H2SO4, pH of 0.5 to 4).
Mud pots are formed where steam and acidic fluids eat away at surrounding rocks. The remaining muddy mixture is made up of minerals including clays, pyrite (fools gold) and sulfates. Mudpots have a huge variety of colors (white, tan, pink, brown, grey, and black), and their fluidity depends on water supply and the minerals that make up the mud particles.
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