Swift Weathering Response on Floodplains During the Paleocene‐Eocene Thermal Maximum
Evan J. Ramos, Daniel O. Breecker, Jaime D. Barnes, Fangliang Li, Philip D. Gingerich, Staci Loewy, Aaron M. Satkoski, Allison A. Baczynski, Scott L. Wing, Nathan Miller, John Lassiter
Abstract
Abstract Silicate weathering is thought to increase and offset the rapid, massive input of CO 2 into the atmosphere and ocean during the Paleocene‐Eocene Thermal Maximum (PETM), but few nonmarine records have been used to quantify this. We probe changes in silicate weathering intensity by measuring Li isotope ratios of bedrock and ancient floodplain deposits spanning the PETM in the Bighorn Basin, Wyoming (USA). Our results reveal a rapid increase in silicate weathering intensity during the PETM that remained high during at least the initial stage of climate recovery. Additionally, we determine that soils that formed farthest from ancient river channels underwent larger weathering changes than near‐channel soils. Alongside increased temperatures and p CO 2 , the simplest explanation for this response relates to increased seasonal fluctuations in water table height in the floodplain that promote dissolution and precipitation reactions. These findings newly demonstrate that weathering on floodplains, like mountain hillslopes, responds to climate change.