F. Berninger et E. Nikinmaa, FOLIAGE AREA - SAPWOOD AREA RELATIONSHIPS OF SCOTS PINE (PINUS-SYLVESTRIS) TREES IN DIFFERENT CLIMATES, Canadian journal of forest research, 24(11), 1994, pp. 2263-2268
Foliage mass and wood cross-sectional area were measured at different
points of branches and stems within the living crown of Scots pine (Pi
nus sylvestris L.) trees from sample plots, representing wide geograph
ical variation. The measurements were taken during the period of annua
l minimum foliage mass. The needle mass : branch cross-sectional area
ratio, measured below the lowest living whorl of sub-branches, differe
d among measured points and was normally lower for the uppermost branc
hes, but also decreased in the lower canopy. The decrease at the lower
canopy was hypothesized to reflect an excess water transport capacity
resulting from the senesced needles. The lower ratio in the uppermost
branches might be explained by M.H. Zimmermann's hypothesis that the
water supply of foliage close to the stem is preferred. A similar tren
d in the branch area : stem area ratio was observed along the stem. Th
ere seemed to be strong geographic variation in the ratio between the
total cross-sectional area of branches of the crown measured and the s
tem cross-sectional area below the living crown. The branch area : ste
m area ratio was higher in the southern stands, whereas there was no c
lear trend for the needle area : branch area ratio. The results are di
scussed in relation to the hydraulic architecture of trees.