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El Niño–Southern Oscillation signal in a new East Antarctic ice core, Mount Brown South
Crockart, C.K.; Vance, T.R.; Fraser, A.D.; Abram, N.J.; Criscitiello, A.S.; Curran, M.A.J.; Favier, V.; Gallant, A.J.E.; Kittel, C.; Kjaer, H.A.; Klekociuk, A.R.; Jong, L.M.; Moy, A.D.; Plummer, C.T.; Vallelonga, P.T.; Wille, J.; Zhang, L. (2021). El Niño–Southern Oscillation signal in a new East Antarctic ice core, Mount Brown South. Clim. Past 17(5): 1795-1818. https://dx.doi.org/10.5194/cp-17-1795-2021
In: Climate of the Past. Copernicus: Göttingen. ISSN 1814-9324; e-ISSN 1814-9332, meer
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  • Crockart, C.K.
  • Vance, T.R.
  • Fraser, A.D.
  • Abram, N.J.
  • Criscitiello, A.S.
  • Curran, M.A.J.
  • Favier, V.
  • Gallant, A.J.E.
  • Kittel, C., meer
  • Kjaer, H.A.
  • Klekociuk, A.R.
  • Jong, L.M.
  • Moy, A.D.
  • Plummer, C.T.
  • Vallelonga, P.T.
  • Wille, J.
  • Zhang, L.

Abstract
    Paleoclimate archives, such as high-resolution ice core records, provide a means to investigate past climate variability. Until recently, the Law Dome (Dome Summit South site) ice core record remained one of few millennial-length high-resolution coastal records in East Antarctica. A new ice core drilled in 2017/2018 at Mount Brown South, approximately 1000 km west of Law Dome, provides an additional high-resolution record that will likely span the last millennium in the Indian Ocean sector of East Antarctica. Here, we compare snow accumulation rates and sea salt concentrations in the upper portion (∼ 20 m) of three Mount Brown South ice cores and an updated Law Dome record over the period 1975–2016. Annual sea salt concentrations from the Mount Brown South site record preserve a stronger signal for the El Niño–Southern Oscillation (ENSO; austral winter and spring, r = 0.533, p < 0.001, Multivariate El Niño Index) compared to a previously defined Law Dome record of summer sea salt concentrations (November–February, r = 0.398, p = 0.010, Southern Oscillation Index). The Mount Brown South site record and Law Dome record preserve inverse signals for the ENSO, possibly due to longitudinal variability in meridional transport in the southern Indian Ocean, although further analysis is needed to confirm this. We suggest that ENSO-related sea surface temperature anomalies in the equatorial Pacific drive atmospheric teleconnections in the southern mid-latitudes. These anomalies are associated with a weakening (strengthening) of regional westerly winds to the north of Mount Brown South that correspond to years of low (high) sea salt deposition at Mount Brown South during La Niña (El Niño) events. The extended Mount Brown South annual sea salt record (when complete) may offer a new proxy record for reconstructions of the ENSO over the recent millennium, along with improved understanding of regional atmospheric variability in the southern Indian Ocean, in addition to that derived from Law Dome.

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