4.7 Article

Seasonality in Arctic Warming Driven by Sea Ice Effective Heat Capacity

期刊

JOURNAL OF CLIMATE
卷 35, 期 5, 页码 1629-1642

出版社

AMER METEOROLOGICAL SOC
DOI: 10.1175/JCLI-D-21-0626.1

关键词

Arctic; Climate change; Climate models; Sea ice; Seasonal cycle

资金

  1. National Science Foundation [AGS-1752796, OCE-1850900]
  2. National Science Foundation (NSF) Graduate Research Fellowship [DGE-1762114]
  3. ARCS Foundation Fellowship
  4. Alfred P. Sloan Research Fellowship
  5. NSF [OPP-1643445, OPP-1643431]

向作者/读者索取更多资源

Arctic surface warming peaks in winter and reaches its minimum during summer. The change in effective heat capacity of sea ice plays a central role in explaining this seasonal asymmetry.
Arctic surface warming under greenhouse gas forcing peaks in winter and reaches its minimum during summer in both observations and model projections. Many mechanisms have been proposed to explain this seasonal asymmetry, but disentangling these processes remains a challenge in the interpretation of general circulation model (GCM) experiments. To isolate these mechanisms, we use an idealized single-column sea ice model (SCM) that captures the seasonal pattern of Arctic warming. SCM experiments demonstrate that as sea ice melts and exposes open ocean, the accompanying increase in effective surface heat capacity alone can produce the observed pattern of peak warming in early winter (shifting to late winter under increased forcing) by slowing the seasonal heating rate, thus delaying the phase and reducing the amplitude of the seasonal cycle of surface temperature. To investigate warming seasonality in more complex models, we perform GCMexperiments that individually isolate sea ice albedo and thermodynamic effects under CO2 forcing. These also show a key role for the effective heat capacity of sea ice in promoting seasonal asymmetry through suppressing summer warming, in addition to precluding summer climatological inversions and a positive summer lapse-rate feedback. Peak winter warming in GCM experiments is further supported by a positive winter lapse-rate feedback, due to cold initial surface temperatures and strong surface-trapped warming that are enabled by the albedo effects of sea ice alone. While many factors contribute to the seasonal pattern of Arctic warming, these results highlight changes in effective surface heat capacity as a central mechanism supporting this seasonality.

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