Three-dimensional transport and concentration of SF6. A model intercomparison study (TransCom 2)

IF 2.3 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES

Tellus Series B-Chemical and Physical Meteorology Pub Date : 1999-04-01 DOI:10.3402/TELLUSB.V51I2.16286

B. A. S. Denning, M. Holzer, K. Gurney, M. Heimann, R. Law, P. Rayner, I. Fung, S. Fan, Shoichi, Taguchi, P. Friedlingstein, Y. Balkanski, John A. Taylor, Manfred, Maiss, I. Levin

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引用次数: 176

Abstract

Sulfur hexafluoride (SF 6 ) is an excellent tracer of large-scale atmospheric transport, because it has slowly increasing sources mostly confined to northern midlatitudes, and has a lifetime of thousands of years. We have simulated the emissions, transport, and concentration of SF 6 for a 5-year period, and compared the results with atmospheric observations. In addition, we have performed an intercomparison of interhemispheric transport among 11 models to investigate the reasons for the diVerences among the simulations. Most of the models are reasonably successful at simulating the observed meridional gradient of SF 6 in the remote marine boundary layer, though there is less agreement at continental sites. Models that compare well to observations in the remote marine boundary layer tend to systematically overestimate SF 6 at continental locations in source regions, suggesting that vertical trapping rather than meridional transport may be a dominant control on the simulated meridional gradient. The vertical structure of simulated SF 6 in the models supports this interpretation. Some of the models perform quite well in terms of the simulated seasonal cycle at remote locations, while others do not. Interhemispheric exchange time varies by a factor of 2 when estimated from 1-dimensional meridional profiles at the surface, as has been done for observations. The agreement among models is better when the global surface mean mole fraction is used, and better still when the full 3-dimensional mean mixing ratio is used. The ranking of the interhemispheric exchange time among the models is not sensitive to the change from station values to surface means, but is very sensitive to the change from surface means to the full 3-dimensional tracer fields. This strengthens the argument that vertical redistribution dominates over interhemispheric transport in determining the meridional gradient at the surface. Vertically integrated meridional transport in the models is divided roughly equally into transport by the mean motion, the standing eddies, and the transient eddies. The vertically integrated mass flux is a good index of the degree to

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SF6的三维迁移和浓度。模型比较研究(TransCom 2)

六氟化硫(sf6)是大规模大气输送的优秀示踪剂，因为它的来源缓慢增加，主要局限于中纬度北部地区，并且具有数千年的寿命。我们模拟了五年期间sf6的排放、运输和浓度，并将结果与大气观测结果进行了比较。此外，我们还对11个模式的半球间输运进行了比较，以探讨模拟差异的原因。大多数模式在模拟远海边界层观测到的SF - 6经向梯度方面相当成功，但在大陆站点的模拟结果不太一致。与遥远海洋边界层观测结果比较好的模式往往系统性地高估了源区大陆位置的SF - 6，这表明垂直圈闭而不是经向输送可能是模拟经向梯度的主要控制因素。模式模拟的sf6的垂直结构支持这一解释。有些模型在模拟偏远地区的季节周期方面表现得相当好，而另一些则不然。半球间交换时间以2倍的系数变化，当从地面的一维经向剖面估计时，已经对观测做了这样的计算。当使用全局表面平均摩尔分数时，模型之间的一致性更好，而当使用全三维平均混合比时，模型之间的一致性更好。各模式间半球交换时间的排序对台站值到地表均值的变化不敏感，但对地表均值到全三维示踪场的变化非常敏感。这加强了垂直再分布在确定地表经向梯度方面优于半球间运输的论点。模式中的垂直积分经向输送大致平均分为平均运动输送、静止涡流输送和瞬态涡流输送。垂直积分质量通量是一个很好的指标

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来源期刊

Tellus Series B-Chemical and Physical Meteorology 地学-气象与大气科学

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期刊介绍： Tellus B: Chemical and Physical Meteorology along with its sister journal Tellus A: Dynamic Meteorology and Oceanography, are the international, peer-reviewed journals of the International Meteorological Institute in Stockholm, an independent non-for-profit body integrated into the Department of Meteorology at the Faculty of Sciences of Stockholm University, Sweden. Aiming to promote the exchange of knowledge about meteorology from across a range of scientific sub-disciplines, the two journals serve an international community of researchers, policy makers, managers, media and the general public.