Mountain forests in the European Alps and in the Rocky Mountains share many
similarities but they are subject to strongly different climates and distu
rbance regimes, In this study, the factors that bring about the similar app
earance of these systems are investigated based on a quantitative, dynamic
model of the structure and composition of mountain forests with a specific
focus on patterns of tree recruitment and growth.
In a first step, the forest model FORCLIM which had been used previously in
different mountain ranges of the temperate zone but not in the Rocky Mount
ains, was evaluated and adapted with respect to its capability of portrayin
g forest dynamics in the Rocky Mountains. This yielded several insights tha
t point at necessary model improvements as well as the need for an increase
d understanding of the ecophysiological mechanisms controlling the biogeogr
aphy of western tree species and better data on ecotypes of these species.
A model version that is based on the tree species of the central Rocky Moun
tains proved capable of portraying the key features of Front Range forests
along a climate gradient that extended from the lower to the upper treeline
near Boulder, Colorado.
In the second step, the model was used to quantitatively evaluate the Limit
ing factors for tree establishment and tree growth at pairs of sites in the
Swiss Alps and the Front Range. The results suggest that: (1) drought is i
mportant for shaping forest structure and composition at all elevations in
the Front Range whereas it is generally of subordinate importance at high e
levations in the European Alps; (2) large-scale disturbances such as fire a
re essential for predicting forest features in the Front Range but they are
less important in the European Alps and (3) competition for light is lower
in the Front Range than in the Alps.
Intervals between successful establishment events in near-natural mountain
forests of the two areas were found to be as large as 50-100 years. This ve
ry slow and highly stochastic nature of forest dynamics should be kept in m
ind when drawing conclusions on the future state and protective function of
mountain forests. (C) 2001 Elsevier Science B.V. All rights reserved.