Dreyer E, Le Roux X, Montpied P, Daudet F A, Masson F
Ecophysiologie Forestière, INRA Nancy, France.
Tree Physiol. 2001 Mar;21(4):223-32. doi: 10.1093/treephys/21.4.223.
Seedlings of seven temperate tree species (Acer pseudoplatanus L., Betula pendula Roth, Fagus sylvatica L., Fraxinus excelsior L., Juglans regia L., Quercus petraea Matt. Liebl. and Quercus robur L.) were grown in a nursery under neutral filters transmitting 45% of incident global irradiance. During the second or third year of growth, leaf photosynthetic capacity (i.e., maximal carboxylation rate, Vcmax, maximal photosynthetic electron transport rate, Jmax, and dark respiration, Rd) was estimated for five leaves from each species at five or six leaf temperatures (10, 18, 25, 32, 36 and 40 degrees C). Values of Vcmax and Jmax were obtained by fitting the equations of the Farquhar model on response curves of net CO2 assimilation (A) to sub-stomatal CO2 mole fraction (ci), at high irradiance. Primary parameters describing the kinetic properties of Rubisco (specificity factor, affinity for CO2 and for O2, and their temperature responses) were taken from published data obtained with spinach and tobacco, and were used for all species. The temperature responses of Vcmax and Jmax, which were fitted to a thermodynamic model, differed. Mean values of Vcmax and Jmax at a reference temperature of 25 degrees C were 77.3 and 139 micromol m(-2) s(-1), respectively. The activation energy was higher for Vcmax than for Jmax (mean values of 73.1 versus 57.9 kJ mol(-1)) resulting in a decrease in Jmax/Vcmax ratio with increasing temperature. The mean optimal temperature was higher for Vcmax than for Jmax (38.9 versus 35.9 degrees C). In addition, differences in these temperature responses were observed among species. Temperature optima ranged between 35.9 and above 45 degrees C for Vcmax and between 31.7 and 43.3 degrees C for Jmax, but because of data scatter and the limited range of temperatures tested (10 to 40 degrees C), there were few statistically significant differences among species. The optimal temperature for Jmax was highest in Q. robur, Q. petraea and J. regia, and lowest in A. pseudoplatanus and F. excelsior. Measurements of chlorophyll a fluorescence revealed that the critical temperature at which basal fluorescence begins to increase was close to 47 degrees C, with no difference among species. These results should improve the parameterization of photosynthesis models, and be of particular interest when adapted to heterogeneous forests comprising mixtures of species with diverse ecological requirements.
七种温带树种(悬铃木、垂枝桦、欧洲山毛榉、欧洲白蜡树、核桃、岩生栎和英国栎)的幼苗在苗圃中生长,使用的中性滤光片能透过45%的入射全球辐照度。在生长的第二年或第三年,在五个或六个叶片温度(10、18、25、32、36和40摄氏度)下,对每个树种的五片叶子估计其叶片光合能力(即最大羧化速率Vcmax、最大光合电子传递速率Jmax和暗呼吸Rd)。在高辐照度下,通过将Farquhar模型方程拟合到净CO2同化(A)对气孔下CO2摩尔分数(ci)的响应曲线上,获得Vcmax和Jmax的值。描述Rubisco动力学特性的主要参数(特异性因子、对CO2和O2的亲和力及其温度响应)取自菠菜和烟草的已发表数据,并应用于所有树种。拟合到热力学模型的Vcmax和Jmax的温度响应有所不同。在25摄氏度参考温度下,Vcmax和Jmax的平均值分别为77.3和139微摩尔·米-2·秒-1。Vcmax的活化能高于Jmax(平均值分别为73.1和57.9千焦·摩尔-1),导致Jmax/Vcmax比值随温度升高而降低。Vcmax的平均最适温度高于Jmax(38.9对35.9摄氏度)。此外,在树种之间观察到了这些温度响应的差异。Vcmax的最适温度范围在35.9至45摄氏度以上,Jmax的最适温度范围在31.7至43.3摄氏度之间,但由于数据分散以及测试温度范围有限(10至40摄氏度),树种之间几乎没有统计学上的显著差异。Jmax的最适温度在英国栎、岩生栎和核桃中最高,在悬铃木和欧洲白蜡树中最低。叶绿素a荧光测量表明,基础荧光开始增加的临界温度接近47摄氏度,树种之间没有差异。这些结果应能改进光合作用模型的参数化,并且在适用于包含具有不同生态需求的树种混合物的异质森林时会特别有意义。
