Comparative Regional Hydrologic Changes During the Early Eocene

The early Eocene is punctuated by a series of rapid warming events, known as hyperthermals. The first among these, the Paleocene-Eocene Thermal Maximum, or PETM, has been argued to be one of the closest approximations to modern-day, anthropogenic warming in the geologic record. The PETM, and the sub...

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Bibliographic Details
Main Author: Rush, William Davis
Other Authors: Zachos, James C
Format: Thesis
Language:English
Published: eScholarship, University of California 2022
Subjects:
Online Access:https://escholarship.org/uc/item/4kf5z57c
Description
Summary:The early Eocene is punctuated by a series of rapid warming events, known as hyperthermals. The first among these, the Paleocene-Eocene Thermal Maximum, or PETM, has been argued to be one of the closest approximations to modern-day, anthropogenic warming in the geologic record. The PETM, and the subsequent hyperthermals of smaller magnitude, such as Eocene Thermal Maximum 2, or ETM2, can provide insight into our future warmer world. In addition to temperature changes, these hyperthermals drove significant changes in regional precipitation patterns. This study seeks to better understand these changes, focusing on the mid-latitude North Atlantic coasts, utilizing a suite of techniques including high-resolution climate models and geochemical, sedimentological, and paleoecological proxies. Our models show a significant increase in the seasonality and extremes of precipitation in response to elevated CO2 levels, with significant differences regionally depending upon orbital configuration. In the western Mid-Atlantic we find a dramatic weathering response to these precipitation changes, with an increase both in chemical alteration and physical transport of sediment. During ETM2, in contrast to studies in other regions, the climatic response was much more muted, with temperatures decreasing, a moderate increase in chemical weathering, and little response in the marine palynology, highlighting the importance climatic forcings apart from CO2 such as orbital forcing and dynamic feedbacks.