Plant Moisture Stress of Green Ash Trees in Contrasting Urban Sites

Abstract: On three dates in the late summer and early fall of 1994 we measured leaf water potential and gas exchange on green ash trees in 1) a park-like stand on the University of Nebraska-Lincoln campus, 2) in large planters (5.1 m2) in an asphalt parking lot and 3) in small planters (1.8 m2) in the same parking lot. The trees on the campus had consistently higher pre-dawn leaf water potential (\|/) and photosynthetic rates (Ps) than trees growing in the nearby parking lot. Within the parking lot, trees grown in the s… Show more

“…Trees planted in urban landscapes are often exposed to high atmospheric evaporative demand because of the UHI, which results in increased temperatures and lower air humidity; this can raise tree transpiration rates, where sufficient soil moisture can sustain higher transpiration levels (Zipper et al, 2017). At the same time, limited rooting space, soil compaction, and water stress strongly affect stomatal regulation, and thus transpiration rates (Asawa et al, 2017;Chen et al, 2011;Cregg, 1995;Cregg and Dix, 2001;Litvak et al, 2011).…”

Ecohydrology of Urban Ecosystems

“…Trees planted in urban landscapes are often exposed to high atmospheric evaporative demand because of the UHI, which results in increased temperatures and lower air humidity; this can raise tree transpiration rates, where sufficient soil moisture can sustain higher transpiration levels (Zipper et al, 2017). At the same time, limited rooting space, soil compaction, and water stress strongly affect stomatal regulation, and thus transpiration rates (Asawa et al, 2017;Chen et al, 2011;Cregg, 1995;Cregg and Dix, 2001;Litvak et al, 2011).…”

Ecohydrology of Urban Ecosystems

Influence of Plant Community Structure on Natural Enemies of Pine Needle Scale (Homoptera: Diaspididae) in Urban Landscapes

Effect of Basement Sump Pump Effluent on the Growth and Physiology of Urban Black Ash and Green Ash Ornamental Trees