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Sonderdruck aus
CENTRALBLATT FÜR DAS GESAMTE FORSTWESEN
Organ der forstlichen Abteilung der Hochschule für Bodenkultur
und der forstlichen Bundesversuchsanstalt Mariabrunn in Wien
Geleitet von H. Egger und R. Frauendorf er
Österreichischer Agrarverlag, Druck- und Verlags-Ges. m. b. H., Wien
I,
Bankgasse 3
87. JAHRGANG / HEFT 2
1970
SEITE 65-74
(Außenstelle für subalpine Waldforschung, Forstliche Bundesversuchsanstalt, Innsbruck,
Austria)
The Wind Regime at the Surface of the Vegetation Layer
Above Timberline in the Central Alps
By MARTYN M. CALDWELL
Above timberline, patterns of wind movement are abruptly changed and wind
becomes a particularly influential factor of the environment
(Wardle,
1968;
Klikoff,
1965).
Aulitzky
(1961) has described the prevailing wind patterns and
influence of Vegetation and microrelief on the average wind velocities for the upper
Gurgl Valley in Tirol, Austria. He depicted a very substantial increase in wind
speed immediately above timberline.
Above timberline in this area the plant communities appear to segregate rather
distinctly according to the microrelief. Although many factors influence this segre-
gation, apparently wind and wind-influenced phenomena such as snow accumulation,
evaporation and soil moisture are best correlated with the distribution of these
communities
(Friedel,
1961). Characteristically
Rhododendron ferrugineum
occurs
in small wind-protected ravines and depressions. With increasing exposure to wind,
occur Stands dominated by
Calluna vulgaris, Vaccinium myrtillus,
V.
uliginosum,
and
V.
vitis-idea
followed by
Loiseleuria procumbens
and
Alectoria ochroleuca
on
the crests of wind-swept ridges.
Pinus cembra
becomes established only on the more
wind-exposed sites. This distribution of species is certainly partly due to the
closely corresponding winter snow distribution patterns
(Kronfuss,
1967;
Tran¬
quillini,
1969). However, the wind velocities during the growing season may also
play an influential role. Wind speed does have an effect on plant gas exchange and
other physiological processes that occur during the warmer months
(Warren-
Wilson,
1959;
Whitehead,
1963;
Tranquillini,
1969).
The influence of microrelief and Vegetation on average wind velocities has
been well portrayed for this area in Austria
(Aulitzky,
1961), and to a limited
extent for other alpine regions
(Stocker,
1923;
Whitehead,
1951;
Warren-Wilson,
1959). Yet, little is known about the duration of winds at various speeds parti¬
cularly at the surface of the Vegetation layer where the influence of air movement
on plants is iriost pronounced.
This research in the Gurgl Valley was designed to measure these ecologically
meaningful-,parameters for Stands dominated by
Rhododendron ferrugineum
and
for an exposed site where
Pinus cembra
seedlings are becoming established.
Study Area
This study took place at the micrometeorological Station of the Außenstelle
für subalpine Waldforschung, Forstliche Bundesversuchsanstalt, on a west-facing
slope of the upper Gurgl Valley in Tirol, Austria. Three principle sites for wind
Cbl. ges. Forstwesen
87
(1970), 2
5*
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