Transpiration and whole-tree conductance in ponderosa pine trees of different heights |
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Authors: | M. G. Ryan B. J. Bond B. E. Law R. M. Hubbard D. Woodruff E. Cienciala J. Kucera |
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Affiliation: | (1) USDA Forest Service, Rocky Mountain Research Station, 240 West Prospect RD, Fort Collins, CO 80526, USA e-mail: mryan@ lamar.colostate.edu Tel.: +1-970-4981012, Fax +1-970-4981010, US;(2) Graduate Degree Program in Ecology, Colorado State University, Fort Collins, CO 80523, USA, US;(3) Department of Forest Science, Oregon State University, Corvallis, OR 97331, USA, US;(4) Department of Soil Sciences (Environmental Physics), Swedish University of Agricultural Sciences, PO Box 7014, 75007, Uppsala, Sweden, SE;(5) Environmental Measuring Systems, Turisticka 5, 62100 Brno, Czech Republic, CZ |
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Abstract: | Changes in leaf physiology with tree age and size could alter forest growth, water yield, and carbon fluxes. We measured tree water flux (Q) for 14 ponderosa pine trees in two size classes (12 m tall and ∼40 years old, and 36 m tall and ∼ 290 years old) to determine if transpiration (E) and whole-tree conductance (g t) differed between the two sizes of trees. For both size classes, E was approximately equal to Q measured 2 m above the ground: Q was most highly correlated with current, not lagged, water vapor pressure deficit, and night Q was <12% of total daily flux. E for days 165–195 and 240–260 averaged 0.97 mmol m–2 (leaf area, projected) s–1 for the 12-m trees and 0.57 mmol m–2 (leaf area) s–1 for the 36-m trees. When photosynthetically active radiation (I P) exceeded the light saturation for photosynthesis in ponderosa pine (900 μmol m–2 (ground) s–1), differences in E were more pronounced: 2.4 mmol m–2 (leaf area) s–1 for the 12-m trees and 1.2 mmol m–2 s–1 for the 36-m trees, yielding g t of 140 mmol m–2 (leaf area) s–1 for the 12-m trees and 72 mmol m–2 s–1 for the 36-m trees. Extrapolated to forests with leaf area index =1, the 36-m trees would transpire 117 mm between 1 June and 31 August compared to 170 mm for the 12-m trees, a difference of 15% of average annual precipitation. Lower g t in the taller trees also likely lowers photosynthesis during the growing season. Received: 19 April 1999 / Accepted: 23 March 2000 |
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Keywords: | Transpiration Whole-tree conductance Hydraulic conductance Humidity response of stomatal conductance |
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