Valley winds and slope winds ? Observations and elementary thoughts

Abstract

This paper presents a state-of-the-art account of valley wind research, with a bias towards a typical large Alpine valley and towards weak-gradient synoptic conditions. At the center of our attention is the quasiperiodic thermal forcing mechanism which drives the local wind system, in particular the role of slope winds and of topographic relief. Slope winds are at the small-scale end of a whole spectrum of thermally direct circulations which act to transmit the sensible heat input along the slopes to the valley atmosphere via compensating vertical motions. We surmise that the dynamics of slope winds, which react instantly to changes of the insolation or radiation balance, is characterized by local, instantaneous equilibria, rather than by conventional entrainment and boundary layer concepts. As described by Steinacker, the area-height distribution of a valley segment is a fundamental geometric factor which affords a quantitative measure of the slope area available for heat exchange, and of the air volume which must be heated or cooled. Using this concept, one can easily explain why the daily range of the valley mean temperature is, on average, more than twice as large as that of the atmosphere over the adjacent plain. This horizontal temperature contrast between plain and valley, reversing sign twice daily, builds up a corresponding pressure contrast hydrostatically, thereby causing up- and downvalley winds.