The influence of shoot structure on net photosynthesis was evaluated under field conditions for the central Rocky Mountain (United States) conifers Picea engelmannii (Parry ex Engelm.), Abies lasiocarpa ([Hook] Nutt.), and Pinus contorta (Engelm.). In all species, the greater number of needles per unit stem length on sun shoots correlated with a smaller silhouette leaf area to total leaf area ratio (STAR). Decreased STAR was due primarily to greater needle inclination toward the vertical, plus some needle mutual shading. However, photosynthesis expressed on a total leaf area basis did not decrease in sun shoots (lower STAR) but remained nearly constant at approximately 3 micromoles per square meter per second over a wide range of STAR (0.1 to 0.3). Relatively low light saturation levels of 200 to 1400 microeinsteins per square meter per second and diffuse light to 350 microeinsteins per meter per second maintained photosynthetic flux densities in inclined and/or shaded needles at levels comparable to those in unshaded needles oriented perpendicular to the solar beam. As a result, net CO2 uptake per unit stem length increased as much as 2-fold in sun shoots (low STAR) in direct proportion to increasing needle density.
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机译:在田间条件下,评估了落基山(美国)针叶树Picea engelmannii(Parry ex Engelm。),Abies lasiocarpa([Hook] Nutt。)和Pinus contorta(Engelm。)的枝条结构对净光合作用的影响。在所有物种中,太阳梢上每单位茎长的针数越多,轮廓叶面积与总叶面积之比(STAR)越小。 STAR减少的主要原因是针向垂直方向的倾斜度更大,加上一些针相互遮挡。然而,以总叶面积为基础表达的光合作用在太阳芽中并没有减少(较低的STAR),但在较大的STAR(0.1至0.3)范围内几乎保持恒定,大约为每平方米每秒3微摩尔。相对较低的光饱和度水平为每秒200至1400微爱因斯坦/秒,并且将光漫射至每秒350微爱因斯坦/秒,使倾斜和/或阴影针头的光合通量密度保持在与垂直于太阳光束的非阴影针头相当的水平。结果,在太阳梢(低STAR)下,每单位茎长的净CO2吸收量增加了2倍,与针密度的增加成正比。
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