A Lagrangian Climatology of Tropical Moisture Exports to the Northern Hemispheric Extratropics

Case studies have shown that heavy precipitation events and rapid cyclogenesis in the extratropics can be fueled by moist and warm tropical air masses. Often the tropical moisture export (TME) occurs through a longitudinally confined region in the subtropics. Here a comprehensive climatological analysis of TME is constructed on the basis of seven-day forward trajectories started daily from the tropical lower troposphere using 6-hourly40-yr ECMWF Re-Analysis (ERA-40) data from the 23-year period 1979-2001. The objective TME identification procedure retains only those trajectories that reach a water vapor flux of at least 100 g kg(-1) m s(-1) somewhere north of 35 degrees N. The results show four distinct activity maxima with different seasonal behavior: (i) The "pineapple express," which connects tropical moisture sources near Hawaii with precipitation near the North American west coast, has a marked activity maximum in boreal winter. (ii) TME over the west Pacific is largest in summer, partly related to the East Asian monsoon and the mei-yu-baiu front. This region alone is responsible for a large portion of TME across 35 degrees N. (iii) The narrow activity maximum over the Great Plains of North America is rooted over the Gulf of Mexico and the Caribbean Sea and has a clear maximum in summer and spring. (iv) TME over the western North Atlantic shows the smallest annual cycle with a maximum in winter and autumn. The interannual variability of (i) and (iv) is significantly modulated by El Nino. Over the African-European-Asian region, high orographic barriers impede TME. A typical TME trajectory evolution is poleward and quasi-horizontal in the subtropics and then more eastward and upward in the southern midlatitudes, where TME contributes up to 60% to climatological precipitation. The TME dataset presented here can serve as a basis for future studies on extreme events.