Estimation of transpiration by single trees: comparison of sap flow measurements with a combination equation
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Date
1998-06-14
Date Issued
1997-11-15
ISI Journal
Impact factor: 4.651 (Year: 1998)
Citation
Heping Zhang, Lester P. Simmonds, James Morison, Donald Payne. (14/6/1998). Estimation of transpiration by single trees: comparison of sap flow measurements with a combination equation. Agricultural and Forest Meteorology, 87 (2-3), pp. 155-169.
Abstract
Sap flow estimates for whole trees (scaled from measurements on selected branches using the heat balance method) were compared with estimates of transpiration based on porometry in a study of poplar trees in an agroforestry system in the south of the UK. Sap flow showed good agreement with the transpiration rate estimated using the Penman-Monteith equation with measured stomatal conductance (R-2 = 0.886) on six selected days during the season. The dominant environmental variable influencing transpiration was the vapour pressure deficit, as the aerodynamic term in the Penman-Monteith equation accounted for more than 70% of daily total transpiration, with the rest due to the radiation component. Stomatal conductance, estimated by inverting the Penman-Monteith equation from continuous measurements of sap flow over 55 days, was used to determine the parameters for a multiplicative stomatal conductance model. For an independent data set there was better agreement between measured sap flow and transpiration predicted from the stomatal conductance (R-2 = 0.90) than for calculated and predicted stomatal conductance (R-2 = 0.51). (C) 1997 Elsevier Science B.V.