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radiation safety --- radiation protection --- radioactive contamination --- chernobyl accident --- medical exposure --- effective dose

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Ten years have passed since the nuclear accident occurred in Fukushima, Japan, following the Great East Japan earthquake. Thereafter, many people around the world have been concerned about the risks posed by radiation. They still believe that even a small amount of radiation exposure will affect human health. In reality, however, there are many natural radionuclides in the environment, which emit a variety of types of radiation. Although it is well known that there is a positively linear relationship between acute radiation exposure and cancer risk in atomic bomb survivors, the risk of chronic radiation exposure due to natural radionuclides cannot be well explained to people who have lived in high-background radiation areas for many generations. Therefore, more studies in this research field are required to obtain new scientific findings. In order to promote further scientific activities, it will be the best for us to understand the current status of this field by summarizing what we have apprehended so far. This Special Issue will highlight measurement data, methodologies, radiation biology, and risk assessment related to radiation.

Biography & True Stories --- air dose rate --- difficult-to-return zone --- evacuation order-lifted areas --- effective dose rate --- external exposure risk --- Fukushima Daiichi Nuclear Power Station accident --- living space --- radiocesium --- surface soil --- Tomioka town --- tritium monitoring --- fusion test facility --- deuterium plasma experiment --- monthly precipitation --- chemical composition --- Fukushima Daiichi Nuclear Power Plant --- strontium-90 --- cesium-137 --- seawater monitoring --- contaminated water --- dose assessment --- Japan --- bottled water --- guidance level --- WHO --- natural radionuclides --- artificial radionuclides --- effective dose --- ingestion --- passive radon monitor --- development --- sensitivity --- detection limit --- air-exchange rate --- total diet study --- radioactive cesium --- potassium-40 --- dietary intake --- Fukushima accident --- 222Rn progeny --- 220Rn progeny --- CR-39 --- equilibrium equivalent concentration --- deposition velocity --- thoron --- thoron progeny --- indoor environment --- measurement technique --- radioactivity --- residential exposure --- dose --- gamma radiation --- health risk --- radon mapping --- 226Ra --- 228Ra --- 238U --- well water --- radiological hazards --- REE and uranium mines --- northern Vietnam --- radon --- hot spring --- public health --- Namie Town --- cesium-134 --- external exposure dose evaluation --- radon concentration --- groundwater --- residence time --- limestone aquifer --- Okinawa Island --- indoor --- environment --- nationwide survey --- SSNTD --- radon potential map --- geography information systems --- geology --- risk --- exhalation rate --- long-term measurement --- seasonal variation --- Fukushima --- free-roaming cat --- reproductive organ --- internal contamination

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The quality of drinking water is paramount for public health. Despite important improvements in the last decades, access to safe drinking water is not universal. The World Health Organization estimates that almost 10% of the population in the world do not have access to improved drinking water sources. Among other diseases, waterborne infections cause diarrhea, which kills nearly one million people every year, mostly children under 5 years of age. On the other hand, chemical pollution is a concern in high-income countries and an increasing problem in low- and middle-income countries. Exposure to chemicals in drinking water may lead to a range of chronic non-communicable diseases (e.g., cancer, cardiovascular disease), adverse reproductive outcomes, and effects on children’s health (e.g., neurodevelopment), among other health effects. Although drinking water quality is regulated and monitored in many countries, increasing knowledge leads to the need for reviewing standards and guidelines on a nearly permanent basis, both for regulated and newly identified contaminants. Drinking water standards are mostly based on animal toxicity data, and more robust epidemiologic studies with accurate exposure assessment are needed. The current risk assessment paradigm dealing mostly with one-by-one chemicals dismisses the potential synergisms or interactions from exposures to mixtures of contaminants, particularly at the low-exposure range. Thus, evidence is needed on exposure and health effects of mixtures of contaminants in drinking water. Finally, water stress and water quality problems are expected to increase in the coming years due to climate change and increasing water demand by population growth, and new evidence is needed to design appropriate adaptation policies.This Special Issue of International Journal of Environmental Research and Public Health (IJERPH) focuses on the current state of knowledge on the links between drinking water quality and human health.

