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  • 标题:Chaotic Variability of Ocean: Heat Content Climate-Relevant Features and Observational Implications
  • 本地全文:下载
  • 作者:Thierry Penduff ; Guillaume Sérazin ; Stéphanie Leroux
  • 期刊名称:Oceanography - Oceanography Society
  • 印刷版ISSN:1042-8275
  • 出版年度:2018
  • 卷号:31
  • 期号:2
  • 页码:63-71
  • DOI:10.5670/oceanog.2018.210
  • 出版社:Oceanography Society
  • 摘要:Global ocean models that admit mesoscale turbulence spontaneously generate a substantial interannual-to-multidecadal chaotic intrinsic variability in the absence of atmospheric forcing variability at these timescales. This phenomenon is substantially weaker in non-turbulent ocean models but provides a marked stochastic flavor to the low-​frequency variability in eddying ocean models, which are being coupled to the atmosphere for next-generation climate projections. In order to disentangle the atmospherically forced and intrinsic ocean variabilities, the OCCIPUT (OceaniC Chaos – ImPacts, strUcture, predicTability) project performed a long (1960–2015), large ensemble (50 members) of global ocean/sea ice 1/4° simulations driven by the same atmospheric reanalysis, but with perturbed initial conditions. Subsequent ensemble statistics show that the ocean variability can be seen as a broadband “noise,” with characteristic scales reaching multiple decades and basin sizes, locally modulated by the atmospheric variability. In several mid-latitude regions, chaotic processes have more impact than atmospheric variability on both the low-frequency variability and the long-term trends of regional ocean heat content. Consequently, certain climate-relevant oceanic signals cannot be unambiguously attributed to atmospheric variability, raising new issues for the detection, attribution, and interpretation of oceanic heat variability and trends in the presence of mesoscale turbulence.
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