4.8 Article

Planetary chaos and inverted climate phasing in the Late Triassic of Greenland

出版社

NATL ACAD SCIENCES
DOI: 10.1073/pnas.2118696119

关键词

cyclostratigraphy; Milankovitch; lacustrine; Fleming F,ord Group

资金

  1. Independent Research Fund Denmark
  2. Paleomagnetic Research Fund at Lamont-Doherty Earth Observatory

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Sedimentological records are the only accessible archives for studying Earth's orbital variations in the distant geological past. A study comparing the climate response to orbital variations in a Late Triassic midlatitude temperate setting and a tropical low paleolatitude setting reveals antiphasing between the two, which has implications for global correlation of geological records.
Sedimentological records provide the only accessible archive for unraveling Earth's orbital variations in the remote geological past. These variations modulate Earth's climate system and provide essential constraints on gravitational parameters used in solar system modeling. However, geologic documentation of midlatitude response to orbital climate forcing remains poorly resolved compared to that of the low-latitude tropics, especially before 50 Mya, the limit of reliable extrapolation from the present. Here, we compare the climate response to orbital variations in a Late Triassic midlatitude temperate setting in Jameson Land, East Greenland (similar to 43 degrees N paleolatitude) and the tropical low paleolatitude setting of the Newark Basin, with independent time horizons provided by common magnetostratigraphic boundaries whose timing has been corroborated by uranium-lead (U-Pb) zircon dating in correlative strata on the Colorado Plateau. An integrated cyclostratigraphic and magnetostratigraphic age model revealed long-term climate cycles with periods of 850,000 and 1,700,000 y ascribed to the Mars-Earth grand orbital cycles. This indicates a 2:1 resonance between modulation of orbital obliquity and eccentricity variations more than 200 Mya and whose periodicities are inconsistent with astronomical solutions and indicate chaotic diffusion of the solar system. Our findings also demonstrate antiphasing in climate response between low and midlatitudes that has implications for precise global correlation of geological records.

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