Polar amplification of surface warming on an aquaplanet in “ghost forcing” experiments without sea ice feedbacks
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Tracing Atlantic Water Signature in the Arctic Sea Ice Cover East of SvalbardEvidence linking Arctic amplification to extreme weather in mid-latitudesLow clouds suppress Arctic air formation and amplify high-latitude continental winter warming.Magnitude and pattern of Arctic warming governed by the seasonality of radiative forcing.Future increases in Arctic precipitation linked to local evaporation and sea-ice retreat.Recent Arctic amplification and extreme mid-latitude weatherA theory for polar amplification from a general circulation perspectiveComparison of surface albedo feedback in climate models and observationsEnergy-balance mechanisms underlying consistent large-scale temperature responses in warm and cold climatesIsentropic constraints by midlatitude surface warming on the Arctic midtroposphereThe role of snow-surface coupling, radiation, and turbulent mixing in modeling a stable boundary layer over Arctic sea iceThe polar amplification asymmetry: role of Antarctic surface heightEstimation of trends in extreme melt-season duration at SvalbardLocal and remote controls on observed Arctic warmingThe dependence of transient climate sensitivity and radiative feedbacks on the spatial pattern of ocean heat uptakeLMDZ5B: the atmospheric component of the IPSL climate model with revisited parameterizations for clouds and convectionThe Polar WRF Downscaled Historical and Projected Twenty-First Century Climate for the Coast and Foothills of Arctic AlaskaPolar amplification: is atmospheric heat transport important?Relative contribution of feedback processes to Arctic amplification of temperature change in MIROC GCMRemarkable separability of circulation response to Arctic sea ice loss and greenhouse gas forcingOn the Arctic Ocean ice thickness response to changes in the external forcingAn Ensemble of Arctic Simulations of the AOE-2001 Field ExperimentConceptual understanding of climate change with a globally resolved energy balance modelCoupling between Arctic feedbacks and changes in poleward energy transportIncreasing atmospheric poleward energy transport with global warmingThe Effects of Marine Cloud Brightening on Seasonal Polar Temperatures and the Meridional Heat FluxEffects of Arctic Sea Ice Decline on Weather and Climate: A Review
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P2860
Polar amplification of surface warming on an aquaplanet in “ghost forcing” experiments without sea ice feedbacks
description
article
@en
im April 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2005
@uk
ലേഖനം
@ml
name
Polar amplification of surface ...... ents without sea ice feedbacks
@en
Polar amplification of surface ...... ents without sea ice feedbacks
@nl
type
label
Polar amplification of surface ...... ents without sea ice feedbacks
@en
Polar amplification of surface ...... ents without sea ice feedbacks
@nl
prefLabel
Polar amplification of surface ...... ents without sea ice feedbacks
@en
Polar amplification of surface ...... ents without sea ice feedbacks
@nl
P2093
P1433
P1476
Polar amplification of surface ...... ents without sea ice feedbacks
@en
P2093
J. R. Bates
P. L. Langen
V. A. Alexeev
P2888
P304
P356
10.1007/S00382-005-0018-3
P577
2005-04-27T00:00:00Z
P5875
P6179
1021575273