Influence of trace elements, applied in classical and nano forms, on photosynthesis of higher plants in relation to enhancement of crop productivity

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2020-12-25 DOI:10.15407/AGRISP7.03.071
G. Priadkina
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引用次数: 3

Abstract

One of the main factors of increasing the productivity of agricultural plants is intensifying the activity of the photo- synthetic apparatus, since the productivity of crops depends on the ability to absorb solar radiation and convert it into the energy of chemical bonds for further use in metabolic processes. The amount of photosynthetically active radia- tion absorbed by crops, in its turn, depends on the area, duration, and activity of the assimilation surface functioning. The use of fertilizers, that contain trace elements, can further achieve both raising the yield of cultivated plants and environmental protection. In this regard, the state-of-the-art research on the infl uence of the main trace elements (iron, zinc, manganese, molybdenum, cobalt, selenium, boron, titanium) and one macroelement - magnesium - on photosynthetic characteristics of plants and crops is discussed. Based on the literature data and the results of our own research, we documented the effect of trace elements on leaves carbon dioxide exchange rates, the content of photo- synthetic pigments, the antioxidant enzymes activity, as well as the traits of the photosynthetic apparatus capacity. The infl uence of nanometals on the content and ratio of pigments, net CO 2 assimilation rate, and the photochemical activity of photosystems, including the effect of stress factors, is discussed. The specifi cities of the infl uence of nanometals are discussed and possible mechanisms of the effect of low concentrations of trace elements on plant metabolism are analyzed. It is shown that trace elements infl uence photosynthetic processes in plants and the systems of their antioxi- dant protection. The relevance of trace elements in the development of new strategies to elaborate the technologies of cultivating next-generation plants, including those that will be based on new physical and chemical properties of macro- and micronutrients in a nano form, is highlighted
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经典和纳米形式施用微量元素对高等植物光合作用与提高作物生产力的影响
提高农业植物生产力的主要因素之一是加强光合成装置的活动,因为作物的生产力取决于吸收太阳辐射并将其转化为化学键能量以进一步用于代谢过程的能力。作物吸收的光合作用活性辐射量反过来取决于同化表面功能的面积、持续时间和活性。使用含有微量元素的肥料可以进一步提高栽培植物的产量和保护环境。在这方面,讨论了主要微量元素(铁、锌、锰、钼、钴、硒、硼、钛)和一种大元素镁对植物和作物光合成特性的影响的最新研究进展。根据文献资料和我们自己的研究结果,我们记录了微量元素对叶片二氧化碳交换率、光合成色素含量、抗氧化酶活性以及光合器官能力特征的影响。讨论了纳米对色素含量和比例、净CO2同化率和光系统光化学活性的影响,包括胁迫因素的影响。讨论了纳米影响的特殊性,并分析了低浓度微量元素对植物代谢影响的可能机制。结果表明,微量元素影响植物的光合过程及其抗氧化保护系统。强调了微量元素在制定新战略以开发下一代植物培育技术中的相关性,包括那些将基于纳米形式的微量元素和微量营养素的新物理和化学特性的植物
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来源期刊
Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
自引率
25.00%
发文量
6
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