| Literature DB >> 34245597 |
Zheyuan Zhang1,2, Yanru Xue1,2, Jiancheng Yang1,2,3, Peng Shang2,4, Xichen Yuan2,5.
Abstract
The future of mankind is tied to the exploration and eventual colonization of space. Currently, people have resided in orbit at a space station. In the future, we will have opportunities to stay on the moon, Mars, or in deeper space, where astronauts are exposed to the hypomagnetic field (HMF), which refers to an extremely weak magnetic field environment compared with the geomagnetic field. However, the potential risks of HMF exposure to human health are often overlooked. Here, we summarize the literature related to the biological effects of HMF and calculate the magnitude of the effect. Briefly, HMF impairs multiple animal systems, especially in the central nervous system. Additionally, HMF is a stress factor in plant growth and reproduction. Finally, HMF combined with other space environments, such as radiation and microgravity, can affect organisms. Further studies are required to explore (i) countermeasures to the adverse effects of HMF, (ii) combined effects of HMF with other factors, and (iii) the intensity-effect relationship.Entities:
Keywords: biological effects; biological mechanisms; effect size; hypomagenetic field; space exploration
Year: 2021 PMID: 34245597 DOI: 10.1002/bem.22360
Source DB: PubMed Journal: Bioelectromagnetics ISSN: 0197-8462 Impact factor: 2.010