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Literature DB >> 19027204

Interception of dry and wet deposited radionuclides by vegetation.

Abstract

Interception of dry and wet deposited radionuclides by vegetation is a key process in radioecological models that assess ingestion doses to the population following releases of radionuclides to the atmosphere. Radionuclides may be deposited during precipitation or as dry particles. Interception of wet deposited radionuclides is the result of a complex interaction of the vegetative development of the plant canopy, the amount of rainfall, and the chemical form of radionuclides. For the interception of dry deposits, particle size is a key parameter; interception is more effective for small particles and reactive gases. Due to the dependence on plant development, interception of both dry and wet deposits is subject to pronounced seasonality.

Entities: Chemical Disease

Mesh：

Substances：
Radioisotopes

Year: 2008 PMID： 19027204 DOI： 10.1016/j.jenvrad.2008.10.006

Source DB: PubMed Journal: J Environ Radioact ISSN： 0265-931X Impact factor: 2.674

Keyword Cloud
Cited

7 in total

1. The contribution of soil adhesion to radiocaesium uptake by leafy vegetables.

Authors: E C Amaral; H G Paretzke; M J Campos; M A Pires do Rio; M Franklin
Journal: Radiat Environ Biophys Date: 1994 Impact factor: 1.925

2. Parameter Values for Estimation of Internal Doses from Ingestion of Radioactive Fallout from Nuclear Detonations.

Authors: Kathleen M Thiessen; F Owen Hoffman; André Bouville; Lynn R Anspaugh; Harold L Beck; Steven L Simon
Journal: Health Phys Date: 2022-01-01 Impact factor: 1.316

3. A Methodology for Calculation of Internal Dose Following Exposure to Radioactive Fallout from the Detonation of a Nuclear Fission Device.

Authors: Lynn R Anspaugh; André Bouville; Kathleen M Thiessen; F Owen Hoffman; Harold L Beck; Konstantin I Gordeev; Steven L Simon
Journal: Health Phys Date: 2022-01-01 Impact factor: 1.316

4. Evaluation of ¹³¹I transfer in the environment based on the available measurements made in Belarus after the Chernobyl accident.

Authors: Victor Minenko; Tatiana Kukhta; Sergey Trofimik; Olga Zhukova; Marina Podgaiskaya; Kiryl Viarenich; André Bouville; Vladimir Drozdovitch
Journal: J Environ Radioact Date: 2022-05-31 Impact factor: 2.655

Review 5. Release, deposition and elimination of radiocesium ((137)Cs) in the terrestrial environment.

Authors: Muhammad Aqeel Ashraf; Ayesha Masood Khan; Mushtaq Ahmad; Shatirah Akib; Khaled S Balkhair; Nor Kartini Abu Bakar
Journal: Environ Geochem Health Date: 2014-05-08 Impact factor: 4.609

6. Thyroid dose estimates for a cohort of Belarusian children exposed to radiation from the Chernobyl accident.

Authors: Vladimir Drozdovitch; Victor Minenko; Valeri Khrouch; Svetlana Leshcheva; Yury Gavrilin; Arkady Khrutchinsky; Tatiana Kukhta; Semion Kutsen; Nickolas Luckyanov; Sergey Shinkarev; Sergey Tretyakevich; Sergey Trofimik; Paul Voillequé; André Bouville
Journal: Radiat Res Date: 2013-04-05 Impact factor: 2.841

7. Simultaneous simulations of uptake in plants and leaching to groundwater of cadmium and lead for arable land amended with compost or farmyard manure.

Authors: Charlotte N Legind; Arno Rein; Jeanne Serre; Violaine Brochier; Claire-Sophie Haudin; Philippe Cambier; Sabine Houot; Stefan Trapp
Journal: PLoS One Date: 2012-10-04 Impact factor: 3.240