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Precession and atmospheric CO2 modulated variability of sea ice in the central Okhotsk Sea since 130,000 years ago
Lo, L.; Belt, S.T.; Lattaud, J.; Friedrich, T.; Zeeden, C.; Schouten, S.; Smik, L.; Timmermann, A.; Cabedo-Sanz, P.; Huang, J.-J.; Zhou, L.; Ou, T.-H.; Chang, Y.-P.; Wang, L.-C.; Chou, Y.-M.; Shen, C.-C.; Chen, M.-T.; Wei, K.-Y.; Song, S.-R.; Fang, T.-H.; Gorbarenko, S.A.; Wang, W.-L.; Lee, T.-Q.; Elderfield, H.; Hodell, D.A. (2018). Precession and atmospheric CO2 modulated variability of sea ice in the central Okhotsk Sea since 130,000 years ago. Earth Planet. Sci. Lett. 488: 36-45. https://doi.org/10.1016/j.epsl.2018.02.005
In: Earth and Planetary Science Letters. Elsevier: Amsterdam. ISSN 0012-821X; e-ISSN 1385-013X, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Author keywords
    Okhotsk Sea; sea ice; insolation; greenhouse gases; precession cycle

Auteurs  Top 
  • Lo, L.
  • Belt, S.T.
  • Lattaud, J., meer
  • Friedrich, T.
  • Zeeden, C.
  • Schouten, S., meer
  • Smik, L.
  • Timmermann, A.
  • Cabedo-Sanz, P.
  • Huang, J.-J.
  • Zhou, L.
  • Ou, T.-H.
  • Chang, Y.-P.
  • Wang, L.-C.
  • Chou, Y.-M.
  • Shen, C.-C.
  • Chen, M.-T.
  • Wei, K.-Y.
  • Song, S.-R.
  • Fang, T.-H.
  • Gorbarenko, S.A.
  • Wang, W.-L.
  • Lee, T.-Q.
  • Elderfield, H.
  • Hodell, D.A.

Abstract
    Recent reduction in high-latitude sea ice extent demonstrates that sea ice is highly sensitive to external and internal radiative forcings. In order to better understand sea ice system responses to external orbital forcing and internal oscillations on orbital timescales, here we reconstruct changes in sea ice extent and summer sea surface temperature (SSST) over the past 130,000 yrs in the central Okhotsk Sea. We applied novel organic geochemical proxies of sea ice (IP25), SSST (TEXL86 ) and open water marine productivity (a tri-unsaturated highly branched isoprenoid and biogenic opal) to marine sediment core MD01-2414 (53°11.77′N, 149°34.80′E, water depth 1123 m). To complement the proxy data, we also carried out transient Earth system model simulations and sensitivity tests to identify contributions of different climatic forcing factors. Our results show that the central Okhotsk Sea was ice-free during Marine Isotope Stage (MIS) 5e and the early-mid Holocene, but experienced variable sea ice cover during MIS 2–4, consistent with intervals of relatively high and low SSST, respectively. Our data also show that the sea ice extent was governed by precession-dominated insolation changes during intervals of atmospheric CO2 concentrations ranging from 190 to 260 ppm. However, the proxy record and the model simulation data show that the central Okhotsk Sea was near ice-free regardless of insolation forcing throughout the penultimate interglacial, and during the Holocene, when atmospheric CO2 was above ∼260 ppm. Past sea ice conditions in the central Okhotsk Sea were therefore strongly modulated by both orbital-driven insolation and CO2-induced radiative forcing during the past glacial/interglacial cycle.

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