Abstract
Scree forests with large numbers of protected plants and wildlife are seriously threatened by climate change due to more frequent drought episodes, which cause challenges for very stony, shallow soils. The effect of environmental factors on the radial growth of five tree species—European beech (Fagus sylvatica L.), Norway spruce (Picea abies (L.) Karst.), sycamore maple (Acer pseudoplatanus L.), European ash (Fraxinus excelsior L.), and mountain elm (Ulmus glabra Huds.)—was studied in the mixed stands (105–157 years) in the western Krkonoše Mountains (Czech Republic) concerning climate change. These are communities of maple to fir beechwoods (association Aceri-Fagetum sylvaticae and Luzulo-Abietetum albae) on ranker soils at the altitude 590–700 m a.s.l. Production, structure, and biodiversity were evaluated in seven permanent research plots and the relationships of the radial growth (150 cores) to climatic parameters (precipitation, temperature, and extreme conditions) and air pollution (SO2, NOX, ozone exposure). The stand volume reached 557–814 m3 ha−1 with high production potential of spruce and ash. The radial growth of beech and spruce growing in relatively favorable habitat conditions (deeper soil profile and less skeletal soils) has increased by 16.6%–46.1% in the last 20 years. By contrast, for sycamore and ash growing in more extreme soil conditions, the radial growth decreased by 12.5%–14.6%. However, growth variability increased (12.7%–29.5%) for all tree species, as did the occurrence of negative pointer years (extremely low radial growth) in the last two decades. The most sensitive tree species to climate and air pollution were spruce and beech compared to the resilience of sycamore and ash. Spectral analysis recorded the largest cyclical fluctuations (especially the 12-year solar cycle) in spruce, while ash did not show any significant cycle processes. The limiting factors of growth were droughts with high temperatures in the vegetation period for spruce and late frosts for beech. According to the degree of extreme habitat conditions, individual tree species thus respond appropriately to advancing climate change, especially to an increase in the mean temperature (by 2.1 °C), unevenness in precipitation, and occurrence of extreme climate events in the last 60 years.
Highlights
Forest management practices have a considerable impact on forest ecosystems, especially in the context of global climate change for adaptive and mitigation measures for increasing stability of forests [1,2]
The objective of this paper is to evaluate the effect of climate, air pollution, and other environmental factors on the growth of mixed scree forests dominated by European beech and Norway spruce with admixed sycamore maple (Acer pseudoplatanus L.), European ash (Fraxinus excelsior L.), and mountain elm (Ulmus glabra Huds.)
In stands left to spontaneous development, the average stand volume was 730 m3 ha−1, and in managed stands, it was lower by 17.9% (599 m3 ha−1)
Summary
Forest management practices have a considerable impact on forest ecosystems, especially in the context of global climate change for adaptive and mitigation measures for increasing stability of forests [1,2]. As a result, more frequent and severe droughts will increasingly be a major risk to the growth, ecological stability, and vitality of forest ecosystems during global climate change [3,4]. The Member States of the European Union are committed to maintain and protect their forests with a view to their sustainable development and the sustainable fulfillment of ecological (soil protection, protection of water resources, protection of landscape and nature), social and cultural (preservation of landscape and cultural heritage, recreational functions), and economic (renewable natural resource, source of employment and income) functions [10,11]
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