Abstract
BackgroundClimate change triggered many studies showing that trends and events of environmental conditions can reduce but also accelerate growth at the stand and individual tree level. However, it is still rather unknown how climate change modifies the growth partitioning between the trees in forest stands.MethodsBased on long-term girth-tape measurements in mature monospecific and mixed-species stands of Norway spruce (Picea abies (L.) Karst.) and European beech (Fagus sylvatica L.) we traced the effect of the severe droughts in 2003 and 2015 from the stand down to the tree level.ResultsStand growth of Norway spruce decreased by about 30% in the once-in-a-century drought 2015, while European beech was much more drought resistant. Water availability generally amplified size-asymmetric growth partitioning. Especially in case of Norway spruce water availability primarily fostered the growth of predominant trees, whereas drought favoured the growth of small trees at the expense of the predominant ones. We could not detect significant differences between mixed and monospecific stands in this regard.ConclusionsThe drought-induced reallocation of growth in favour of small trees in case of spruce may result from its isohydric character. We hypothesize that as small trees are shaded, they can benefit from the reduced water consumption of their sun-exposed taller neighbours. In case of beech, as an anisohydric species, tall trees suffer less and smaller trees benefit less under drought. The discussion elaborates the consequences of the water dependent growth allocation for forest monitoring, growth modelling, and silviculture.
Highlights
Climate change triggered many studies showing that trends and events of environmental conditions can reduce and accelerate growth at the stand and individual tree level
Q1: Stand volume growth depending on water availability Figure 3a and b show the course of stand volume growth in the period 1998–2016 for (a) the monospecific stands of Norway spruce and European beech and (b) for the mixed stand in total and for both species’ contributions to the mixed stand’s growth
Evidence and explanation of modified growth partitioning under drought stress Climate change and especially recent drought events triggered many studies showing that trends and events of environmental conditions can reduce (Dobbertin 2005; Zang et al 2012) and accelerate tree growth (Kauppi et al 2014; Pretzsch et al 2014)
Summary
Climate change triggered many studies showing that trends and events of environmental conditions can reduce and accelerate growth at the stand and individual tree level. The social position of trees in even-aged stands results mainly from the share of contested resources they manage to acquire. It may depend on the availability of the various resources, to what extent predominant trees can benefit from their size and Pretzsch et al Forest Ecosystems (2018) 5:20 size-asymmetric competition and over-proportional growth of tall trees compared with small trees (Schwinning and Weiner 1998). There are many scientific and practical reasons for deeper exploring it in this study
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