Titlebook: Nanomaterials and Nanocomposites Exposures to Plants; Response, Interactio Azamal Husen Book 2023 The Editor(s) (if applicable) and The Aut

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Exploring the Effects of Iron Nanoparticles on Plants: Growth, Phytotoxicity, and Defense Mechanismn, and DNA synthesis), and many metabolic pathways are activated by Fe. Globally, Fe deficiency is a serious health concern due to the consumption of low-iron diets (or plant-based diets). Fe deficiency in humans induces severe diseases such as anemia. Considering the importance of Fe for the develo

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Iron Oxide Nanoparticles: Plant Response, Interaction, Phytotoxicity and Defense Mechanisms,d in the different physiological processes and increased the photosynthetic pigment and gene expression Fe.O. have efficient role in water remediation and can be use as a catalyst, adsorbent and iron fertilizer. These nanoparticles interact with plant in low acidic pH and facilitate the change of Fe

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Zinc Oxide Nanoparticles: Plant Response, Interaction, Phytotoxicity, and Defence,ect itself against risks depends on a certain degree on its genetic makeup and nutritional status. Many continuous efforts have been made in an attempt to eradicate these stresses or even reduce the incidence of them. Nanotechnology is working to introduce modern techniques in the agricultural field

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Aluminum Oxide Nanoparticles: Plant Response, Interaction, Phytotoxicity, and Defense Mechanism,anoparticles (NPs) are synthesized and administered on plants because they are the connecting link between the environment and human health. The effect of aluminum oxide NPs on a variety of plant species to check their interaction, uptake, and translocation is analyzed in this chapter. Aluminum oxid

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Elucidation of Synergistic Interaction Among Metal Oxide Nanoparticles and PGPR on the Plant Growth-fertilizers are promptly uptaken by plants and can enhance the plant‘s growth and development more efficiently. Thus, nanomaterials i.e. nanofibers, nano-fertilizers, and nano-pesticides can remarkably enhance the plants growth and yield production as well as disease resistance with limiting pathog

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Interaction Between Metal Nanoparticles and PGPR on the Plant Growth and Development,ds. The increasing health and environmental concerns have also put forward the challenge of attaining global food production in a sustainable manner. The synergistic interactions between different nanoparticles (NPs) and Plant Growth Promoting Rhizobacteria (PGPR) have put forward the novel way of i

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ascination. Sometimes, this fascination turns into outright fear. We know about the immediate historical causes for this— the pangs of transition from communism to something else, communism itself being the nineteenth-century experience of keeping the . that other European powers discarded one by on