R. Blaine McCleskey Bryant Jurgens Jacob B. Lowenstern Laura E. Clor Andrew G. Hunt Shaul Hurwitz 2025 <p><span>To improve our understanding of hydrothermal activity on the Yellowstone Plateau volcanic field, we collected and analyzed a large data set of δ</span>²<span>H, δ</span>¹⁸<span>O, and the&nbsp;</span>³<span>H concentrations of circum-neutral and alkaline waters. We find that (a) hot springs are fed by recharge throughout the volcanic plateau, likely focused through fractured, permeable tuff units. Previous work had stressed the need for light δ</span>²<span>H water recharge restricted to the northern part of the plateau or recharge during past cold periods. However, new data from the Y-7 drill hole suggests that recharge is not restricted to a certain area or a cold period. (b) δ</span>¹⁸<span>O values of thermal waters in the geyser basins are shifted from the global meteoric water line by temperature-dependent water-rock reactions with higher subsurface temperatures resulting in a greater shift. (c) Large temporal variations in the isotopic composition of meteoric water recharge and small temporal variability in the isotopic composition of hot spring discharge implies that the volume of groundwater in, and around the Yellowstone caldera is substantially larger than the volume of annual water recharge. (d) Hot springs discharged through different rhyolitic units correlate with identifiable differences in δ</span>²<span>H and δ</span>¹⁸<span>O compositions,&nbsp;</span>³<span>H concentrations, and water chemistry that imply equilibration at different temperatures and travel along different flow paths. (e) Based on measured&nbsp;</span>³<span>H concentrations, we calculate that hot spring waters in the central part of the geyser basins mostly contain &lt;2% post-1950 meteoric water, whereas waters discharged at the basin margins contain larger fractions of post-1950s meteoric water.</span></p> application/pdf 10.1029/2025GC012230 en American Geophysical Union The systematics of stable hydrogen (δ2H) and oxygen (δ18O) isotopes and tritium (3H) in the hydrothermal system of the Yellowstone Plateau volcanic field, USA article