© 2006 Heron Publishing—Victoria, Canada
Diurnal and seasonal variability in radial distribution of sap flux density: implications for estimating stand transpiration
Alessandro Fiora (1, 2, 3) and Alessandro Cescatti (1)
1. Centro di Ecologia Alpina—Viote del Monte Bondone, 38100 Trento, Italy / 2. Dipartimento Territorio e Sistemi Agro Forestali, Università di Padova, AGRIPOLIS, viale dell’Industria, 16 35020 Legnaro,
Italy / 3. Corresponding author (fiora@cealp.it) / Received July 5, 2005; accepted December 19, 2005; published online June 1, 2006
Summary
Daily and seasonal patterns in radial distribution of sap flux density were monitored in six trees differing in social position
in a mixed coniferous stand dominated by silver fir (Abies alba Miller) and Norway spruce (Picea abies (L.) Karst) in the Alps of northeastern Italy. Radial distribution of sap flux was measured with arrays of 1-cm-long Granier
probes. The radial profiles were either Gaussian or decreased monotonically toward the tree center, and seemed to be related
to social position and crown distribution of the trees.
The ratio between sap flux estimated with the most external sensor and the mean flux, weighted with the corresponding annulus
areas, was used as a correction factor (CF) to express diurnal and seasonal radial variation in sap flow. During sunny days,
the diurnal radial profile of sap flux changed with time and accumulated photosynthetic active radiation (PAR), with an increasing
contribution of sap flux in the inner sapwood during the day. Seasonally, the contribution of sap flux in the inner xylem
increased with daily cumulative PAR and the variation of CF was proportional to the tree diameter, ranging from 29% for suppressed
trees up to 300% for dominant trees. Two models were developed, relating CF with PAR and tree diameter at breast height (DBH),
to correct daily and seasonal estimates of whole-tree and stand sap flow obtained by assuming uniform sap flux density over
the sapwood. If the variability in the radial profile of sap flux density was not accounted for, total stand transpiration
would be overestimated by 32% during sunny days and 40% for the entire season.
Keywords:
Abies alba, correction factor, heat dissipation method, Picea abies, radial pattern, sap flux density, temporal variability.
