Effects of Climate and Drought on Stem Diameter Growth of Urban Tree Species

Urbanization and climate change are two inevitable megatrends of this century. Knowledge about the growth responses of urban trees to climate is of utmost importance towards future management of green infrastructure with the aim of a sustainable provision of the environmental ecosystem services. Usi...

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Bibliographic Details
Published in:Forests 2022-05, Vol.13 (5), p.641
Main Authors: Dervishi, Vjosa, Poschenrieder, Werner, Rötzer, Thomas, Moser-Reischl, Astrid, Pretzsch, Hans
Format: Article
Language:English
Subjects:
Aesculus hippocastanum
Arid climates
Aridity
Cities
Climate change
Climate effects
diameter growth
Drought
Drought resistance
Ecosystem services
Ecosystems
Green infrastructure
Growth models
Humid climates
Plant species
Platanus × hispanica
Precipitation
Quercus nigra
Quercus robur
Rain
Species
Strategic management
Tree rings
Trees
Urban areas
Urbanization
Water shortages
Water supply
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Summary:Urbanization and climate change are two inevitable megatrends of this century. Knowledge about the growth responses of urban trees to climate is of utmost importance towards future management of green infrastructure with the aim of a sustainable provision of the environmental ecosystem services. Using tree-ring records, this study analyzed growth response to climate by stem diameter at breast height (DBH) of 1178 trees in seven large cities worldwide, including Aesculus hippocastanum L. in Munich; Platanus × hispanica Münchh. in Paris; Quercus nigra L. in Houston; Quercus robur L. in Cape Town; Robinia pseudoacacia L. in Santiago de Chile, Munich, and Würzburg; and Tilia cordata Mill. in Berlin, Munich, and Würzburg. Climate was characterized following the de Martonne aridity index (DMI). Overall, trees showed an 8.3% lower DBH under arid than humid climate at the age of 100. Drought-tolerant tree species were overall not affected by climate. However, R. pseudoacacia showed a lower diameter when growing in semi-dry than humid climate. In contrast, drought-sensitive tree species were negatively affected by arid climate. Moreover, the effect of drought years on annual diameter increment was assessed. P. × hispanica and R. pseudoacacia appeared as the most drought-resistant species. The highest sensitivity to drought was detected in T. cordata and Q. robur. A. hippocastanum and Q. nigra showed a lower diameter growth during drought events, followed by a fast recovery. This study’s findings may contribute to a better understanding of urban tree growth reactions to climate, aiming for sustainable planning and management of urban trees.
ISSN:1999-4907
1999-4907
DOI:10.3390/f13050641