Scale-dependent interactions between tree canopy cover and impervious surfaces reduce daytime urban heat during summer
University of Wisconsin–Madison · Memorial University of Newfoundland
Abstract
As cities warm and the need for climate adaptation strategies increases, a more detailed understanding of the cooling effects of land cover across a continuum of spatial scales will be necessary to guide management decisions. We asked how tree canopy cover and impervious surface cover interact to influence daytime and nighttime summer air temperature, and how effects vary with the spatial scale at which land-cover data are analyzed (10-, 30-, 60-, and 90-m radii). A bicycle-mounted measurement system was used to sample air temperature every 5 m along 10 transects (∼7 km length, sampled 3-12 times each) spanning a range of impervious and tree canopy cover (0-100%, each) in a midsized city in the Upper Midwest…
Citation impact
- FWCI
- 27.82
- Percentile
- 100%
- References
- 59
Authors
4Topics & keywords
- Impervious surface
- Daytime
- Environmental science
- Canopy
- Urban heat island
- Tree canopy
- Scale (ratio)
- Atmospheric sciences
- Climate action