Climate Response to Orbital Forcing across the Oligocene-Miocene Boundary

Climate Response to Orbital Forcing across the Oligocene-Miocene Boundary

Spectral analyses of an uninterrupted 5.5-million-year (My)-long chronology of late Oligocene-early Miocene climate and ocean carbon chemistry from two deep-sea cores recovered in the western equatorial Atlantic reveal variance concentrated at all Milankovitch frequencies. Exceptional spectral power...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2001-04, Vol.292 (5515), p.274-278
Hauptverfasser: Zachos, James C., Shackleton, Nicholas J., Revenaugh, Justin S., Pälike, Heiko, Flower, Benjamin P.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Antarctic Regions
Atlantic Ocean
Atmosphere
Axial tilt
Carbon
Carbon cycle
Carbon dating
Carbon Dioxide
Carbon Isotopes - analysis
Climate
Climate change
Climatic changes
Congenital Impairments
Earth sciences
Earth, ocean, space
Eukaryota
Exact sciences and technology
Geologic Sediments
Geological time
Glacial epoch
Greenhouse effect
Ice
Ice ages
Isotopes
Messenger RNA
Miocene
Miocene Epoch
Numerical eccentricity
Oceans
Oligocene
Oligocene Epoch
Orbits
Orbits (Astrophysics)
Organic Chemistry
Oxygen Isotopes - analysis
Paleobotany
Paleoclimatology
Plankton
Precession
Spectrum Analysis
Stratigraphy
Time
Time series
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Beschreibung
Zusammenfassung:Spectral analyses of an uninterrupted 5.5-million-year (My)-long chronology of late Oligocene-early Miocene climate and ocean carbon chemistry from two deep-sea cores recovered in the western equatorial Atlantic reveal variance concentrated at all Milankovitch frequencies. Exceptional spectral power in climate is recorded at the 406-thousand-year (ky) period eccentricity band over a 3.4-million-year period [20 to 23.4 My ago (Ma)] as well as in the 125- and 95-ky bands over a 1.3-million-year period (21.7 to 23.0 Ma) of suspected low greenhouse gas levels. Moreover, a major transient glaciation at the epoch boundary (~23 Ma), Mi-1, corresponds with a rare orbital congruence involving obliquity and eccentricity. The anomaly, which consists of low-amplitude variance in obliquity (a node) and a minimum in eccentricity, results in an extended period (~200 ky) of low seasonality orbits favorable to ice-sheet expansion on Antarctica.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1058288