2018
DOI: 10.1667/rr15083.1
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Fruit Flies Provide New Insights in Low-Radiation Background Biology at the INFN Underground Gran Sasso National Laboratory (LNGS)

Abstract: Deep underground laboratories (DULs) were originally created to host particle, astroparticle or nuclear physics experiments requiring a low-background environment with vastly reduced levels of cosmic-ray particle interference. More recently, the range of science projects requiring an underground experiment site has greatly expanded, thus leading to the recognition of DULs as truly multidisciplinary science sites that host important studies in several fields, including geology, geophysics, climate and environme… Show more

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Cited by 22 publications
(26 citation statements)
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“…This point was initially and reasonably brought up by Washington University's Jonathan Katz ( 62 ), and, in our response to his critique in which we agreed with his calculations, we posited the idea that biological “sensors” rival our most sensitive radiation detection instruments [Castillo and Smith response to Professor Katz, Castillo et al ( 63 )]. And, in agreement with the Morciano et al ( 20 ) work with Drosophila underground at Italy's Gran Sasso lab, we provide further evidence that multicellular organisms are also capable of responding to these vanishingly low differences in radiation fields. These results and those coming from other deep underground laboratories provide impetus to document the mechanisms in single-celled prokaryotes and multi-celled eukaryotes of the response to these minute differences in ionizing radiation and to identify the organismal response apparatus.…”
Section: Discussionsupporting
confidence: 91%
See 1 more Smart Citation
“…This point was initially and reasonably brought up by Washington University's Jonathan Katz ( 62 ), and, in our response to his critique in which we agreed with his calculations, we posited the idea that biological “sensors” rival our most sensitive radiation detection instruments [Castillo and Smith response to Professor Katz, Castillo et al ( 63 )]. And, in agreement with the Morciano et al ( 20 ) work with Drosophila underground at Italy's Gran Sasso lab, we provide further evidence that multicellular organisms are also capable of responding to these vanishingly low differences in radiation fields. These results and those coming from other deep underground laboratories provide impetus to document the mechanisms in single-celled prokaryotes and multi-celled eukaryotes of the response to these minute differences in ionizing radiation and to identify the organismal response apparatus.…”
Section: Discussionsupporting
confidence: 91%
“…Castillo et al ( 17 19 ) have documented a stress response in two bacterial species within 48 h of being brought underground and grown in the absence of normal radiation levels. Morciano et al ( 20 ) were the first group to document these effects in a multi-cellular organism ( Drosophila) , with reduced radiation causing a 30% reduction in fertility in males and females, while also causing an increase in life span.…”
Section: Introductionmentioning
confidence: 99%
“…Due to the shielding effect of overburden, the underground space environment, especially the deep underground, exists in a state of low background radiation (79). In the past few decades, several deep underground laboratories have focused on the influence of low background radiation on living organisms (76,78,(80)(81)(82)(83)(84)(85)(86)(87)(88). Among these, most have observed oxidative stress in living organisms exposed to low background radiation.…”
Section: Underground Low Background Radiation Environment and Oxidatimentioning
confidence: 99%
“…More recently, the PULEX-COSMIC SILENCE experiments get more insight into the role of environmental radiation in the biological response of different in vitro mammalian cellular systems of rodent (7-9) and human origin (10,11). In 2018, we obtained the first evidence of the influence of environmental radiation on the response of a complex organism, namely Drosophila melanogaster (12,13).…”
Section: Introductionmentioning
confidence: 99%