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Cramer, B.S., Wright, J.D., Kent, D.V. and Aubry, M. (2003). Orbital climate forcing of d13C excursions in the late Paleocene–early Eocene (chrons C24n–C25n). Paleoceanography 18: doi: 10.1029/2003PA000909. issn: 0883-8305. |
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High-resolution stable carbon isotope records for upper Paleocene--lower Eocene sections at Ocean Drilling Program Sites 1051 and 690 and Deep Sea Drilling Project Sites 550 and 577 show numerous rapid (40--60 kyr duration) negative excursions of up to 1?. We demonstrate that these transient decreases are the expected result of nonlinear insolation forcing of the carbon cycle in the context of a long carbon residence time. The transients occur at maxima in Earth's orbital eccentricity, which result in high-amplitude variations in insolation due to forcing by climatic precession. The construction of accurate orbital chronologies for geologic sections older than ~35 Ma relies on identifying a high-fidelity recorder of variations in Earth's orbital eccentricity. We use the carbon isotope records as such a recorder, establishing a robust orbitally tuned chronology for latest Paleocene--earliest Eocene events. Moreover, the transient decreases provide a means of precise correlation among the four sites that is independent of magnetostratigraphic and biostratigraphic data at the <105-year scale. While the eccentricity-controlled transient decreases bear some resemblance to the much larger-amplitude carbon isotope excursion (CIE) that marks the Paleocene/Eocene boundary, the latter event is found to occur near a minimum in the ~400-kyr eccentricity cycle. Thus the CIE occurred during a time of minimal variability in insolation, the dominant mechanism for forcing climate change on 104-year scales. We argue that this is inconsistent with mechanisms that rely on a threshold climate event to trigger the Paleocene/Eocene thermal maximum since any threshold would more likely be crossed during a period of high-amplitude climate variations. High-resolution stable carbon isotope records for upper Paleocene--lower Eocene sections at Ocean Drilling Program Sites 1051 and 690 and Deep Sea Drilling Project Sites 550 and 577 show numerous rapid (40--60 kyr duration) negative excursions of up to 1?. We demonstrate that these transient decreases are the expected result of nonlinear insolation forcing of the carbon cycle in the context of a long carbon residence time. The transients occur at maxima in Earth's orbital eccentricity, which result in high-amplitude variations in insolation due to forcing by climatic precession. The construction of accurate orbital chronologies for geologic sections older than ~35 Ma relies on identifying a high-fidelity recorder of variations in Earth's orbital eccentricity. We use the carbon isotope records as such a recorder, establishing a robust orbitally tuned chronology for latest Paleocene--earliest Eocene events. Moreover, the transient decreases provide a means of precise correlation among the four sites that is independent of magnetostratigraphic and biostratigraphic data at the <105-year scale. While the eccentricity-controlled tra |
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Abstract |
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The ?^13 C Model Used As A Tuning Target |
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The ?^13 C Model Used As A Tuning Target |
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The ?^13 C Model Used As A Tuning Target |
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Keywords
Global Change, Climate dynamics, Geomagnetism and Paleomagnetism, Magnetostratigraphy, Oceanography, General, Paleoceanography, Geochemistry, Isotopic composition/chemistry, Marine Geology and Geophysics, Micropaleontology |
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Publisher
American Geophysical Union
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