NATURAL RADIOACTIVITY AND RADIOLOGICAL HAZARD FOR HUMANS: A SIMPLE INTRODUCTION FOR NEWBIES AND STUDENTS. NEW PERSPECTIVES AND INNOVATIVE TEACHING METHODS
Author(s)
Language
English
Obiettivo Specifico
7SR AMBIENTE – Servizi e ricerca per la società
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Issue/vol(year)
S1/99 (2021)
Pages (printed)
A39
Date Issued
2021
Abstract
Pollution due to natural radioactivity is still a poorly known topic among
young people. This paper describes the contents for an introductive university course or
lecture conceived in a multitask program. Along with a so-called “flipped” configuration,
where students are able to receive didactic materials prior to face-to-face lessons, multimedia
contents should be shown to the students, who are at first faced with known anthropogenic
accidents. Moreover, field and laboratory experimental activities can provide further insight
regarding the radiological assessment strategies. Here, the most important principles and
effects concerning the radioactive decay of naturally occurring radionuclides are described.
The greatest part of natural radioactivity derives from terrestrial radionuclides occurring in
soil and rocks. The radionuclides are atoms characterized by an excess of nuclear energy,
which makes them unstable giving rise to decay. The radionuclides emit gamma rays, as
well as alpha and/or beta particles. People are constantly subjected to indoor and outdoor
exposure due to natural radioactivity. The possible sources can be considered as external
due to natural sources located outside the human body, and internal provoked by ingestion
or inhalation of radionuclides. The indoor exposure from natural sources is mainly related
to radiation from building materials and to radon entering buildings from soils and rocks
though cracks in walls and floor. The outdoor exposure mainly accounts for the terrestrial
gamma radiation that crosses the soil-air interface, and for the radon emitted from soils
in seismic and volcanic areas. In this regard, there is a strong relationship between health
diseases (e.g. cancer, necrosis and DNA and RNA modifications) and high-levels of natural
radioactivity. For this reason, the radiological assessment of the most vulnerable areas
represents a key point in order to mitigate hazard and risk connected to the human exposure
to natural radioactivity.
young people. This paper describes the contents for an introductive university course or
lecture conceived in a multitask program. Along with a so-called “flipped” configuration,
where students are able to receive didactic materials prior to face-to-face lessons, multimedia
contents should be shown to the students, who are at first faced with known anthropogenic
accidents. Moreover, field and laboratory experimental activities can provide further insight
regarding the radiological assessment strategies. Here, the most important principles and
effects concerning the radioactive decay of naturally occurring radionuclides are described.
The greatest part of natural radioactivity derives from terrestrial radionuclides occurring in
soil and rocks. The radionuclides are atoms characterized by an excess of nuclear energy,
which makes them unstable giving rise to decay. The radionuclides emit gamma rays, as
well as alpha and/or beta particles. People are constantly subjected to indoor and outdoor
exposure due to natural radioactivity. The possible sources can be considered as external
due to natural sources located outside the human body, and internal provoked by ingestion
or inhalation of radionuclides. The indoor exposure from natural sources is mainly related
to radiation from building materials and to radon entering buildings from soils and rocks
though cracks in walls and floor. The outdoor exposure mainly accounts for the terrestrial
gamma radiation that crosses the soil-air interface, and for the radon emitted from soils
in seismic and volcanic areas. In this regard, there is a strong relationship between health
diseases (e.g. cancer, necrosis and DNA and RNA modifications) and high-levels of natural
radioactivity. For this reason, the radiological assessment of the most vulnerable areas
represents a key point in order to mitigate hazard and risk connected to the human exposure
to natural radioactivity.
Type
article
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Romano D. et al. Atti della Accademia Peloritana dei Pericolanti_2021.pdf
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Open Access published article
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