TY - JOUR
AU1 - Rahman, Mohammad
AU2 - Moser, Astrid
AU3 - Rötzer, Thomas
AU4 - Pauleit, Stephan
AB - Urban trees are getting increasing attention as a tool to mitigate urban heat island effects. A more functional and quantitative view of transpirational and shading effect, particularly the magnitude of both surface and air cooling potential can further strengthen motivations for urban tree planting. We investigated the transpirational and the surface cooling potential of two contrasting tree species in Munich, Germany: ring porous Robinia pseudoacacia L. and diffuse porous Tilia cordata Mill. Throughout the summer 2016 we monitored meteorological and edaphic variables and tree sap-flow along with the air temperature within and outside tree shade at different heights. With 30% higher leaf area index (LAI), double sap-flux density and sapwood area, T. cordata trees showed three times higher transpiration compared to the R. pseudoacacia. Consequently, T. cordata trees showed higher within canopy air cooling effect. Surface cooling (ΔT ) werehigherunder the denser canopiesof T. cordata compared shade to R. pseudoacacia for asphalt surfaces but ΔT for grass surfaces were not significantly different under the canopies of two shade species. Linear regression indicated a decrease in grass surface temperature of 3 °C with every unit of LAI but for asphalt, the reduction in surface temperature was about 6 °C. Additionally, 
TI - Comparing the transpirational and shading effects of two contrasting urban tree species
JF - Urban Ecosystems
DO - 10.1007/s11252-019-00853-x
DA - 2019-04-16
UR - https://www.deepdyve.com/lp/springer-journals/comparing-the-transpirational-and-shading-effects-of-two-contrasting-bTt0Q0hdgI
SP - 1
EP - 15
VL - OnlineFirst
IS - 
DP - DeepDyve
ER -