Comparative measurements of transpiration an canopy conductance in two mixed deciduous woodlands differing in structure and species composition
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Comparative measurements of transpiration an canopy conductance in two mixed deciduous woodlands differing in structure and species composition. / Herbst, Mathias; Rosier, Paul T.W.; Morecroft, Michael D.; Gowing, David J.
I: Tree Physiology, Bind 28, 2008, s. 959-970.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - Comparative measurements of transpiration an canopy conductance in two mixed deciduous woodlands differing in structure and species composition
AU - Herbst, Mathias
AU - Rosier, Paul T.W.
AU - Morecroft, Michael D.
AU - Gowing, David J.
PY - 2008
Y1 - 2008
N2 - Transpiration of two heterogeneous broadleaved woodlands in southern England was monitored by the sap flux technique throughout the 2006 growing season. Grimsbury Wood, which had a leaf area index (LAI) of 3.9, was dominated by oak (Quercus robur L.) and birch (Betula pubescens L.) and had a continuous hazel (Corylus avellana L.) understory. Wytham Woods, which had an LAI of 3.6, was dominated by ash (Fraxinus excelsior L.) and sycamore (Acer pseudoplatanus L.) and had only a sparse understory. Annual canopy transpiration was 367 mm for Grimsbury Wood and 397 mm for Wytham Woods. These values were similar to those for beech (Fagus sylvatica L.) plantations in the same region, and differ from one another by less than the typical margin of uncertainty of the sap flux technique. Canopy conductance (gc), calculated for both woodlands by inverting the Penman-Monteith equation, and was related to incoming solar radiation (RG) and the vapour pressure deficit (D). The response of gc to RG was similar for both forests. Both reference conductance (gcref), defined as gc at D = 1 kPa, and the stomatal sensitivity (-m), defined as the slope of the logarithmic response curve of gc to D, increased during the growing season at Wytham Woods but not at Grimsbury Wood. The -m/gcref ratio was significantly lower at Wytham Woods than at Grimsbury Wood and was insufficient to keep the difference between leaf and soil water potentials constant, according to a simple hydraulic model. This meant that annual water consumption of the two woodlands was similar despite different regulatory mechanisms and associated short term variations in canopy transpiration. The -m/gcref ratio depended on the range of D under which the measurements were made. This was shown to be particularly important for studies conducted under low and narrow ranges of D.
AB - Transpiration of two heterogeneous broadleaved woodlands in southern England was monitored by the sap flux technique throughout the 2006 growing season. Grimsbury Wood, which had a leaf area index (LAI) of 3.9, was dominated by oak (Quercus robur L.) and birch (Betula pubescens L.) and had a continuous hazel (Corylus avellana L.) understory. Wytham Woods, which had an LAI of 3.6, was dominated by ash (Fraxinus excelsior L.) and sycamore (Acer pseudoplatanus L.) and had only a sparse understory. Annual canopy transpiration was 367 mm for Grimsbury Wood and 397 mm for Wytham Woods. These values were similar to those for beech (Fagus sylvatica L.) plantations in the same region, and differ from one another by less than the typical margin of uncertainty of the sap flux technique. Canopy conductance (gc), calculated for both woodlands by inverting the Penman-Monteith equation, and was related to incoming solar radiation (RG) and the vapour pressure deficit (D). The response of gc to RG was similar for both forests. Both reference conductance (gcref), defined as gc at D = 1 kPa, and the stomatal sensitivity (-m), defined as the slope of the logarithmic response curve of gc to D, increased during the growing season at Wytham Woods but not at Grimsbury Wood. The -m/gcref ratio was significantly lower at Wytham Woods than at Grimsbury Wood and was insufficient to keep the difference between leaf and soil water potentials constant, according to a simple hydraulic model. This meant that annual water consumption of the two woodlands was similar despite different regulatory mechanisms and associated short term variations in canopy transpiration. The -m/gcref ratio depended on the range of D under which the measurements were made. This was shown to be particularly important for studies conducted under low and narrow ranges of D.
KW - Faculty of Science
KW - Broad-leaved woodland
KW - stomatal sensitivity
KW - seasonality
KW - sap flux
KW - potential evaporation
KW - heterogeneous forest
M3 - Journal article
VL - 28
SP - 959
EP - 970
JO - Tree Physiology
JF - Tree Physiology
SN - 0829-318X
ER -
ID: 8415118