What evidence exists of crop plants response to exposure to static magnetic and electromagnetic fields? A systematic map protocol.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Agnieszka Pawełek, Samuel Acheaw Owusu, Daniele Cecchetti, Adrianna Zielińska, Joanna Wyszkowska
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Abstract

Background: Increasing demand for food and concerns over the environmental impact of agriculture has prompted the search for alternatives to many conventional farming practices. Reports on exposing seeds and plants at various developmental stages to static magnetic field (SMF) and non-ionizing electromagnetic fields (EMF) as a form of priming indicate some positive effects on seed germinability, growth rate, resistance to stress conditions, and improved yield. However, there exist some inconsistent reported treatment protocols and contradictory study outcomes that make it difficult to draw objective conclusions on the potential use of SMF and EMF as sustainable alternatives to improving crop growth and yield. It is equally essential to understand any adverse effects of exposing plants to SMF and EMF considering the abundance of their sources in the environment. In order to provide a more coherent overview of how plants respond to exposure to SMF and EMF not only in their observed effects of agronomic importance but also in the mechanisms of action of SMF and EMF in plant cells, we prepare a systematic map.

Methods: Literature will be identified by searching six bibliographic databases and three web-based search engines using terms obtained from the population, exposure, and outcome parameters of the research question. Primary research published in peer-reviewed journals and grey literature will be the source for the evidence map. Studies eligible for inclusion may involve: food crops and related research model plants exposed to SMF or non-ionizing EMF; treatment at all plant developmental stages excluding post-harvest improvement of food crops; and the presence of control groups. Eligible literature will be screened at the title, abstract, and full text levels. The validity of studies will not be critically appraised for the evidence map. A process of double extraction and coding of relevant information from eligible literature will be conducted. Within the evidence map, relevant data will be presented in the forms of text, graphs, tables, and figures. This will illustrate research trends, bring clarity to the evidence base concerning clusters of sufficient findings and areas of significant gaps, and inform stakeholders in decisions concerning research planning and policy formulation.

有什么证据表明农作物对静电磁场和电磁场有反应?系统的地图协议
背景:人们对粮食的需求日益增长,同时又担心农业对环境的影响,这促使人们寻找许多传统耕作方法的替代品。有报告称,将处于不同发育阶段的种子和植物暴露于静态磁场(SMF)和非电离电磁场(EMF)作为一种引物,对种子发芽率、生长速度、抗逆性和提高产量有一些积极影响。然而,报告中存在一些不一致的处理方案和相互矛盾的研究结果,因此很难就 SMF 和 EMF 作为可持续替代品改善作物生长和产量的潜力得出客观结论。同样重要的是,考虑到 SMF 和 EMF 在环境中的大量来源,必须了解将植物暴露于 SMF 和 EMF 的任何不利影响。为了更加连贯地概述植物如何应对暴露于 SMF 和 EMF 的情况,不仅要观察到它们对农艺学的重要影响,还要了解 SMF 和 EMF 在植物细胞中的作用机制,我们准备了一份系统地图:方法:将使用从研究问题的人群、暴露和结果参数中获得的术语,通过搜索六个书目数据库和三个网络搜索引擎来确定文献。同行评审期刊上发表的主要研究成果和灰色文献将作为证据图谱的来源。符合纳入条件的研究可能涉及:暴露于 SMF 或非电离电磁场的粮食作物和相关研究模式植物;植物所有发育阶段的处理,不包括粮食作物收获后的改良;以及对照组的存在。符合条件的文献将在标题、摘要和全文层面进行筛选。在绘制证据图时,不会对研究的有效性进行严格评估。将对符合条件的文献中的相关信息进行双重提取和编码。在证据图中,相关数据将以文本、图表和数字的形式呈现。这将说明研究趋势,澄清证据基础中的充分研究结果群和存在重大差距的领域,并为利益相关者提供有关研究规划和政策制定的决策信息。
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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CiteScore
7.20
自引率
4.30%
发文量
567
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