Nanotechnology in Plant Growth Promotion and Protection. Группа авторов

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Название Nanotechnology in Plant Growth Promotion and Protection
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119745891



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Impact References No effect Positive Negative 30 Zea mays, 72 h n.a. n.a. 300–1000 mg/L Inhibition of leaf growth and transpiration via physical effects on root water transport Asli and Neumann (2009) 25 Salix schwerinii x viminalis, 72 h 1–100 mg/L n.a. n.a. No observable effect Seeger et al. (2009) 50 Vicia faba, 48 h 5, 25, 50 mg/L n.a. n.a. Oxidative stress response in root at all concentrations Foltête et al. (2011) 14, 22, 25, 36 Triticum estivum, 1 week 10 mg/L (14, 22 nm), 10–50 mg/L (36 nm) 10–100 mg/L (25 nm) 50, 100 mg/L (14, 22 nm), 100 mg/L (36 nm) n.a. Increased root elongationno effect on germination, evapotranspiration, and plant biomass Larue et al. (2012a) 14, 25 Brassica napus, Triticum estivum 1 week n.a. 100 mg/L n.a. Increased root elongationno effect on germination, evapotranspiration, and plant biomass Larue et al. (2012b) 27 Cucumis sativus, 15 days n.a. 100, 250, 500, 1000, 4000 mg/L n.a. promotion of root elongationhigher nitrogen accumulation in roots Servin et al. (2012) 27 Solanum lycopersicum, 15 days 50, 100, 1000, 2500, 5000 mg/L n.a. n.a. No effect on root elongation Song et al. (2013) 21, 50 Allium cepa 18 h 10, 100 mg/L (21 nm) n.a. 10, 100, 1000 mg/L (50 nm), 1000 mg/L (21 nm) Increase in genotoxicity with concentration Demir et al. (2014) 35 Pisum sativum, 24 hours n.a. n.a. 100, 250, 500, 750 mg/L No effect on root length, stem length, and leave surface areaDiminished secondary lateral roots, diminished nutrient transportdisrupted Rhizobium–legume symbiosis system and nitrogen fixation Fan et al. (2014) 90–98 Allium cepa, 4 h n.a. n.a. 12.5, 25, 50, 100 mg/L Increased damage from reactive oxygen speciesIncrease in genotoxicity with concentration Pakrashi et al. (2014) 4 Lactuca sativa, 7 days 10–1000 mg/L n.a. n.a. Higher accumulation of Fe, P, S, and Ca in the root epidermisDecreased concentrations of Fe, P, S, and Ca in both the parenchyma and vascular cylinder Larue et al. (2016) 29, 92 Trifolium pratense, 7‐day old plants for 28 days n.a. n.a. 12.5, 25 mg/L Decrease in nodule formationDecrease in growth Moll et al. (2016) 10–30 Hydrilla verticillata, 24 h 0.01, 0.1, 1 mg/L n.a. 10 mg/L Increase in catalase and glutathione reductase activityIncrease in H2O2 at 10 mg/L Okupnik and Pflugmacher (2016) 25, 33, 41, 40 Oryza sativa, 35‐day old plants for 7 days n.a. 10, 1000 mg/L n.a. Reduced concentration of Pb in plantNo negative effect on plants Cai et al. (2017) 8 Hordeum vulgare, 7 days 100 mg/L n.a. 150–1000 mg/L Decrease in root length Kořenková et al. (2017) 21 Triticum aestivum, 20 days n.a. n.a. 5, 50, 150 mg/L Impaired light‐dependent and ‐independent phases of photosynthesisDecreased chlorophyll a content, maximal and effective efficiency of PSII, net photosynthetic rateDecreased transpiration rate, stomatal conductance, intercellular CO2 concentration, and starch content Dias et al. (2019)