A land surface 14C transfer model and numerical experiments on belowground 14C accumulation and its impact on vegetation 14C level
Author:
Publisher
Elsevier BV
Subject
Health, Toxicology and Mutagenesis,Pollution,Waste Management and Disposal,General Medicine,Environmental Chemistry
Reference62 articles.
1. Seasonal and diurnal changes in the water contents and water deficits of Bartlett pear leaves;Ackley;Plant Physiol.,1954
2. Assimilation and distribution of 14C photosynthate in oilseed rape (Brassica Napus L.);Addo-Quaye;Field Crops Res.,1986
3. Differences in water relations and physiological characteristics in leaves of wheat associated with leaf position on the plant;Aggarwal;Plant Physiol.,1984
4. Relations between radiation fluxes of a greenhouse in semi-arid conditions;Al-Riahi;Agric. For. Meteorol.,1989
5. Relative importance of atmospheric and root uptake pathways for 14CO2 transfer from contaminated soil to plant;Amiro;Health Phys.,1991
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1. Development of a carbon accumulation model for estimating the concentration of 14C in Japanese radish;Journal of Nuclear Science and Technology;2022-09-18
2. In situ experimental exposure of fruit-bearing shoots of apple trees to 13CO2 and construction of a dynamic transfer model of carbon;Journal of Environmental Radioactivity;2021-07
3. Reproducibility of CO2 Absorption Method for measurement of Radiocarbon using a PARR Bomb and LSC;Radiocarbon;2019-08-14
4. Importance of root uptake of 14CO2 on 14C transfer to plants impacted by below-ground 14CH4 release;Journal of Environmental Radioactivity;2019-05
5. Impacts of C-uptake by plants on the spatial distribution of 14 C accumulated in vegetation around a nuclear facility—Application of a sophisticated land surface 14 C model to the Rokkasho reprocessing plant, Japan;Journal of Environmental Radioactivity;2016-10
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