risk assessment --- time series study --- risk context --- ammonia --- fluoride --- exposure assessment --- water safety plan --- HWTS implementation --- human health --- simulation study --- drinking water guidance --- chlorination by-product --- adverse reproductive outcomes --- spatial variations --- THMs --- zinc --- radioactivity --- thyroid disease --- risk management --- infants --- water contamination --- infant health --- small for gestational age --- drinking water quality --- methemoglobinemia --- magnesium --- monitoring --- effect measure modification --- nitrite --- health-based guideline --- environmental exposure --- organic matter --- Maryland --- tap water --- impact assessment --- turbidity --- chronic kidney disease --- fever --- diarrhoeal disease --- rural water resources --- drinking water --- acute gastroenteritis --- Nigeria --- E. coli --- pharmacokinetic modeling --- chemical risk assessment --- uncertainty factors --- community water system --- groundwater --- dental health --- inorganic manganese --- atrazine --- duration extrapolation --- health insurance data --- space–time detection --- seasonality --- fecal coliforms --- water safety plans --- preterm birth --- dissolved oxygen --- gravity-fed piped water scheme --- urban area --- cough --- water operation data --- screening method --- endogenous nitrosation --- infant exposure --- sanitary inspection --- waterborne disease outbreak --- N-nitroso compounds --- end-stage renal disease --- arsenic --- diarrhea --- sodium --- private wells --- animal feeding operation --- endocrine disruptor --- Vibrio pathogens --- LTD --- disinfection by-product --- chemical oxygen demand --- potassium --- biomonitoring --- nitrate --- annual effective dose --- sub-Saharan Africa --- France --- carcinogenic --- public health --- enterococci --- calcium --- water and sanitation --- pharmaceuticals --- environment --- drinking water distribution systems --- water contaminants --- Asia-Pacific region --- Denmark --- trihalomethanes --- risk --- cancer --- low birth weight --- drug labels --- risk assessment --- time series study --- risk context --- ammonia --- fluoride --- exposure assessment --- water safety plan --- HWTS implementation --- human health --- simulation study --- drinking water guidance --- chlorination by-product --- adverse reproductive outcomes --- spatial variations --- THMs --- zinc --- radioactivity --- thyroid disease --- risk management --- infants --- water contamination --- infant health --- small for gestational age --- drinking water quality --- methemoglobinemia --- magnesium --- monitoring --- effect measure modification --- nitrite --- health-based guideline --- environmental exposure --- organic matter --- Maryland --- tap water --- impact assessment --- turbidity --- chronic kidney disease --- fever --- diarrhoeal disease --- rural water resources --- drinking water --- acute gastroenteritis --- Nigeria --- E. coli --- pharmacokinetic modeling --- chemical risk assessment --- uncertainty factors --- community water system --- groundwater --- dental health --- inorganic manganese --- atrazine --- duration extrapolation --- health insurance data --- space–time detection --- seasonality --- fecal coliforms --- water safety plans --- preterm birth --- dissolved oxygen --- gravity-fed piped water scheme --- urban area --- cough --- water operation data --- screening method --- endogenous nitrosation --- infant exposure --- sanitary inspection --- waterborne disease outbreak --- N-nitroso compounds --- end-stage renal disease --- arsenic --- diarrhea --- sodium --- private wells --- animal feeding operation --- endocrine disruptor --- Vibrio pathogens --- LTD --- disinfection by-product --- chemical oxygen demand --- potassium --- biomonitoring --- nitrate --- annual effective dose --- sub-Saharan Africa --- France --- carcinogenic --- public health --- enterococci --- calcium --- water and sanitation --- pharmaceuticals --- environment --- drinking water distribution systems --- water contaminants --- Asia-Pacific region --- Denmark --- trihalomethanes --- risk --- cancer --- low birth weight --- drug labels

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• Reference Manager
• EndNote
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The quality of drinking water is paramount for public health. Despite important improvements in the last decades, access to safe drinking water is not universal. The World Health Organization estimates that almost 10% of the population in the world do not have access to improved drinking water sources. Among other diseases, waterborne infections cause diarrhea, which kills nearly one million people every year, mostly children under 5 years of age. On the other hand, chemical pollution is a concern in high-income countries and an increasing problem in low- and middle-income countries. Exposure to chemicals in drinking water may lead to a range of chronic non-communicable diseases (e.g., cancer, cardiovascular disease), adverse reproductive outcomes, and effects on children’s health (e.g., neurodevelopment), among other health effects. Although drinking water quality is regulated and monitored in many countries, increasing knowledge leads to the need for reviewing standards and guidelines on a nearly permanent basis, both for regulated and newly identified contaminants. Drinking water standards are mostly based on animal toxicity data, and more robust epidemiologic studies with accurate exposure assessment are needed. The current risk assessment paradigm dealing mostly with one-by-one chemicals dismisses the potential synergisms or interactions from exposures to mixtures of contaminants, particularly at the low-exposure range. Thus, evidence is needed on exposure and health effects of mixtures of contaminants in drinking water. Finally, water stress and water quality problems are expected to increase in the coming years due to climate change and increasing water demand by population growth, and new evidence is needed to design appropriate adaptation policies.This Special Issue of International Journal of Environmental Research and Public Health (IJERPH) focuses on the current state of knowledge on the links between drinking water quality and human health.

risk assessment --- time series study --- risk context --- ammonia --- fluoride --- exposure assessment --- water safety plan --- HWTS implementation --- human health --- simulation study --- drinking water guidance --- chlorination by-product --- adverse reproductive outcomes --- spatial variations --- THMs --- zinc --- radioactivity --- thyroid disease --- risk management --- infants --- water contamination --- infant health --- small for gestational age --- drinking water quality --- methemoglobinemia --- magnesium --- monitoring --- effect measure modification --- nitrite --- health-based guideline --- environmental exposure --- organic matter --- Maryland --- tap water --- impact assessment --- turbidity --- chronic kidney disease --- fever --- diarrhoeal disease --- rural water resources --- drinking water --- acute gastroenteritis --- Nigeria --- E. coli --- pharmacokinetic modeling --- chemical risk assessment --- uncertainty factors --- community water system --- groundwater --- dental health --- inorganic manganese --- atrazine --- duration extrapolation --- health insurance data --- space–time detection --- seasonality --- fecal coliforms --- water safety plans --- preterm birth --- dissolved oxygen --- gravity-fed piped water scheme --- urban area --- cough --- water operation data --- screening method --- endogenous nitrosation --- infant exposure --- sanitary inspection --- waterborne disease outbreak --- N-nitroso compounds --- end-stage renal disease --- arsenic --- diarrhea --- sodium --- private wells --- animal feeding operation --- endocrine disruptor --- Vibrio pathogens --- LTD --- disinfection by-product --- chemical oxygen demand --- potassium --- biomonitoring --- nitrate --- annual effective dose --- sub-Saharan Africa --- France --- carcinogenic --- public health --- enterococci --- calcium --- water and sanitation --- pharmaceuticals --- environment --- drinking water distribution systems --- water contaminants --- Asia-Pacific region --- Denmark --- trihalomethanes --- risk --- cancer --- low birth weight --- drug labels