Ewers, B.E., D.S. Mackay, S.T. Gower, D.E. Ahl, S.N. Burrows, and S.S. Samanta, 2002. Tree species effects on stand transpiration in northern Wisconsin, Water Resources Research, 38 (7), 81-811.

[1] We quantified canopy transpiration (E-C) using sap flux measurements representing the four major forest types (northern hardwoods, conifer, aspen/fir, and forested wetland) around the WLEF-TV tall tower in northern Wisconsin. In order to scale individual sap flux measurements to E-C, we quantified the amount of sapwood area per unit ground area and the spatial distribution of sap flux within trees. Contrary to our hypothesis that all tree species would have the same positive relationship between tree diameter and sapwood depth, white cedar and speckled alder, both wetland species, showed no relationship. We also hypothesized that the conifer trees would have a lower whole tree hydraulic conductance than deciduous trees. We actually discovered that white cedar had the highest hydraulic conductance. Our third hypothesis, that sapwood area per unit ground area would determine stand E-C, was not rejected. The resulting average daily E-C values over 53 days (23 June to 16 August 2000) from combining sap flux and sapwood area per unit ground area were 1.4, 0.8, 2.1, and 1.4 mm d(-1) for conifer, northern hardwoods, aspen/fir, and forested wetland cover types, respectively. Average daily E-C was only explained by an exponential saturation with daily average vapor pressure deficit.