Mean Hydraulic Vessel Diameter. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to poiseuille’s law, the hydraulic. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to. mean (sd in parentheses) xylem vessel diameter (μm) and vessel density (n mm −2) of the trunks (at breast. vessel diameter is one of the most informative xylem traits (fig. mean vessel length (vl) and hydraulic vessel length (vl h) on branch samples (n = 5) of five angiosperm. xylem vessel diameters represent an important plant hydraulic. hydraulic mean vessel diameter (d h , µm) in relation to empirically determined specific conductivity ( k s emp , kg m −1 mpa −1 s −1 ) in. potential hydraulic conductivity (k p) was positively related to vessel lumen diameter and vessel fraction, but. The ahm is a measure of. the mean xylem vessel diameters ranged between 40.56 and 18.19 µm. we measured mean vessel diameter (d), vessel density (vd), relative vessel lumen area (lumen area per xylem area) and. This range agrees with other study's. mean species vessel diameter was strongly predicted by trunk diameter (slope ∼0.33), and this slope was not affected by either phylogenetic. the best example of the difference between the hydraulically weighted diameter and mean diameter. mean vessel diameter (a), hydraulically weighted vessel diameter (b), mean vessel density (c), and vessel fraction (d) of six.
mean species vessel diameter was strongly predicted by trunk diameter (slope ∼0.33), and this slope was not affected by either phylogenetic. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to poiseuille’s law, the hydraulic. xylem vessel diameters represent an important plant hydraulic. the best example of the difference between the hydraulically weighted diameter and mean diameter. vessel diameter is one of the most informative xylem traits (fig. we measured mean vessel diameter (d), vessel density (vd), relative vessel lumen area (lumen area per xylem area) and. the mean xylem vessel diameters ranged between 40.56 and 18.19 µm. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to. mean vessel length (vl) and hydraulic vessel length (vl h) on branch samples (n = 5) of five angiosperm. hydraulic mean vessel diameter (d h , µm) in relation to empirically determined specific conductivity ( k s emp , kg m −1 mpa −1 s −1 ) in.
(a) Hydraulically weighted vessel diameter (D H ), (b) sapwood density
Mean Hydraulic Vessel Diameter The ahm is a measure of. mean species vessel diameter was strongly predicted by trunk diameter (slope ∼0.33), and this slope was not affected by either phylogenetic. we measured mean vessel diameter (d), vessel density (vd), relative vessel lumen area (lumen area per xylem area) and. mean (sd in parentheses) xylem vessel diameter (μm) and vessel density (n mm −2) of the trunks (at breast. The ahm is a measure of. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to. mean vessel length (vl) and hydraulic vessel length (vl h) on branch samples (n = 5) of five angiosperm. hydraulic mean vessel diameter (d h , µm) in relation to empirically determined specific conductivity ( k s emp , kg m −1 mpa −1 s −1 ) in. vessel diameter is one of the most informative xylem traits (fig. xylem vessel diameters represent an important plant hydraulic. the mean xylem vessel diameters ranged between 40.56 and 18.19 µm. potential hydraulic conductivity (k p) was positively related to vessel lumen diameter and vessel fraction, but. mean vessel diameter (a), hydraulically weighted vessel diameter (b), mean vessel density (c), and vessel fraction (d) of six. hydraulic efficiency depends both on vessel diameter, d, and vessel length, l, because, according to poiseuille’s law, the hydraulic. This range agrees with other study's. the best example of the difference between the hydraulically weighted diameter and mean diameter.