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North Atlantic drift sediments constrain Eocene tidal dissipation and the evolution of the Earth-Moon system
De Vleeschouwer, D.; Penman, D.E.; D'haenens, S.; Wu, F.; Westerhold, T.; Vahlenkamp, M.; Cappelli, C.; Agnini, C.; Kordesch, W.E.C.; King, D.J.; van der Ploeg, R.; Pälike, H.; Turner, S.K.; Wilson, P.; Norris, R.D.; Zachos, J.C.; Bohaty, S.M.; Hull, P.M. (2023). North Atlantic drift sediments constrain Eocene tidal dissipation and the evolution of the Earth-Moon system. Paleoceanography and Paleoclimatology 38(2): e2022PA004555. https://dx.doi.org/10.1029/2022PA004555
In: Paleoceanography and Paleoclimatology. American Geophysical Union: Washington DC. ISSN 2572-4525; e-ISSN 2572-4525, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • De Vleeschouwer, D., more
  • Penman, D.E.
  • D'haenens, S., more
  • Wu, F.
  • Westerhold, T.
  • Vahlenkamp, M.
  • Cappelli, C.
  • Agnini, C.
  • Kordesch, W.E.C.
  • King, D.J.
  • van der Ploeg, R.
  • Pälike, H.
  • Turner, S.K.
  • Wilson, P.
  • Norris, R.D.
  • Zachos, J.C.
  • Bohaty, S.M.
  • Hull, P.M.

Abstract
    Cyclostratigraphy and astrochronology are now at the forefront of geologic timekeeping. While this technique heavily relies on the accuracy of astronomical calculations, solar system chaos limits how far back astronomical calculations can be performed with confidence. High-resolution paleoclimate records with Milankovitch imprints now allow reversing the traditional cyclostratigraphic approach: Middle Eocene drift sediments from Newfoundland Ridge are well-suited for this purpose, due to high sedimentation rates and distinct lithological cycles. Per contra, the stratigraphies of Integrated Ocean Drilling Program Sites U1408–U1410 are highly complex with several hiatuses. Here, we built a two-site composite and constructed a conservative age-depth model to provide a reliable chronology for this rhythmic, highly resolved (<1 kyr) sedimentary archive. Astronomical components (g-terms and precession constant) are extracted from proxy time-series using two different techniques, producing consistent results. We find astronomical frequencies up to 4% lower than reported in astronomical solution La04. This solution, however, was smoothed over 20-Myr intervals, and our results therefore provide constraints on g-term variability on shorter, million-year timescales. We also report first evidence that the g4g3 “grand eccentricity cycle” may have had a 1.2-Myr period around 41 Ma, contrary to its 2.4-Myr periodicity today. Our median precession constant estimate (51.28 ± 0.56″/year) confirms earlier indicators of a relatively low rate of tidal dissipation in the Paleogene. Newfoundland Ridge drift sediments thus enable a reliable reconstruction of astronomical components at the limit of validity of current astronomical calculations, extracted from geologic data, providing a new target for the next generation of astronomical calculations.

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