2015
DOI: 10.1088/1757-899x/98/1/012004
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Effect of platinum nanoparticles on morphological parameters of spring wheat seedlings in a substrate-plant system

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Cited by 9 publications
(9 citation statements)
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“…Judging by the data reported in the literature, there is generally a positive correlation between phenolics content and plant exposure to Ag-NPs, in our case such a relationship was revealed at higher Ag-NPs concentrations. In the present experiment we also observed an increase in phenolics content due to 40 ppm Pt-NPs application; Astafurova et al [29] found that treatment of wheat seedlings with Pt-NPs led to an increase in flavonoids contentdepending on the type of soil in which the plants grew, this increase even reached 40% compared to the control. Mirzajani et al [25] observed a significant increase in carotenoids content in rice shoots when plants were treated with 60 mg L − 1 Ag-NPs, which is consistent with our data.…”
Section: Resultssupporting
confidence: 79%
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“…Judging by the data reported in the literature, there is generally a positive correlation between phenolics content and plant exposure to Ag-NPs, in our case such a relationship was revealed at higher Ag-NPs concentrations. In the present experiment we also observed an increase in phenolics content due to 40 ppm Pt-NPs application; Astafurova et al [29] found that treatment of wheat seedlings with Pt-NPs led to an increase in flavonoids contentdepending on the type of soil in which the plants grew, this increase even reached 40% compared to the control. Mirzajani et al [25] observed a significant increase in carotenoids content in rice shoots when plants were treated with 60 mg L − 1 Ag-NPs, which is consistent with our data.…”
Section: Resultssupporting
confidence: 79%
“…Conversely, the opposite results were obtained by Feichtmeier et al [14] for barley seedlings, where fresh biomass per plant decreased with exposure to increasing concentrations of Au-NPs (3 to 10 μg mL − 1 ), but a concentration of 1 μg mL − 1 of Au-NPs in the nutrient medium had a stimulating effect on biomass. Astafurova et al [29] observed a significant increase in the weight of wheat seedlings treated with Pt-NPs in both water and soil culture; however, dry weight of shoots increased only when the plants grew in one of two soil types tested. An increase in fresh weight and dry weight of lettuce shoot was observed in our experiment due to Pt-NPs applied at higher concentration.…”
Section: Resultsmentioning
confidence: 99%
“…Platinum nanoparticles are another group of noble metal nanomaterials with interesting applications in plant growth. They have been reported to practically affect the growth mechanism of plants by increasing the length and weight of the plant root system [101]. The reactions of the nanoparticles are such that, if there is agglomeration, it becomes difficult for the nanoparticles to be absorbed and bio-accessibility is hampered.…”
Section: Noble Metal Nanoparticlesmentioning
confidence: 99%
“…The reactions of the nanoparticles are such that, if there is agglomeration, it becomes difficult for the nanoparticles to be absorbed and bio-accessibility is hampered. Astafurova et al [101] reported enhanced plant protective mechanisms due to increased flavonoids concentration resulting from nanoplatinum application. In another study of platinum nanoparticles uptake using Sinapis alba and Lepidium sativum plants, both plant species showed uptake of considerable amounts in the roots and shoots at different concentrations [102].…”
Section: Noble Metal Nanoparticlesmentioning
confidence: 99%
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