The Influence of Tilia tomentosa Moench on Plant Species Diversity and Composition in Mesophilic Forests of Western Romania–A Potential Tree Species for Warming Forests in Central Europe?

Christoph Leuschner,Veronika Öder,Steffi Heinrichs,Adrian Indreica,Erwin Bergmeier,Helge Walentowski

doi:10.3390/su13147996

Christoph Leuschner, Veronika Öder + Show 4 more

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https://doi.org/10.3390/su13147996

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Abstract

Climate change challenges important native timber species in Central Europe. The introduction of non-native tree species originating from warmer climates is one option to make Central European forests compatible to global warming. This, however, requires an assessment of the species’ growth requirements, and of its impact on biodiversity in its native ranges. Silver lime (Tilia tomentosa), a moderately drought-tolerant, thermophilous tree species of South-eastern Europe is considered suitable for the future. Along three elevational transects in western Romania, we assessed the impact of changing climate and local site conditions on the abundance of this tree species and contrasted plant species diversity and composition of lime-dominated forests with mesophytic oak and beech forests. Local site conditions and disturbance histories shaped the distribution pattern of silver lime. When dominant, it reduced plant species diversity within stands due to its dense canopy. For shade-tolerant, mesophytic species, though, lime forests provided an additional habitat and extended their range into warmer environments. Thus, silver lime may have the potential as an admixed tree species forming a transitory meso-thermophilous habitat in the future. At the same time, silver lime may be limited under increasing drought frequency.

Highlights

Tilia tomentosa was the dominant tree species in plots where T. tomentosa occurred in the tree layer in Milova (Table 1)
Our study shows the potential for an ecological integration of Tilia tomentosa into forest landscapes of Central Europe currently dominated by European beech
Silver lime forests may function in two different ways dependent on the establishment site: (i) they can link beech- and oak-dominated forests and provide habitat for species of both forest types under moderate to high climatic humidity. (ii) With decreasing humidity, lime-dominated forests may form a link to thermophilous oak forest communities and can by this expand the range of mesothermic and mesophilous species

Summary

Introduction

Climate change with increasing temperatures and seasonal changes in the precipitation regime will affect the characteristic tree species composition of Central Europe by inducing range shifts of tree species and by increasing tree mortality [1,2,3]. May contribute to diversifying the tree species portfolio [7,8] with positive effects for forest stability and multifunctionality [9,10]. In this respect, the introduction of non-native tree species originating from warmer climates and measures such as assisted migration have been discussed to maintain forest functionality [11,12].

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