Ishida A, Toma T, Matsumoto Y, Yap S K, Maruyama Y
Forest Environment Division, Forestry and Forest Products Research Institute, P.O. Box 16, Tsukuba Norin Danchi, Ibaraki 305, Japan.
Tree Physiol. 1996 Sep;16(9):779-85. doi: 10.1093/treephys/16.9.779.
Dryobalanops aromatica Gaertn. f. is a major tropical canopy species in lowland tropical rain forests in Peninsular Malaysia. Diurnal changes in net photosynthetic rate (A) and stomatal conductance to water vapor (g(s)) were measured in fully expanded young and old leaves in the uppermost canopy (35 m above ground). Maximum A was 12 and 10 micro mol m(-2) s(-1) in young and old leaves, respectively; however, because of large variation in A among leaves, mean maximum A in young and old leaves was only 6.6 and 5.5 micro mol m(-2) s(-1), respectively. Both g(s) and A declined in young leaves when T(leaf) exceeded 34 degrees C and leaf-to-air vapor pressure deficit (DeltaW) exceeded 0.025, whereas in old leaves, g(s) and A did not start to decline until T(leaf) and DeltaW exceeded 36 degrees C and 0.035, respectively. Under saturating light conditions, A was linearly related to g(s). The coefficient of variation (CV) for the difference between the CO(2) concentrations of ambient air and the leaf intercellular air space (C(a) - C(i)) was smaller than the CV for A or g(s), suggesting that maximum g(s) was mainly controlled by mesophyll assimilation (A/C(i)). Minimum C(i)/C(a) ratios were relatively high (0.72-0.73), indicating a small drought-induced stomatal limitation to A and non-conservative water use in the uppermost canopy leaves.
龙脑香是马来西亚半岛低地热带雨林中的一种主要热带冠层树种。在最上层冠层(地面以上35米)中,对完全展开的幼叶和老叶的净光合速率(A)和气孔导度(g(s))的日变化进行了测量。幼叶和老叶的最大A分别为12和10微摩尔·米⁻²·秒⁻¹;然而,由于叶片间A的差异很大,幼叶和老叶的平均最大A分别仅为6.6和5.5微摩尔·米⁻²·秒⁻¹。当叶片温度(T(leaf))超过34℃且叶-气蒸汽压差(ΔW)超过0.025时,幼叶中的g(s)和A均下降,而在老叶中,直到T(leaf)和ΔW分别超过36℃和0.035时,g(s)和A才开始下降。在饱和光照条件下,A与g(s)呈线性相关。环境空气与叶片细胞间隙的CO₂浓度差(C(a)-C(i))的变异系数(CV)小于A或g(s)的CV,这表明最大g(s)主要受叶肉同化作用(A/C(i))控制。最低的C(i)/C(a)比值相对较高(0.72-0.73),这表明在最上层冠层叶片中,干旱诱导的气孔对A的限制较小且水分利用不保守。
