Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture

Research output: Contribution to journalSpecial issue

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Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture. / Dercon, Gerd; Blackburn, Carl; Onda, Yuichi; Shinano, Takuro; Sweeck, Lieve; Lee Zhi Yi, Amelia; Fesenko, Sergey.

In: Journal of environmental radioactivity, Vol. 218, 106174, 26.03.2020.

Research output: Contribution to journalSpecial issue

Harvard

Dercon, G, Blackburn, C, Onda, Y, Shinano, T, Sweeck, L, Lee Zhi Yi, A & Fesenko, S 2020, 'Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture', Journal of environmental radioactivity, vol. 218, 106174. https://doi.org/10.1016/j.jenvrad.2020.106174

APA

Dercon, G., Blackburn, C., Onda, Y., Shinano, T., Sweeck, L., Lee Zhi Yi, A., & Fesenko, S. (2020). Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture. Journal of environmental radioactivity, 218, [106174]. https://doi.org/10.1016/j.jenvrad.2020.106174

Vancouver

Dercon G, Blackburn C, Onda Y, Shinano T, Sweeck L, Lee Zhi Yi A et al. Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture. Journal of environmental radioactivity. 2020 Mar 26;218. 106174. https://doi.org/10.1016/j.jenvrad.2020.106174

Author

Dercon, Gerd ; Blackburn, Carl ; Onda, Yuichi ; Shinano, Takuro ; Sweeck, Lieve ; Lee Zhi Yi, Amelia ; Fesenko, Sergey. / Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture. In: Journal of environmental radioactivity. 2020 ; Vol. 218.

Bibtex - Download

@article{32f1ac720aeb4050b9a984af560feac7,
title = "Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture",
abstract = "Most available radioactivity measurement methods and protocols focus on the implementation of high-precision and high-accuracy sampling and analysis without emphasing on how to deal with large-scale emergencies characterized by high volumes of samples and analyses. There is therefore a need for guidelines in case of a nuclear emergency affecting food and agriculture, as resources for implementing radioactivity monitoring, such as sample collectors and laboratory facilities, may be limited and immediacy is needed in decision-making. This special issue in the Journal of Environmental Radioactivity includes 11 papers and it provides background information, as well as generic non-country specific guidance about approaches for sampling and analysing soils, plants and food to scientists, policy-makers and decision makers at different stages of the response phase during and after the nuclear emergency. This special issue is intended to promote standardized and efficient techniques in supporting large scale emergency response in food and agriculture. Specifically, it will provide past studies and best practise examples on collecting samples, as well as promote future outlook and guidance on innovative methods such as converting airdose rate to radioactivity values. The work was conducted under the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, funded under an IAEA Coordinated Research Project (CRP) on “Response to Nuclear Emergency affecting Food and Agriculture” (CRP D1.50.15), from 2013 to 2019. The development of these guidelines fulfils the Joint FAO/IAEA Division mandate in preparedness and response to nuclear and radiological emergencies affecting food and agriculture, that is to promote the management of intra- and interagency emergency preparedness and response to nuclear accidents and radiological events affecting food and agriculture, including in the application of agricultural countermeasures. The Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture is grateful for the contribution of all Member States involved in this CRP. In particular, the invaluable comments of the peer reviewers, as well as the feedback from the editors of this special issue, Nick Beresford, Steve Sheppard, Sergey Fesenko and Yuichi Onda are very much appreciated. The IAEA technical officers responsible for this publication are Gerd Dercon and Amelia Lee Zhi Yi.",
keywords = "Analysis, Large-scale emergencies, Sampling, Guidelines, Soils",
author = "Gerd Dercon and Carl Blackburn and Yuichi Onda and Takuro Shinano and Lieve Sweeck and {Lee Zhi Yi}, Amelia and Sergey Fesenko",
note = "Score=10",
year = "2020",
month = "3",
day = "26",
doi = "10.1016/j.jenvrad.2020.106174",
language = "English",
volume = "218",
journal = "Journal of environmental radioactivity",
issn = "0265-931X",
publisher = "Elsevier",

}

RIS - Download

TY - JOUR

T1 - Sampling, analysis and modelling technologies for large-scale nuclear emergencies affecting food and agriculture

