Abstract
Frequency of drought years is expected to increase through climate warming. Mixed stands have often shown to be more productive than monospecific stands in terms of yield and of resistance against windthrows and bark beetle attacks. Mixture of beech and spruce is of particular interest. However, little is known about its growth reaction to drought. Therefore, we investigated the drought reaction of beech and spruce in mixed vs. monospecific stands along an ecological gradient. In particular, we sought evidence for mixture-related resilience on the individual tree level. Therefore, we quantified the response of tree ring width to drought. Moreover, we attempted to explain the relevance of individual tree response on the stand level by quantifying the stand level loss of volume growth after drought. At the individual tree level, beech was found to be more resilient and resistant in pure vs. mixed stands. Spruce, in contrast, was favored by mixture, and this was especially evident on drier sites. Along the gradient, growth losses at stand level increased in both mixed and pure stands in 2015, with growth gains on the drier sites observed in the same drought year, in accordance with the Stress Gradient Hypothesis. However, the stand level difference of growth loss between mixed and pure stands was not statistically significant. Mitigating mixture effects on the level of the individual tree thus did not become evident on the level of the whole stand.
Highlights
The long term functionality of forest stands is determined by their capacity to resist and recover after disturbance [1]
We found no significant differences between the growth losses of the mixed and monospecific stands, as the better drought response at the tree level in the mixture has not shown to be evident at the whole mixed stand level
On one hand, gave us a hint of how the specific individuals within a forest ecosystem could respond to the future changing climatic conditions
Summary
The long term functionality of forest stands is determined by their capacity to resist and recover after disturbance [1]. Forest ecosystems might be prone to more frequent and severe biotic and abiotic disturbances [2], leading to increased mortality in the future [3,4]. Drier climatic conditions could strongly impact the terrestrial ecosystems by altering their water and carbon cycles [5]. These novel conditions could affect forest growth and stability [6]. The survivability of forests under more frequent disturbances through future drought events will have both economic and social impacts [8]. Within that scope, mixed stands may provide better ecosystem services [10] such as more soil carbon storage [11] and overyielding at stand level [12,13]
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