2022
DOI: 10.1016/j.jssas.2021.06.011
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Comparative effects of conventional and nano-enabled fertilizers on morphological and physiological attributes of Caesalpinia bonducella plants

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Cited by 39 publications
(23 citation statements)
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“…One particular advantage of nanopriming is that it requires quite less amount of NPs, thus reducing the cost of production as well as environmental degradation compared to foliar and soil application. Seed priming has been to be found better than foliar application because of its enhanced ability to vigor seed germination (Khalid et al, 2021). Priming seeds of Triticum aestivum with 10 mg/L ZnONPs for 18 h positively influenced seed germination and seedling vigor index and enhanced seed water uptake, resulting in increased activity of α-amylase (Rai-Kalal and Jajoo, 2021).…”
Section: Seed Primingmentioning
confidence: 99%
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“…One particular advantage of nanopriming is that it requires quite less amount of NPs, thus reducing the cost of production as well as environmental degradation compared to foliar and soil application. Seed priming has been to be found better than foliar application because of its enhanced ability to vigor seed germination (Khalid et al, 2021). Priming seeds of Triticum aestivum with 10 mg/L ZnONPs for 18 h positively influenced seed germination and seedling vigor index and enhanced seed water uptake, resulting in increased activity of α-amylase (Rai-Kalal and Jajoo, 2021).…”
Section: Seed Primingmentioning
confidence: 99%
“…Mazaheri Tirani et al ( 2019) treated hydroponically grown tobacco plants with nano and bulk zinc oxide and observed that nano-ZnO at all levels (0.2-25 µM) positively influenced the growth and anatomical attributes, whereas bulk ZnO produced such results only at a certain concentration (1 µM). Khalid et al (2021) compared the effects of conventional and nano-enabled zinc fertilizers on morphological and physiological attributes of Caesalpinia bonducella wherein nano-zinc fertilizer led to higher increase in morphological parameters and chlorophyll content than the bulk form. Dimkpa et al (2020) reported requirement of lesser Zn application rate in case of nano-ZnO to achieve food fortification with Zn.…”
Section: Seed Primingmentioning
confidence: 99%
“…The technology of nanofertilizers has a great role in developing different kinds of fertilizers such as using the hybrid nano-composite of nanofertilizer from Cu, Fe and Zn (Rahman et al 2021), or chitosan-based nano-fertilizers (Jakhar et al 2022;Prajapati et al 2022), or different nano-enabled fertilizers of zinc oxide nanoparticles (ZnO-NPs), iron oxide nanoparticles (FeO-NPs) and magnesium oxide nanoparticles (MgO-NPs) (Khalid et al 2022), ZnO-NPs coated urea granules (Umar et al 2022), nanohydroxyapatite as P-nanofertilizer (Sajadinia et al 2021), lignin-clay nanohybrid as bio-based slowrelease fertilizers (Zhang et al 2022), green synthesized fertilizer of zinc nanostructure (Zn NS) (Bahmanzadegan et al 2022), combined applied biochar and ZnO nanofertilizer (Sheikhnazari et al 2022), nano-rock phosphate as a nano-P-fertilizer (Yasmeen et al 2022), and Fe3O4-urea nanocomposites as N-fertilizer (Guha et al 2022).…”
Section: What Is the Nanofertilizer?mentioning
confidence: 99%
“…For example, Fe fertilization could increase the diameter of ower stems, owering time, quality and yield in roses (Vigani et al 2013; Wang et al 2020). As an essential micronutrient for plants, iron is involved in electron transfer, nitrogen xation, synthesis of genetic information, synthesis of hormones and chlorophyll, and many other related metabolites in plant tissues (Herlihy et al 2020; Khalid et al 2021).…”
Section: Introductionmentioning
confidence: 99%
“…DiscussionFertilizers are often used to improve the nutrient environment of plants, enhance phytoremediation, and improve crop quality. Iron (Fe) fertilizers can promote various metabolic processes during plant growth and development and increase pollinator abundance and plant immunity to cope with variable environmental conditions over their lifetimes(Kovacs-Hostyanszki et al, 2011;Khalid et al, 2021;). Nanoiron particles can effectively reduce plant oxidative stress and increase plant biomass(Wu et al.…”
mentioning
confidence: 99%