PT - JOURNAL ARTICLE AU - Won Hoi Hwang AU - P. Eric Wiseman AU - Valerie A. Thomas TI - Tree Planting Configuration Influences Shade on Residential Structures in Four U.S. Cities AID - 10.48044/jauf.2015.020 DP - 2015 Jul 01 TA - Arboriculture & Urban Forestry (AUF) PG - 208--222 VI - 41 IP - 4 4099 - http://auf.isa-arbor.com/content/41/4/208.short 4100 - http://auf.isa-arbor.com/content/41/4/208.full AB - Expanding urbanization, characterized by increased impervious surfaces and decreased tree canopy, is contributing to rising urban temperatures. This trend has implications for energy consumption and human health, which urban trees may help mitigate by casting shade upon building surfaces. This study looks at how tree form and placement can improve on current shade tree planting guidelines to more effectively use shade trees to offset this trend. Shade provision is not only a function of tree characteristics but also daily, seasonal, and latitudinal variability in sunlight exposure. In order to understand how these variables influence shade provision and to evaluate existing tree planting guidelines, a computer program called Shadow Pattern Simulator was employed to quantify shade cast by a single tree upon a prototypical residential structure in four U.S. cities. A total of 576 shade simulations showed large trees situated within five meters on the east or west aspect of the structure provided the greatest amount of shade during the cooling season. The simulation results affirm existing tree planting guidelines in the northern latitude that recommend planting shade trees on the east or west aspect while avoiding tree plantings on the south to minimize the heating penalty of unwanted shade in northern latitudes. However, planting trees on southerly aspect should not be discounted in southern latitudes because the shorter heating season lessens the detrimental heating penalty of unwanted shade while providing much-needed cooling season shade.