Abstract
Abstract. A consistent chronostratigraphic framework is required to understand the effect of major paleoclimate perturbations on both marine and terrestrial ecosystems. Transient global warming events in the early Eocene, at 56–54 Ma, show the impact of large-scale carbon input into the ocean–atmosphere system. Here we provide the first timescale synchronization of continental and marine deposits spanning the Paleocene–Eocene Thermal Maximum (PETM) and the interval just prior to the Eocene Thermal Maximum 2 (ETM-2). Cyclic variations in geochemical data come from continental drill cores of the Bighorn Basin Coring Project (BBCP, Wyoming, USA) and from marine deep-sea drilling deposits retrieved by the Ocean Drilling Program (ODP). Both are dominated by eccentricity-modulated precession cycles used to construct a common cyclostratigraphic framework. Integration of age models results in a revised astrochronology for the PETM in deep-sea records that is now generally consistent with independent 3He age models. The duration of the PETM is estimated at ∼ 200 kyr for the carbon isotope excursion and ∼ 120 kyr for the associated pelagic clay layer. A common terrestrial and marine age model shows a concurrent major change in marine and terrestrial biota ∼ 200 kyr before ETM-2. In the Bighorn Basin, the change is referred to as Biohorizon B and represents a period of significant mammalian turnover and immigration, separating the upper Haplomylus–Ectocion Range Zone from the Bunophorus Interval Zone and approximating the Wa-4–Wa-5 land mammal zone boundary. In sediments from ODP Site 1262 (Walvis Ridge), major changes in the biota at this time are documented by the radiation of a “second generation” of apical spine-bearing sphenolith species (e.g., S. radians and S. editus), the emergence of T. orthostylus, and the marked decline of D. multiradiatus.
Highlights
Eocene greenhouse climate on Earth was punctuated by transient global warming events (Cramer et al, 2003; Kirtland Turner et al, 2014)
Weathering resulted in brighter, yellowish colors within the upper ∼ 30 m of the Bighorn Basin Coring Project (BBCP) drill cores (Fig. 2 in Clyde et al, 2013)
BBCP drill core and Bighorn Basin outcrops are an ideal basis for revision of the Paleocene–Eocene Thermal Maximum (PETM) age model that is mainly derived from deep-sea sediments with low sedimentation rates
Summary
Eocene greenhouse climate on Earth was punctuated by transient global warming events (Cramer et al, 2003; Kirtland Turner et al, 2014). The Elmo event (aka ETM-2 or H1) (Cramer et al, 2003; Lourens et al, 2005) is another prominent transient warming event at 54.05 Ma (Westerhold et al, 2017a). Westerhold et al.: Synchronizing early Eocene deep-sea and continental records in great detail in deep-sea and terrestrial sedimentary successions (e.g., Zachos et al, 2005; Abels et al, 2016)
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