Zavoruev V V, Zavorueva E N, Shelegov A V
Institute of Computational Modeling, Siberian Division, Russian Academy of Sciences, Krasnoyarsk, Russia.
Biofizika. 2000 Jul-Aug;45(4):704-11.
The slow fluorescence induction produced in cucumber leaves by light in the range of wavelengths 380-540 nm and intensity of 180 W/m2 was studied. The ratio of fluorescence maxima in the red region (F734/F682) in young and mature leaves was approximately 2. It is assumed that this value depends on an increase in the contribution of the long-wavelength fluorescence due to the spillover effect. In plants grown under natural conditions, the parameter F734/F682 correlated with the concentrations of chlorophyll and carotenoids. In plants grown in the light of red and blue regions no such correlation was observed and the F734/F682 remained unchanged. It is concluded that the F534/F682 is affected by the intensity and spectral composition of exciting light used during the growing.
研究了波长范围为380 - 540 nm、强度为180 W/m²的光在黄瓜叶片中产生的缓慢荧光诱导现象。幼叶和成熟叶中红色区域荧光最大值的比值(F734/F682)约为2。据推测,该值取决于由于溢出效应导致的长波长荧光贡献的增加。在自然条件下生长的植物中,参数F734/F682与叶绿素和类胡萝卜素的浓度相关。在红蓝光区域光照下生长的植物中未观察到这种相关性,且F734/F682保持不变。得出结论:F534/F682受生长期间所用激发光的强度和光谱组成的影响。
