Evaluation of tomato photosynthetic potential based on the chlorophyll fluorescence of leaflets sealed with transparent film or Vaseline.

Q3 Agricultural and Biological Sciences
K. Nada, S. Kitade, S. Hiratsuka
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引用次数: 0

Abstract

When chlorophyll fluorescence is measured on leaves with restricted gas exchange by a transparent film or Vaseline seal, the obtained electron transport rate in photosystem II (J PSIIseal ) was reported show a positive linear correlation with the maximum photosynthetic activity. This is because in a sealed leaf, the CO 2 substrate for ribulose-1,5-bisphosphate-carboxylase/oxygenase is derived primarily from photorespiration. Our objective was to clarify whether the J PSIIseal also corresponds to photosynthetic activity in tomato leaflets. The J PSIIseal of a leaflet had a positive linear relationship with the gross photosynthetic rate at 30 mmol mol (cid:4) 1 oxygen. This suggests that the J PSIIseal represents the photosynthetic carbon fixation activity. Maintaining a tight seal with the transparent film was difficult because of the gap between the film and leaflet during transpiration. In contrast, the tight seal with Vaseline enabled measurements for at least 30 min. Additionally, the measurements could be completed faster for the Vaseline-sealed leaflets. The variation in the J PSIIseal of tomato leaflets increased with increasing leaf age. The leaf J PSIIseal (i.e., calculated based on 10 (cid:1) 13 leaflets) decreased with increasing leaf age. We propose that chlorophyll fluorescence measurements for Vaseline-sealed leaflets may be useful for comprehensive analyses of tomato leaf photosynthetic characteristics.
基于透明膜或凡士林封膜的番茄叶片叶绿素荧光评价光合势。
用透明膜或凡士林密封对气体交换受限的叶片进行叶绿素荧光测量,得到的光系统II (J PSIIseal)中的电子传递速率与最大光合活性呈线性正相关。这是因为在封闭的叶片中,核酮糖-1,5-二磷酸-羧化酶/加氧酶的co2底物主要来自光呼吸。我们的目的是澄清J PSIIseal是否也对应于番茄小叶的光合活性。在30 mmol mol (cid:4) 1氧条件下,叶片的光合速率与叶片的光合速率呈线性正相关。这表明jpsiiseal代表了光合固碳活性。由于在蒸腾过程中膜和叶之间存在间隙,因此与透明膜保持紧密密封是困难的。相比之下,凡士林的紧密密封使测量至少持续30分钟。此外,凡士林密封的小叶可以更快地完成测量。随着叶龄的增加,番茄小叶中psiseal的变异也随之增加。叶片PSIIseal(即以10 (cid:1) 13小叶为单位计算)随着叶龄的增加而降低。我们认为,对凡士林密封小叶的叶绿素荧光测量可能有助于全面分析番茄叶片的光合特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Environmental Control in Biology
Environmental Control in Biology Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.00
自引率
0.00%
发文量
25
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