Record ID No. |
881 |
Author(s) |
Ambe S. , 2005 |
Affiliation |
RIKEN (The Institute of Physical and Chemical Research), Wako, Saitama 351-0198, Japan. |
Title |
Multitracer study on the uptake of trace elements and their translocation in plants |
Source. Vol.(no):Page |
Current Topics in Plant Biology. 6: 1-12p. |
Categories |
Ectomycorrhiza |
Subjects |
Reviews |
Host |
Glycine max, Dacus carota, Brassica campestris, erythrosora, Oryza sativa |
Organism |
Pyricularia oryzae, Hebeloma vinosophyllum, Coprinus phlyctidosporus |
Country |
Japan, Asia |
Abstracts |
This review describes the multitracer technique, and its applications in the study of the uptake and translocation of trace elements and radionuclides in plants. The following are briefly covered: transport of radionuclides in rice and soyabean; foliar uptake of radionuclides, transcuticular translocation of radionuclides on leaf surfaces; mobility of radionuclides in soyabean; effects of soil acidity on the uptake of trace elements; effect of Al on the uptake of trace elements from a solution by carrot; binding affinity of trace elements to an apoplast protein of soyabean roots in the presence of Al; effects of Zn on the uptake of various elements by carrot; effects of ionic valence of interacting elements on the uptake of trace eelements by carrot; competitive inhibition and selectivity enhancement by Ca of the uptake of inorganic elements by carrot; ion competition effects on the absorption of radionuclides by komatsuna [Brassica campestris]; beneficial effects of lanthanoid on the growth of Dryopteris erythrosora; mechanism of uptake of Y and lanthanoid by autumn fern; soil to plant transfer of radionuclides in komatsuna; rate of radionuclide uptake by maturing soyabean plants; subcellular distribution of radionuclides in soyabean and cucumber; uptake of trace elements by rice inoculated with Pyricularia oryzae; uptake of trace elements in arbuscular mycorrhiza-associated marigold (Tagetes patula); effects of microorganisms on the uptake of radionuclides by plants; uptake of radionuclides by rice from a silica-multitracer solution system; effects of humic acid on the bioavailability of radionuclides to rice; accumulation of radionuclides in macrofungi (Hebeloma vinosophyllum and Coprinus phlyctidosporus [Coprinopsis phlyctidospora]); screening of plant species for phytoremediation of soil contaminated with radionuclides; translocation of radionuclides into organs of tomato via the roots; bio-sorption of radionuclides by algae; and separation of TI from Hg and Pb by algae.. |