Photochemical activity in developing pea (Pisum sativum L.) cotyledons depends on the light transmittance of covering tissues and the spectral composition of light.

IF 0.9 Q3 AGRICULTURE, MULTIDISCIPLINARY
G N Smolikova, N V Stepanova, A M Kamionskaya, S S Medvedev
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Abstract

Many crops require not only leaf photosynthesis for their seed development but also the photochemical reactions that occur in the seeds. The purpose of this work was a comparative analysis of light transmittance and photochemical activity in the leaves of Pisum sativum L. and its pericarp, seed coat, and cotyledons at the early, middle, and late maturation stages. The spectral composition of light was measured using a spectroradiometer in the range of 390-760 nm. We assessed the light transmittance of plant tissues by placing the plant tissue between the light source and the spectroradiometer's sensor. PAM fluorometry was used to quantify the photochemical activity in plant tissues: this technique is handy for evaluating the efficiency of converting light energy into chemical energy through the analysis of the kinetics of chlorophyll fluorescence excitation and quenching. On average, a photochemically active green leaf of pea transmitted 15 % of solar radiation in the 390-760 nm, blue light was delayed entirely, and the transmitted red light never exceeded 5 %. Photochemically active radiation passing through the pericarp and coat and reaching the cotyledons at the early and middle seed maturation stages manifested a high proportion of green and far-red light; there was no blue light, and the percentage of red light was about 2 %. However, the cotyledons were photochemically active regardless of low irradiance and spectral ranges untypical of leaf photosynthesis. At the early and middle maturation stages, the maximum quantum yield of photosystem II (Fv/Fm) averaged 0.5 at the periphery of cotyledons and 0.3 at their center. Since the intensity of embryonic photochemical reactions significantly affects the efficiency of reserve nutrient accumulation, this parameter is a promising marker in pea breeding for seeds with improved nutritional qualities.

发育中的豌豆(Pisum sativum L.)子叶中的光化学活性取决于覆盖组织的透光率和光的光谱成分。
许多作物的种子发育不仅需要叶片的光合作用,还需要种子中发生的光化学反应。这项工作的目的是比较分析双子叶(Pisum sativum L.)的叶片及其果皮、种皮和子叶在早、中、晚熟阶段的透光率和光化学活性。我们使用分光辐射计测量了 390-760 纳米范围内的光的光谱成分。我们将植物组织置于光源和分光辐射计传感器之间,以评估植物组织的透光率。PAM 荧光测定法用于量化植物组织中的光化学活性:通过分析叶绿素荧光激发和淬灭的动力学,该技术可方便地评估光能转化为化学能的效率。平均而言,一片光化学活性强的豌豆绿叶能透过 15% 的 390-760 纳米波长的太阳辐射,蓝光被完全延迟,透过的红光从未超过 5%。光化学活性辐射穿过果皮和外皮,在种子成熟初期和中期到达子叶时,绿光和远红光所占比例较高;没有蓝光,红光所占比例约为 2%。不过,无论辐照度多低,子叶的光化学活动都很活跃,光谱范围也不像叶片光合作用那样典型。在早期和中期成熟阶段,子叶外围光系统 II 的最大量子产率(Fv/Fm)平均为 0.5,中心为 0.3。由于胚胎光化学反应的强度会显著影响储备养分的积累效率,因此该参数是豌豆育种中一个很有前景的标记,可用于培育营养品质更好的种子。
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来源期刊
Vavilovskii Zhurnal Genetiki i Selektsii
Vavilovskii Zhurnal Genetiki i Selektsii AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
1.90
自引率
0.00%
发文量
119
审稿时长
8 weeks
期刊介绍: The "Vavilov Journal of genetics and breeding" publishes original research and review articles in all key areas of modern plant, animal and human genetics, genomics, bioinformatics and biotechnology. One of the main objectives of the journal is integration of theoretical and applied research in the field of genetics. Special attention is paid to the most topical areas in modern genetics dealing with global concerns such as food security and human health.
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