Trajectory analysis has been used to identify possible sources in both short-and long-range atmospheric transport. Here the focus is on the climatological pathway of airflow to the Atmosphere/Ocean Chemistry Experiment sites, determined by superposition of ensembles of isentropic trajectories. The trajectories are prepared from wind fields on surfaces of constant potential temperature interpolated from the National Meteorological Center global analysis, calculated twice daily for each site for the period from 1986 to 1993. At Bermuda there is a notable seasonal variation, with the months of May--November dominated by flow around the subtropical anticyclone, while flow from the northwest and west is more common in the cooler months of December--April. Flow from the west predominates at Mace Head, Ireland, in the months from the west; flow from the east (over Great Britain and western Europe) is of increased importance during October--March. At Iza¿a the flow is most commonly from the west; flow from the east, over Africa and southern Europe, is most common during the months of July--September. The winds at Barbados, West Indies, are much steadier than at the other sites, and there is little seasonal variation in the general pattern of flow. The circulation during precipitation events, evaluated as the airflow weighted by rainfall amounts showed a striking difference from the general pattern of airflow at Mace Head, especially during October--March: in the absence of rain the winds are much more common from the east, over polluted continental areas, than during rain events, when the domianance of flow from the west is greater. ¿American Geophysical Union 1994 |