What evidence exists on the impact of anthropogenic radiofrequency electromagnetic fields on animals and plants in the environment: a systematic map.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-05-11 DOI:10.1186/s13750-023-00304-3
Ken Karipidis, Chris Brzozek, Rohan Mate, Chhavi Raj Bhatt, Sarah Loughran, Andrew W Wood
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Abstract

Background: Exposure to radiofrequency (RF) electromagnetic fields (EMF), particularly from telecommunications sources, is one of the most common and fastest growing anthropogenic factors on the environment. In many countries, humans are protected from harmful RF EMF exposure by safety standards that are based on guidelines by the International Commission on Non-Ionizing Radiation Protection (ICNIRP). The ICNIRP guidelines are based on knowledge of how RF EMF affects the human body, however, there are currently no recognised international guidelines to specifically protect animals and plants. Whether the ICNIRP guidelines for humans are adequate to provide protection to the environment is a subject of active debate. There is some public concern that new telecommunications technologies, like the 5G mobile phone network may affect the natural environment. This systematic map presents a searchable database of all the available evidence on whether anthropogenic RF EMF has an effect on plants and animals in the environment. The map also identifies gaps in knowledge, recommends future research and informs environmental and radiation protection authorities.

Methods: The method used was published in an a priori protocol. Searches included peer-reviewed and grey literature published in English with no time and geographic restrictions. The EMF-Portal, PubMed and Web of Science databases were searched, and the resulting articles were screened in three stages: title, abstract and full text. Studies were included with a subject population of all animals and plants, with exposures to anthropogenic RF EMF (frequency range 100 kHz-300 GHz) compared to no or lower-level exposure, and for any outcomes related to the studied populations. For each included study, metadata were extracted on key variables of interest that were used to represent the distribution of available evidence.

Review findings: The initial search, search update and supplementary searches produced 24,432 articles and of those 334 articles (237 on fauna and 97 on flora) that were relevant were included in the systematic map. The vast majority of studies were experiments conducted in a laboratory rather than observational studies of animals and plants in the natural environment. The majority of the studies investigated exposures with frequencies between 300 and 3000 MHz, and although the exposure level varied, it was mainly low and below the ICNIRP limits. Most of the animal studies investigated insects and birds, whereas grains and legumes were the most investigated plants. Reproduction, development and behaviour were the most investigated effects for animals, and germination and growth for plants. The vast majority of the studies employed poor quality methods.

Conclusion: There are distinct evidence clusters: for fauna, on insect and bird reproduction, development and behaviour; and for flora, grain and legume germination and growth that would benefit from specific systematic reviews. The systematic map also highlights the clear need for investigating the effects of RF EMF on more species and more types of effects, and for an improvement in the quality of all studies.

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关于人为射频电磁场对环境中动植物的影响存在哪些证据:一个系统的地图
背景:暴露于射频(RF)电磁场(EMF),特别是来自电信信号源的电磁场,是环境中最常见、增长最快的人为因素之一。许多国家都根据国际非电离辐射防护委员会(ICNIRP)的指导方针制定了安全标准,以保护人类免受有害射频电磁场的危害。国际非电离辐射防护委员会的指导方针基于射频电磁场如何影响人体的知识,但目前还没有公认的专门保护动物和植物的国际指导方针。国际非电离辐射防护委员会(ICNIRP)针对人体的指导方针是否足以为环境提供保护,目前还存在争议。一些公众担心新的电信技术(如 5G 移动电话网络)可能会影响自然环境。本系统地图提供了一个可搜索的数据库,其中包含关于人为射频电磁场是否会对环境中的动植物产生影响的所有可用证据。地图还指出了知识空白,推荐了未来研究,并为环境和辐射防护机构提供了信息:所使用的方法已在事先协议中公布。搜索范围包括以英文发表的经同行评审的文献和灰色文献,没有时间和地域限制。在 EMF-Portal、PubMed 和 Web of Science 数据库中进行检索,并分三个阶段对检索到的文章进行筛选:标题、摘要和全文。纳入的研究对象包括所有动物和植物、人为射频电磁场(频率范围为 100 kHz-300 GHz)暴露与无暴露或较低水平暴露的比较,以及与研究人群相关的任何结果。对于每项纳入的研究,都提取了相关关键变量的元数据,用于代表现有证据的分布情况:初步搜索、搜索更新和补充搜索共产生了 24,432 篇文章,其中 334 篇相关文章(237 篇关于动物群,97 篇关于植物群)被纳入了系统地图。绝大多数研究都是在实验室中进行的实验,而不是在自然环境中对动植物进行的观察研究。大多数研究调查了频率在 300 到 3000 兆赫之间的辐照情况,虽然辐照水平各不相同,但主要都很低,低于国际非电离辐射防护委员会的限值。大多数动物研究调查的是昆虫和鸟类,而谷物和豆类是调查最多的植物。对动物影响最大的是繁殖、发育和行为,对植物影响最大的是发芽和生长。绝大多数研究采用的方法质量不高:有明显的证据集群:在动物方面,昆虫和鸟类的繁殖、发育和行为;在植物方面,谷物和豆类的发芽和生长,这些都将受益于具体的系统审查。系统图还强调,显然需要调查射频电磁场对更多物种和更多类型的影响,并提高所有研究的质量。
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