Four major European climates affect Switzerland. From the west, influenced by the North Atlantic Drift, come mild and moist air masses; dry and cold air arrives from the North Arctic areas; continental air from the east brings dry colder air in winter and warmer air in summer; and relatively moist and warm air flows northward from the Mediterranean. The mixing of these air masses over Switzerland produces weather patterns that not only change according to which air masses are involved but also are characterized by great variation in temperature and precipitation because of local relief.

Wind systems

Prevailing winds are mainly from the west, but in valleys air currents are channeled into particularly frequent or violent local winds such as the Bise, a cold northeast wind that sweeps across the Mittelland and funnels down Lake Geneva to the city of Geneva. Foehn (German: Föhn) winds, which are associated with the leading edge of a low-pressure system moving across Europe north of Switzerland, often blow for one or two days; though they may occur anytime during the year, they are most frequent in spring. Sudden temperature increases occur because the foehn, which crosses the Alps from south to north (it can also blow from north to south, affecting Ticino), cools at a slower rate rising over the mountains because of precipitation; it is then heated and dried as it descends down the northern valleys, thereby moderating the climate on the northern slopes of the Alps.


Since rainfall tends to increase in direct proportion to altitude, precipitation varies according to relief. Thus, because of the marked variation in relief that characterizes Switzerland, differences in precipitation within short linear distances are often very great. For example, Sankt Gallen (St. Gall), at 2,556 feet (779 metres), has an average annual precipitation of about 50 inches (1,300 mm), while precipitation at Säntis, at an elevation of 8,202 feet (2,500 metres) but only some 12 miles (20 km) away, is more than 110 inches (2,800 mm). The average annual precipitation of three-fourths of the country exceeds 40 inches (1,000 mm), varying amounts of which fall as snow. In Lugano (at 896 feet [273 metres]), which is located in the canton of Ticino in the southeast and has a modified Mediterranean climate, little precipitation is in the form of snow; in Zürich (at 1,824 feet [556 metres]) about one-tenth is snow; and on the Säntis nearly three-fourths is snow. At elevations above 11,500 feet (3,500 metres), all precipitation is in the form of snow, which compacts into perpetual snowfields and glaciers; the snow line is at about 9,200 feet (2,800 metres) in the northern Alps and about 10,800 feet (3,300 metres) in the southern Alps of the Valais.

Dry areas

There are distinct dry pockets in the mountains of Switzerland’s interior. The best-known dry area is the Rhône valley in the Valais, which is closely encircled by the highest (13,000 feet [4,000 metres]) mountain groups. Although precipitation is slight on the slopes near the cantonal capital of Sion (at 1,581 feet [482 metres]), extensive irrigation is possible, since the valley is surrounded by large snowfields and by glaciers that extend down the upper valleys. The rarefied and dry though somewhat polluted air of such high-altitude towns as Davos (5,216 feet [1,590 metres]) and Arosa (5,987 feet [1,825 metres]) permits a more intense, broader-spectrum solar irradiation and thus produces a climate famous in the past for tuberculosis cures. Today the climate attracts skiers as well as tourists seeking an escape from the polluted air of lowland Europe. At elevations of 13,000 feet (4,000 metres), precipitation levels rise to some 160 inches (4,000 mm), and the Mönch (13,448 feet [4,099 metres]) in the Jungfrau group of mountains has the highest average annual precipitation in Switzerland, 163 inches (4,140 mm), while Stalden in the entrenched Vispa valley, 4 miles (6 km) south of the main Rhône valley, has the lowest, 21 inches (533 mm).

Skies and temperatures

The stable high-pressure weather conditions prevailing over central Europe and the Alps during autumn and winter create cold air masses that result in lowland fog, a climatic phenomenon with widely varying consequences. The mouths of the northern Alpine valleys, the basins of the Jura Mountains, and the villages and cities of the low areas of the Mittelland are blanketed for days and often for weeks on end, while towns located at higher altitudes enjoy warm, brilliant, high-pressure conditions and the view of the glistening sea of fog below them. Temperature inversions between mountain and valley locations in close proximity can be quite pronounced, with higher elevations having higher temperature readings. Frequent temperature inversion has made Switzerland’s high-altitude resorts healthful places even during winter and has helped the Alpine winter season gain popularity in Europe for sports; in addition, because of these inversions polluted air is much less common in areas of high elevation than in the lowlands. In fact, the temperature inversions that affect the Mittelland tend to trap polluted air for weeks when cyclonic activity stagnates.


With the increase in winter tourism, the study of avalanches has developed as a branch of Alpine climatology, and in wintertime the research station near Davos releases daily avalanche bulletins as a warning for villagers and tourists. The Alpine cantons have about 10,000 avalanches annually, with about four-fifths of them occurring in February, March, and April. For centuries, village communes have relied on forests on the mountain slopes for protection from these slides, because a 20- to 30-year-old forest can inhibit or stop small avalanches. Villages, highways, and Alpine paths are also protected by costly artificial structures such as metal barriers, earthen walls, and concrete wedges and enclosures. Acid rain, however, has caused the illness and death of many trees in the mountain areas of Switzerland and poses a serious threat to their ability to act as barriers to avalanches. In the mountain forests, some two-fifths of the trees have been classified as damaged, sick, or dying.