Relationship between photochemical efficiency (JIP-Test Parameters) and portable chlorophyll meter readings in papaya plants

F. Castro, E. Campostrini, A. T. Netto, L. H. Viana
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引用次数: 18

Abstract

The Portable Chlorophyll Meter (PCM) is used to estimate the total chlorophyll and leaf nitrogen content of various species. Since there is a relationship between the chlorophyll concentration and the photochemical efficiency, a relationship can also be established between the PCM readings and some fluorescence variables to provide information on photosystem II (PSII) structure and activity. Papaya (Carica papaya L.) plants ['Sunrise Solo' (leaves with intense green coloring) and 'Golden' cultivars (leaves with yellow-green coloring) were grown in a greenhouse with 30% interception of photosynthetically active photon flux density. The plants were cultivated in 15L plastics pots. Ninety to 100 days after planting the older leaves turned yellow and the chlorophyll fluorescence variables and PCM readings were measured. At low PCM values (less than 30 to 'Sunrise Solo' and less than 20 to 'Golden') the PSII structure and activity were damaged, which is likely related to a reduction in the numbers of active reaction centers (RC/CS0). At higher PCM values the chlorophyll a fluorescence variables (ABS/RC, DI0/RC, TR0/CS0 e ET0/CS0) that are related to PSII structure and activity PSII were not responsive. These results indicated that the effects of chlorophyll content measured by PCM on the photochemical phase of photosynthesis evaluated by chlorophyll fluorescence occur after the degradation of chlorophyll molecules is initiated. In papaya the Portable Chlorophyll Meter (SPAD-502) was shown to be suitable for diagnosis of PSII energy distribution under N stress and senescence.
木瓜光化学效率(jip测试参数)与便携式叶绿素仪读数的关系
便携式叶绿素计(PCM)用于估算不同树种的总叶绿素和叶片氮含量。由于叶绿素浓度与光化学效率之间存在关系,因此也可以在PCM读数与某些荧光变量之间建立关系,以提供光系统II (PSII)结构和活性的信息。木瓜(Carica Papaya L.)植株['Sunrise Solo'(叶片呈深绿色)和'Golden'栽培品种(叶片呈黄绿色)]在光合有效光子通量密度截留30%的温室中生长。这些植物种植在15L的塑料花盆中。种植90 ~ 100天后,老叶变黄,测量叶绿素荧光变量和PCM读数。在较低的PCM值(小于30至“Sunrise Solo”和小于20至“Golden”)下,PSII的结构和活性受到破坏,这可能与活性反应中心(RC/CS0)的数量减少有关。在较高的PCM值下,与PSII结构和活性相关的叶绿素a荧光变量(ABS/RC、DI0/RC、TR0/CS0和ET0/CS0)对PSII无响应。这些结果表明,PCM测量的叶绿素含量对叶绿素荧光评价的光合作用光化学阶段的影响发生在叶绿素分子降解开始后。在木瓜中,便携式叶绿素仪(SPAD-502)适用于诊断N胁迫和衰老下PSII能量分布。
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