Growth rates of common urban trees in five cities in Great Britain: A dendrochronological evaluation with an emphasis on the impact of climate |
| |
| Institution: | 1. Urban Forest Research Group, Centre for Sustainable Forestry and Climate Change, Forest Research, Alice Holt Lodge, Farnham, GU10 4LH, UK;2. Department of Yield and Silviculture, Slovenian Forestry Institute, Ve?na pot 2, SI-1000, Ljubljana, Slovenia;1. Technische Universität Dresden, Faculty of Environmental Sciences, Institute of Forest Growth and Forest Computer Sciences, Pienner Straße 8, 01737 Tharandt, Germany;2. Technische Universität Dresden, Faculty of Environmental Sciences, Institute of Forest Botany and Forest Zoology, Pienner Straße 7, 01737 Tharandt, Germany;3. Eidgenössische Forschungsanstalt Wald Schnee und Landschaft, Zürcherstrasse 111, 8903 Birmensdorf, Switzerland;4. Technische Universität Dresden, Geodätisches Institut, Hülsse-Bau, Helmholtzstr. 10, 01069 Dresden, Germany;5. Technische Universität Dresden, Centre for Interdisciplinary Research in Technological Development, Helmholtzstraße 10, 01069 Dresden, Germany;6. Technische Universität Dresden, School of Civil and Environmental Engineering, Institute of Landscape Architecture, Helmholtzstraße 10, 01069 Dresden, Germany;7. The University of Kansas, School of Architecture, Design and Planning, 1465 Jayhawk Boulevard, Lawrence, KS 66045, United States;1. Chair for Forest Growth and Yield Science, Center of Life and Food Sciences Weihenstephan, Technische Universität München, Hans-Carl-von-Carlowitz-Platz 2, 85354 Freising, Germany;2. Departamento de Silvicultura y Conservación de la Naturaleza, Universidad de Chile, Santiago de Chile, Chile;3. Department of Forest Science, Hokkaido University, Sapporo 060-8589, Japan;4. Vietnamese Academy of Forest Sciences, Dong Ngac Commune, Tu Liem District, Hanoi, Viet Nam;5. DEVE – Mairie de Paris, Rond-Point de la Pyramide, 75012 Paris, France;6. Department of Forest and Wood Science, Faculty of AgriSciences, Stellenbosch University, Private Bag X1, 7602 Matieland, South Africa;7. Syncrude Canada Ltd, C877 9421 17 Ave, Edmonton, AB, Canada T6N 1H4;8. Chair for Strategic Landscape Planning and Management, Center of Life and Food Sciences Weihenstephan, Technische Universität München, Emil-Ramann-Str. 6, 85354 Freising, Germany;1. Arboricultural Services, Westminster City Council, London SW1E 6QP, UK;2. Greenspace Department, Myerscough College, Lancashire PR3 0RY, UK;1. Department of Ecology, Evolution and Natural Resources, Rutgers University, 14 College Farm Road, New Brunswick, NJ 08901, USA;2. Horticulture Section, School of Integrative Plant Science, Cornell University, Ithaca, NY 14853, USA |
| |
| Abstract: | The knowledge of the rate at which trees grow in urban areas is an important aspect to consider as it can influence our quantification and valuation of the ecosystem services provided by an urban forest. This study investigates growth variations in diameter and height for four common urban tree species (Acer pseudoplatanus, Betula pendula, Fraxinus excelsior and Quercus robur) across five cities in Great Britain (GB) and how the typical radial growth of two of those species (F. excelsior and Q. robur) changes with climate. Dendrochronology was used to identify tree age and changes in ring width and diameter at breast height (DBH) and tree height were measured in-situ at the time of coring. Results indicate a substantial variation in the mean annual growth rates and the relationships between DBH and age or height and age of each species across different cities. However, the multiple factors affecting tree growth seem to influence different species in different ways, with for example A. pseudoplatanus trees showing overall the fastest growth in Peterborough but B. pendula ones showing the slowest. Precipitation and temperature had an effect on radial growth of F. excelsior and Q. robur trees in GB, but the strength and direction of influence varied with time of year, species and city. In particular, low precipitation at the start or during the growing season was found to be a significant factor limiting radial growth. A trend towards a reduction in ring width increment was therefore identified in hot and dry years, primarily in south-eastern cities but in other cities too. This highlights the risk that a changing climate may have on the growth and, consequently, on the ecosystem service provision of healthy urban trees. |
| |
| Keywords: | Tree coring Ecosystem service provision Urban greenspace trees Tree growth models Growth-climate relationships |
| 本文献已被 ScienceDirect 等数据库收录! |
|
