Definition of the growth and development characteristics of plants in varied light conditions is a key factor for the creation of highly efficient light facilities for plant cultivation. Experimental research was conducted using an LED irradiation facility with photosynthetic photon flux densities ranging from 0 to 261 μmol m−2 s−1 and a continuous spectrum with maxima at 445 and 600 nm. Under the maximum photosynthetic photon flux density (261 μmol m− 2 s−1) wheat germs demonstrated diminishing leaf surface with high values of specific leaf area, enhanced pubescence of ground tissues, increases in the number of stomata on the upper epidermis and palisade, and an increase in the thickness of the leaves as well as an increase in carotenoids but a decrease in the chlorophyll a+b/carotenoids relation. It was revealed that the optimum level of photosynthetic photon flux density for the referred spectrum was in the range from 82 to 100 µmol m−2 s−1, which may enable a reduction of irradiance under specific conditions during early development with no harm to the plants while minimizing energy consumption during cultivation.
The influence of ZnO and Pt nanoparticles’ suspensions (5 mg/kg of soil) on the yielding capacity and fruit quality of Cucumissativus L. was studied. We found out that the soil amended with ZnO nanoparticle suspension enhanced cucumber yielding capacity by 36 %, and the fruits had more carotene, zinc and iron compared to the control. The soil amended with Pt nanoparticles did not influence cucumber yielding capacity, and the fruits contained more carotene and zinc. ICP-MS results showed that nanoparticles’ influence at the concentration under study did not result in accumulation of ZnO and Pt nanoparticles in fruits.
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