Add to ORKGThe modern environmental and biological approaches to the selection of field agricultural crops for cultivation at contaminated areas are considered. It is established that the satiation of rotations with agricultural crops differed by potentially low capacity to accumulate 13Cs can significantly extend the areal of radioactively contaminated lands use for the production of safe products. The influence of arbuscular mycorrhizal fungi on radiocaesium uptake by plants is analyzed. The ability of arbuscular mycorrhiza to modify significantly radiocaesium accumulation by agricultural crops is found
Micro-organisms have a significant influence on the fate of radionuclides (RN) in terrestrial ecosys...
A field study was conducted to investigate the potential of three plant species for phytoremediation...
Reports of high concentrations of fallout radiocaesium in basidiomycete fruit bodies after the Chern...
Numerous soils have been contaminated by radiocaesium (Cs) as a result of nuclear weapon testing and...
Because plants significantly affect radionuclides (RN) cycling and further dispersion into the biosp...
Because plants significantly affect radionuclides (RN) cycling and further dispersion into the biosp...
This review summarizes current knowledge on the contribution of mycorrhizal fungi to radiocesium imm...
The role of arbuscular mycorrhizal fungi (AMF) in plant radiocesium uptake and accumulation remains ...
Abstract: This paper presents a review of the behaviour of radiocesium in plants of forest ecosystem...
Soil fungi accumulate radiocaesium from contaminated soil and it has been hypothesised that this may...
This paper presents a review of the behaviour of radiocesium in plants of forest ecosystems, based o...
The use of plants to accumulate low level radioactive waste from soil, followed by incineration of p...
Radiocesium (Cs) is released in the environment from weapon testing and accidents such as the Cherno...
Potential for phytoremediation of an aged radiocesium-contaminated soil from Brookhaven National Lab...
Environmental contamination with radionuclides is a growing problem in many places all over the worl...
Micro-organisms have a significant influence on the fate of radionuclides (RN) in terrestrial ecosys...
A field study was conducted to investigate the potential of three plant species for phytoremediation...
Reports of high concentrations of fallout radiocaesium in basidiomycete fruit bodies after the Chern...
Numerous soils have been contaminated by radiocaesium (Cs) as a result of nuclear weapon testing and...
Because plants significantly affect radionuclides (RN) cycling and further dispersion into the biosp...
Because plants significantly affect radionuclides (RN) cycling and further dispersion into the biosp...
This review summarizes current knowledge on the contribution of mycorrhizal fungi to radiocesium imm...
The role of arbuscular mycorrhizal fungi (AMF) in plant radiocesium uptake and accumulation remains ...
Abstract: This paper presents a review of the behaviour of radiocesium in plants of forest ecosystem...
Soil fungi accumulate radiocaesium from contaminated soil and it has been hypothesised that this may...
This paper presents a review of the behaviour of radiocesium in plants of forest ecosystems, based o...
The use of plants to accumulate low level radioactive waste from soil, followed by incineration of p...
Radiocesium (Cs) is released in the environment from weapon testing and accidents such as the Cherno...
Potential for phytoremediation of an aged radiocesium-contaminated soil from Brookhaven National Lab...
Environmental contamination with radionuclides is a growing problem in many places all over the worl...
Micro-organisms have a significant influence on the fate of radionuclides (RN) in terrestrial ecosys...
A field study was conducted to investigate the potential of three plant species for phytoremediation...
Reports of high concentrations of fallout radiocaesium in basidiomycete fruit bodies after the Chern...