Novel impacts of functionalized multi-walled carbon nanotubes in plants: promotion of nodulation and nitrogenase activity in the rhizobium-legume system.

@article{Yuan2017NovelIO,
  title={Novel impacts of functionalized multi-walled carbon nanotubes in plants: promotion of nodulation and nitrogenase activity in the rhizobium-legume system.},
  author={Zhaodong Yuan and Zhongming Zhang and Xiuping Wang and Li Li and Kai Cai and Heyou Han},
  journal={Nanoscale},
  year={2017},
  volume={9 28},
  pages={
          9921-9937
        }
}
The rhizobium-legume symbiosis system is critical for nitrogen-cycle balance in agriculture. However, the potential effects of carbon nanomaterials (CNMs) on this system remain largely unknown. Herein, we studied the effects of four carbon-based materials (activated carbon (AC), single-walled carbon nanotubes (SWCNTs), multi-walled carbon nanotubes (MWCNTs) and graphene oxide (GO)) on the rhizobium-legume symbiosis system consisting of Lotus japonicus and Mesorhizobium loti MAFF303099. Under… 
View on PubMed
rsc.org
25 Citations
Background Citations
3
Methods Citations
2

25 Citations

Citation Type

Citation Type

Toxicity and environmental impact of multi-walled carbon nanotubes to nitrogen-fixing bacterium Azotobacter chroococcum
Hydrogen sulfide promotes nodulation and nitrogen fixation in soybean-rhizobia symbiotic system
TLDR
It is demonstrated for the first time that H2S as a signaling molecule may promote the establishment of symbiotic relationship and nitrogen fixation ability in the soybean-rhizobia symbiotic system.
Effects of carbonaceous nanomaterials on soil-grown soybeans under combined heat and insect stresses.
TLDR
Overall, these results show that, while severe environmental stresses may impair plant production, CNMs (including CNTs and GNPs) in soil could additionally affect foliar health of an agriculturally important legume.
Hydrogen sulfide is a crucial element of the antioxidant defense system in Glycine max–Sinorhizobium fredii symbiotic root nodules
H2S is emerging as a signaling molecule involved in the regulation of many physiological processes in plants. Here, we investigated the potential antioxidant role of H2S in soybean (Glycine
Exploration of nano carbons in relevance to plant systems
TLDR
The cellular uptake, translocation, and accumulation of nano-carbons inside the plant, and their significant impacts on the plant physiological parameters are studied.
Carbon Nanotubes as Plant Growth Regulators: Prospects
Nanotechnology has contributed to agriculture for two decades as an advanced technology with excellent potential in the production systems. Under laboratory, greenhouse, and field conditions, a
Applications of carbon nanomaterials in the plant system: A perspective view on the pros and cons.
Discerning the mechanism of the multiwalled carbon nanotubes effect on root cell water and nutrient transport.
Tracking multi-walled carbon nanotubes inside oat (Avena sativa L.) plants and assessing their effect on growth, yield, and mammalian (human) cell viability
Our findings show that oxidized multi-walled carbon nanotubes (MWCNT) having serpent-like morphology and smaller sizes (diameter of 35 nm and lengths of 200–300 nm) are compatible with oat plant
Highly hydrophilic carbon nanoparticles: uptake mechanism by mammalian and plant cells
TLDR
The fluorescent carbon nanoparticles (FCNPs) were found to cross the cell membrane and enter cells (A549 cells and BY-2 cells) in an energy-dependent manner and will provide a fundamental understanding of the influence of CNPs on cell membrane.
...
1
2
3
...

References

SHOWING 1-10 OF 137 REFERENCES
Interfacing carbon nanotubes (CNT) with plants: enhancement of growth, water and ionic nutrient uptake in maize (Zea mays) and implications for nanoagriculture
The application of nano-biotechnology to crop-science/agriculture (‘nanoagriculture’) is a recent development. While carbon nanotubes (CNTs) have been shown to dramatically improve germination of
Effects of nano-ZnO on the agronomically relevant Rhizobium-legume symbiosis.
Multiwalled carbon nanotubes and c60 fullerenes differentially impact the accumulation of weathered pesticides in four agricultural plants.
TLDR
The data show that pesticide accumulation varies greatly with crop species and carbon nanomaterial type/concentration, and MWCNT coexposure decreased chlordane and DDx accumulation 21-80% across all crops, depending on species and nanotube concentration.
Carbon nanotubes induce growth enhancement of tobacco cells.
TLDR
It is demonstrated that multiwalled carbon nanotubes (MWCNTs) have the ability to enhance the growth of tobacco cell culture in a wide range of concentrations.
Legume growth-promoting rhizobia: an overview on the Mesorhizobium genus.
Asparagine as a major factor in the N-feedback regulation of N2 fixation in Medicago truncatula.
TLDR
The amount of amino acids was strongly increased in both phloem exudates and nodules of the treatments with downregulated nodule activity, and a possible role of asparagine in an N-feedback regulation of nitrogen fixation in M. truncatula is discussed.
Growth stimulation of gram (Cicer arietinum) plant by water soluble carbon nanotubes.
TLDR
Water soluble carbon nanotubes (wsCNTs) are shown to be non-toxic to plant cells that conserve water transport in plants, suggesting better water absorption and retention related to enhanced growth.
Carbon Nanomaterials in Agriculture: A Critical Review
TLDR
Evaluated studies with both positive and negative effects of different carbon nano-materials on terrestrial plants and associated soil-dwelling microbes highlight critical knowledge gaps, including the need for more soil-based investigations under environmentally relevant conditions.
N-feedback regulation is synchronized with nodule carbon alteration in Medicago truncatula under excessive nitrate or low phosphorus conditions.
The value of biodiversity in legume symbiotic nitrogen fixation and nodulation for biofuel and food production.
...
1
2
3
4
5
...