Contribution of transposable elements to transgenerational effects of chronic radioactive exposure of natural populations of Drosophila melanogaster living for a long time in the zone of the Chernobyl nuclear disaster

Yushkova, Elena

doi:10.1016/j.jenvrad.2022.106945

Cited by 5 publications

(2 citation statements)

References 114 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It has been found that pheno-deviants and varying degrees of asymmetry are more common in plants and animals that are exposed to high levels of radiation in their surroundings. Yushkova [55] found that the amount of developmental instability in all cases was higher in Chernobyl than in less contaminated (control) areas. Variations in the length of right and left morphological features, as well as variations in the number of leaflets on leaves on the right and left side of the symmetry axis noted by Zakharov and Krysanov [56].…”

Section: Effects Of Radiofrequency Radiations On Morphological and Ph...mentioning

confidence: 97%

Fragile Effects of Mobile Phone Emitted Radiations on Agricultural Growth and Ecological Systems

Husnain Gondal,

Ore Areche,

Soledad Porras-Roque

et al. 2023

RAS

View full text Add to dashboard Cite

Radiofrequency radiation effects the living things including humans and plants, have recently gained considerable attention. An important factor in the expansion of radiofrequency radiations is the globalization of telecommunications networks. Mobile phone towers in Pakistan have multiplied by a large number in the last few years. Increases in mobile tower construction and tower sharing pose a threat to local flora and fauna in both urban and rural locations. Few scientists searched; how mobile phone emitted radiations affect the yield of few crops. Research on how mobile radiofrequency radiations affect molecular structure, plant cell biology, ecology and biochemical composition is compiled in the current article. Furthermore, the present study sheds light on how electromagnetic radiation from 2G and 3G cells phone affects the germination process of important staple crops. New research reveals how radiofrequency radiation affects plant ecosystems' morphological and physiological properties. This review also emphasizes the importance of further collective and field-based empirical studies to determine the effect of mobile phone radiations on numerous plant species, which is necessary for developing effective preventative and mitigating measures.

show abstract

Section: Effects Of Radiofrequency Radiations On Morphological and Ph...mentioning

confidence: 97%

Fragile Effects of Mobile Phone Emitted Radiations on Agricultural Growth and Ecological Systems

Husnain Gondal,

Ore Areche,

Soledad Porras-Roque

et al. 2023

RAS

View full text Add to dashboard Cite

show abstract

“…Many regions (especially in Asia-Pacific and North America) will be under long-term low-intensity radiation ( Chen et al, 2021 ). The increase in ionizing radiation in ecosystems carries out various effects, such as population extinction, biodiversity reduction, and changes in ecosystem structure and function ( Geras’kin et al, 2008 ; Carolina et al, 2019 ; Mousseau and Møller, 2020 ; Elena, 2022 ). Especially in terrestrial ecosystems, there is a systematic correlation among plants, microorganisms, and soil.…”

Section: Introductionmentioning

confidence: 99%

Plant–microorganism–soil interaction under long-term low-dose ionizing radiation

Zeng,

Wen,

Luo

et al. 2024

Front. Microbiol.

View full text Add to dashboard Cite

As the environmental nuclear radiation pollution caused by nuclear-contaminated water discharge and other factors intensifies, more plant–microorganism–soil systems will be under long-term low-dose ionizing radiation (LLR). However, the regulatory mechanisms of the plant–microorganism–soil system under LLR are still unclear. In this study, we study a system that has been stably exposed to low-dose ionizing radiation for 10 years and investigate the response of the plant–microorganism–soil system to LLR based on the decay of the absorbed dose rate with distance. The results show that LLR affects the carbon and nitrogen migration process between plant–microorganism–soil through the “symbiotic microbial effect.” The increase in the intensity of ionizing radiation led to a significant increase in the relative abundance of symbiotic fungi, such as Ectomycorrhizal fungi and Rhizobiales, which is accompanied by a significant increase in soil lignin peroxidase (LiP) activity, the C/N ratio, and C%. Meanwhile, enhanced radiation intensity causes adaptive changes in the plant functional traits. This study demonstrates that the “symbiotic microbial effect” of plant–microorganism–soil systems is an important process in terrestrial ecosystems in response to LLR.

show abstract

Interaction effect of mutations in the genes (piwi and aub) of the Argonaute family and hobo transposons on the integral survival parameters of Drosophila melanogaster

Yushkova

2023

Biogerontology

View full text Add to dashboard Cite

Contribution of transposable elements to transgenerational effects of chronic radioactive exposure of natural populations of Drosophila melanogaster living for a long time in the zone of the Chernobyl nuclear disaster

Cited by 5 publications

References 114 publications

Fragile Effects of Mobile Phone Emitted Radiations on Agricultural Growth and Ecological Systems

Fragile Effects of Mobile Phone Emitted Radiations on Agricultural Growth and Ecological Systems

Plant–microorganism–soil interaction under long-term low-dose ionizing radiation

Interaction effect of mutations in the genes (piwi and aub) of the Argonaute family and hobo transposons on the integral survival parameters of Drosophila melanogaster

Contact Info

Product

Resources

About