The effect of street trees and amenity grass on urban surface water runoff in Manchester, UK

Abstract It is well known that the process of urbanization alters the hydrological performance of an area, reducing the ability of urban areas to cope with heavy rainfall events. Previous investigations into the role that trees can play in reducing surface runoff have suggested they have low impact at a city wide scale, though these studies have often only considered the interception value of trees. This study assessed the impact of trees upon urban surface water runoff by measuring the runoff from 9 m2 plots covered by grass, asphalt, and asphalt with a tree planted in the centre. It was found that, while grass almost totally eliminated surface runoff, trees and their associated tree pits, reduced runoff from asphalt by as much as 62%. The reduction was more than interception alone could have produced, and relative to the canopy area was much more than estimated by many previous studies. This was probably because of infiltration into the tree pit, which would considerably increase the value of urban trees in reducing surface water runoff.

[1]  K. Richards,et al.  Simulator Experiments Of the Varied Consequences Of Rain Forest Logging For Runoff And Erosion , 1994 .

[2]  Julia Bartens,et al.  Can urban tree roots improve infiltration through compacted subsoils for stormwater management? , 2008, Journal of environmental quality.

[3]  J. Gash,et al.  The evaporation from Thetford Forest during 1975 , 1977 .

[4]  J. Pereira,et al.  Rainfall interception by an isolated evergreen oak tree in a Mediterranean savannah , 2006 .

[5]  A. R. Aston,et al.  Rainfall interception by eight small trees , 1979 .

[7]  Susan L. Ustin,et al.  Winter rainfall interception by two mature open‐grown trees in Davis, California , 2000 .

[8]  A. R. Ennos,et al.  Adapting cities for climate change: the role of the green infrastructure. , 2007 .

[9]  C. L. Abbott,et al.  IN‐SITU HYDRAULIC PERFORMANCE OF A PERMEABLE PAVEMENT SUSTAINABLE URBAN DRAINAGE SYSTEM , 2003 .

[10]  John Handley,et al.  "City form and natural process" - Indicators for the ecological performance of urban areas and their application to Merseyside, UK , 2001 .

[11]  Luna B. Leopold,et al.  Hydrology for urban land plan-ning-a guidebook on the hydrologic effects of urban land use , 1968 .

[12]  S. Ustin,et al.  Rainfall Interception by Sacramento's Urban Forest , 1998, Arboriculture & Urban Forestry.

[13]  E. Ventura-Ramos,et al.  Rainfall interception and distribution patterns of gross precipitation around an isolated Ficus benjamina tree in an urban area , 2007 .

[14]  Jeffery Robert Lormand The effects of urban vegetation on stormwater runoff in an arid environment , 1988 .

[15]  J. B. Ellis,et al.  Sustainable Urban‐Drainage Systems and Catchment Planning , 2002 .

[16]  M. Weiler,et al.  A New Approach in Measuring Rainfall Interception by Urban Trees in Coastal British Columbia , 2009 .

[17]  S. Rambal,et al.  How Tree Cover Influences the Water Balance of Mediterranean Rangelands , 1993 .

[18]  A. R. Ennos,et al.  Effect of rooting conditions on the growth and cooling ability of Pyrus calleryana. , 2011 .

[19]  W. J. Shuttleworth,et al.  Evaporation from Amazonian rainforest , 1988, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[20]  S. Pauleit,et al.  Assessing the environmental performance of land cover types for urban planning , 2000 .

[21]  Ralph A. Sanders,et al.  URBAN VEGETATION IMPACTS ON THE HYDROLOGY OF DAYTON, OHIO , 1986 .

[22]  D. Tongway,et al.  Capture of overland flow by a tree belt on a pastured hillslope in south-eastern Australia , 2006 .

[23]  I. Douglas,et al.  The urban environment , 1983 .