AU - Dercon, Gerd

AU - Blackburn, Carl

AU - Onda, Yuichi

AU - Shinano, Takuro

AU - Sweeck, Lieve

AU - Lee Zhi Yi, Amelia

AU - Fesenko, Sergey

N1 - Score=10

PY - 2020/3/26

Y1 - 2020/3/26

N2 - Most available radioactivity measurement methods and protocols focus on the implementation of high-precision and high-accuracy sampling and analysis without emphasing on how to deal with large-scale emergencies characterized by high volumes of samples and analyses. There is therefore a need for guidelines in case of a nuclear emergency affecting food and agriculture, as resources for implementing radioactivity monitoring, such as sample collectors and laboratory facilities, may be limited and immediacy is needed in decision-making. This special issue in the Journal of Environmental Radioactivity includes 11 papers and it provides background information, as well as generic non-country specific guidance about approaches for sampling and analysing soils, plants and food to scientists, policy-makers and decision makers at different stages of the response phase during and after the nuclear emergency. This special issue is intended to promote standardized and efficient techniques in supporting large scale emergency response in food and agriculture. Specifically, it will provide past studies and best practise examples on collecting samples, as well as promote future outlook and guidance on innovative methods such as converting airdose rate to radioactivity values. The work was conducted under the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, funded under an IAEA Coordinated Research Project (CRP) on “Response to Nuclear Emergency affecting Food and Agriculture” (CRP D1.50.15), from 2013 to 2019. The development of these guidelines fulfils the Joint FAO/IAEA Division mandate in preparedness and response to nuclear and radiological emergencies affecting food and agriculture, that is to promote the management of intra- and interagency emergency preparedness and response to nuclear accidents and radiological events affecting food and agriculture, including in the application of agricultural countermeasures. The Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture is grateful for the contribution of all Member States involved in this CRP. In particular, the invaluable comments of the peer reviewers, as well as the feedback from the editors of this special issue, Nick Beresford, Steve Sheppard, Sergey Fesenko and Yuichi Onda are very much appreciated. The IAEA technical officers responsible for this publication are Gerd Dercon and Amelia Lee Zhi Yi.

AB - Most available radioactivity measurement methods and protocols focus on the implementation of high-precision and high-accuracy sampling and analysis without emphasing on how to deal with large-scale emergencies characterized by high volumes of samples and analyses. There is therefore a need for guidelines in case of a nuclear emergency affecting food and agriculture, as resources for implementing radioactivity monitoring, such as sample collectors and laboratory facilities, may be limited and immediacy is needed in decision-making. This special issue in the Journal of Environmental Radioactivity includes 11 papers and it provides background information, as well as generic non-country specific guidance about approaches for sampling and analysing soils, plants and food to scientists, policy-makers and decision makers at different stages of the response phase during and after the nuclear emergency. This special issue is intended to promote standardized and efficient techniques in supporting large scale emergency response in food and agriculture. Specifically, it will provide past studies and best practise examples on collecting samples, as well as promote future outlook and guidance on innovative methods such as converting airdose rate to radioactivity values. The work was conducted under the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, funded under an IAEA Coordinated Research Project (CRP) on “Response to Nuclear Emergency affecting Food and Agriculture” (CRP D1.50.15), from 2013 to 2019. The development of these guidelines fulfils the Joint FAO/IAEA Division mandate in preparedness and response to nuclear and radiological emergencies affecting food and agriculture, that is to promote the management of intra- and interagency emergency preparedness and response to nuclear accidents and radiological events affecting food and agriculture, including in the application of agricultural countermeasures. The Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture is grateful for the contribution of all Member States involved in this CRP. In particular, the invaluable comments of the peer reviewers, as well as the feedback from the editors of this special issue, Nick Beresford, Steve Sheppard, Sergey Fesenko and Yuichi Onda are very much appreciated. The IAEA technical officers responsible for this publication are Gerd Dercon and Amelia Lee Zhi Yi.

KW - Analysis

KW - Large-scale emergencies

KW - Sampling

KW - Guidelines

KW - Soils

UR - https://ecm.sckcen.be/OTCS/llisapi.dll/open/38886660

U2 - 10.1016/j.jenvrad.2020.106174

DO - 10.1016/j.jenvrad.2020.106174

M3 - Special issue

VL - 218

JO - Journal of environmental radioactivity

JF - Journal of environmental radioactivity

SN - 0265-931X

M1 - 106174

ER -

ID: 6824234