科技报告详细信息
Large-Scale Transport into the Arctic: The Roles of the Midlatitude Jet and the Hadley Cell
Yang, Huang ; Waugh, Darryn W ; Orbe, Clara ; Zeng, Guang ; Morgenstern, Olaf ; Kinnison, Douglas E ; Lamarque, Jean-Francois ; Tilmes, Simone ; Plummer, David A ; Jöckel, Patrick(Deutsches Zentrum fuer Luft- und Raumfahrt eV, Institut für Physik der Atmosphäre, Oberpfaffenhofen, Germany)
关键词: AEROSOLS;    ARCTIC REGIONS;    ATMOSPHERIC COMPOSITION;    BIAS;    CLIMATE;    CLIMATE MODELS;    CONVECTION;    LATITUDE;    MARINE METEOROLOGY;    MERIDIONAL FLOW;    JET MIXING FLOW;    OCEAN MODELS;    TEMPERATE REGIONS;    TRACE ELEMENTS;    VORTICES;   
RP-ID  :  GSFC-E-DAA-TN68258
学科分类:大气科学
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Transport from the Northern Hemisphere (NH) midlatitudes to the Arctic plays a crucial role in determining the abundance of trace gases and aerosols that are important to Arctic climate via impacts on radiation and chemistry. Here we examine this transport using an idealized tracer with a fixed lifetime and predominantly midlatitude land-based sources in models participating in the Chemistry Climate Model Initiative (CCMI). We show that there is a 25%-45% difference in the Arctic concentrations of this tracer among the models. This spread is correlated with the spread in the location of the Pacific jet, as well as the spread in the location of the Hadley Cell (HC) edge, which varies consistently with jet latitude. Our results suggest that it is likely that the HC-related zonal-mean meridional transport rather than the jet-related eddy mixing is the major contributor to the inter-model spread in the transport of land-based tracers into the Arctic. Specifically, in models with a more northern jet, the HC generally extends further north and the tracer source region is mostly covered by surface southward flow associated with the lower branch of the HC, resulting in less efficient transport poleward to the Arctic. During boreal summer, there are poleward biases in jet location in free-running models, and these models likely underestimate the rate of transport into the Arctic. Models using specified dynamics do not have biases in the jet location, but do have biases in the surface meridional flow, which may result in differences in transport into the Arctic. In addition to the land-based tracer, the midlatitude-to-Arctic transport is further examined by another idealized tracer with zonally uniform sources. With equal sources from both land and ocean, the inter-model spread of this zonally uniform tracer is more related to variations in parameterized convection over oceans rather than variations in HC extent, particularly during boreal winter. This suggests that transport of land-based and oceanic tracers or aerosols towards the Arctic differs in pathways and therefore their corresponding inter-model variabilities result from different physical processes.

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