Asmaa M. Khalifa scite author profile

The treatment of heavy metal-contaminated water is challenging. The use of nanomaterials from many environmental wastes is promising for removing metals and contaminants from aqueous solutions. This study is novel in using nanobiochar of water hyacinth (WH) and black tea waste (TW) as a promising approach to water decontamination owing to its unique properties that play an effective role in metal adsorption. The mono- and multi-adsorption systems of cadmium (Cd), chromium (Cr), and nickel (Ni) on biochar and nanobiochar of water hyacinths (BWH and NBWH) and black tea waste (BTW and NBTW) were investigated in this study as potential low-cost and environmentally friendly absorbents for the removal of previously mentioned heavy metals (HMs) from aqueous solutions. The WH and TW were collected from the locality, prepared, and kept until used in the experiment. Nanobiochar was prepared by grinding, characterizing, and storing in airtight containers until used. A batch experiment was designed in mono- and competitive systems to study the adsorption equilibrium behavior of HMs on biochar and nanobiochars. The Freundlich and Langmuir isotherm models were fitted to the mono- and competitive-adsorption equilibrium results. The Freundlich isotherm model provided a better fit. Furthermore, it was noticed that NBWH and NBWT efficiently removed the Cd in the mono-system by ≥99.8, especially in the smaller concentration, while NBWT and BTW removed ≥99.8 and 99.7% in the competitive system, respectively. In the mono- and competitive systems, the nanobiochars of NBTW removed more than 98.8 of Cr. The sorbents were less efficient in Ni removal compared to Cd and Cr. However, their effectiveness was very high also. The results revealed that Cd was the highest metal removed by sorbents, nanobiochars were better than biochars to remove the HMs, and the results also indicated that co-occurrence of multi-metals might fully occupy the adsorption sites on biochars and nanobiochars.

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Effect of application of a Health Belief Model on changing mothers’ beliefs regarding birth spacing in rural areas

Mohsen

El-Abbassy

Khalifa³

2016

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Objective: A Health Belief Model seems promising as a framework for examining contraceptive behavior. The aim of this study was to examine the effect of application of a Health Belief Model on changing mothers' beliefs regarding birth spacing in rural areas. Methods: Design: A quasi experimental pre-post-test design was used to evaluate the effectiveness of application of a Health Belief Model on changing mothers' beliefs regarding birth spacing. Subjects: A simple random sample of 150 postpartum women were selected from the Maternal Child Health centers at El Hmoul and Shobra Blola villages, Menouf at Menoufia Governorate, Egypt. Instruments: (1) A Birth Spacing Interview Questionnaire to assess socio demographic data, reproductive history, knowledge about birth spacing, and mothers' practices regarding birth spacing; (2) Perceived Benefits Questionnaire to assess a Health Belief Model constructs such as perceived susceptibility, seriousness, benefits, barriers, health motivation and cues to action. Results: It was illustrated that regarding the perception of benefits of using contraception, 94% of the subjects agreed that benefits outweighed side effects and 100% of the subjects agreed that using contraceptive improved maternal health. Regarding the perception of barriers of using contraceptives, 90% of the subjects disagreed that using contraceptive increased their susceptibility to cancer. Conclusions: Application of a Health Belief Model proved to be effective in changing the health beliefs about birth spacing.

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Influence of gamma radiation and phenylalanine on secondary metabolites in callus cultures of milk thistle (Silybum marianum L.)

Khalifa

Abd-ElShafy

Abu-Khudir

et al. 2022

Journal of Genetic Engineering and Biotechnology

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Background A useful technique for growing large amounts of plant material is in vitro propagation of important medicinal plants. The present investigation deals with the enhancement of secondary metabolite production via elicitation using gamma (γ)-radiation and phenylalanine (Phe) precursor feeding in callus cultures of Silybum marianum L. Results Seeds were exposed to two doses of γ-radiation (25 and 50 Gy) and the calli derived from stem explants obtained from seedlings of these radiated seeds were treated with different concentrations of Phe. The biosynthesis of phenols and flavonoids was evaluated. It was found that callus cultures derived from explants of the seeds exposed to 25 Gy γ-radiation and treated with 4 mg/l Phe accumulated the maximum phenolic content (34.27±0.02 mg/g d.wt.), while the highest flavonoid content (9.56±0.12 mg/g d.wt.) was found in callus cultures derived from explants of seeds radiated with 25 Gy γ-radiation and subjected to 1 mg/l Phe. Similarly, HPLC quantification revealed that the production of flavonoids was highly accumulated (1343.06 μg/mg d.wt.) in callus cultures from explants of seeds exposed to 25 Gy γ-radiation and grown at 1 mg/l Phe compared to the other treatments. In addition, a total of 11 important flavonoids have been determined in all callus cultures, except for acacetin-7-O-rutinoside, which was not found in the callus culture of the control. Conclusions These findings suggest that γ-radiation combined with Phe can improve the metabolism of S. marianum L. and could be used to produce such valuable metabolites on a commercial scale.

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Impacts of ZnO as a nanofertilizer on fenugreek: some biochemical parameters and SCoT analysis

Elsherif

Abd-ElShafy

Khalifa

2023

Journal of Genetic Engineering and Biotechnology

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Background Zinc oxide nanoparticles (ZnO NPs) can be considered as nanofertilizer providing zinc as an essential micronutrient for plant growth and production at specific safe dose, however, above this dose; ZnO NPs induce oxidative stress. The present research aimed to evaluate some physiological and molecular effects of ZnO NPs on Trigonella foenum-graecum (fenugreek) plant. Results The ZnO NPs were applied at five different concentrations (10, 20, 30, 40, and 50 mg/l) via soaking fenugreek seeds for 24 h. Fenugreek seedlings were harvested after 14 days for biomass and biochemical analyses. The results revealed that increasing ZnO NPs concentration led to a significant increase in all measured parameters until peaked at 30 mg/l; after that, a decline trend was detected. However, malondialdehyde (MDA) increased significantly just at higher concentrations of ZnO NPs (40 and 50 mg/l). In addition, genetic variation measure using start codon targeted (SCoT) markers revealed that ZnO NP treatments exhibited limited genetic variation. Conclusion Results showed that treatment with ZnO NPs at 30 mg/l can improve biomass, bioactive compounds, and antioxidant activity of fenugreek seedlings, besides being safe for DNA. So, this concentration could be a decent nanofertilizer for fenugreek plant.

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Improvement of CHS genes expression and flavonoids content in callus culture of Silybum marianum elicited with extracts of yeast and Aspergillus niger

Khalifa¹,

Nada²,

Al-Senosy³

2023

Delta Journal of Science

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Asmaa M. Khalifa

Using Biochar and Nanobiochar of Water Hyacinth and Black Tea Waste in Metals Removal from Aqueous Solutions

Effect of application of a Health Belief Model on changing mothers’ beliefs regarding birth spacing in rural areas

Influence of gamma radiation and phenylalanine on secondary metabolites in callus cultures of milk thistle (Silybum marianum L.)

Impacts of ZnO as a nanofertilizer on fenugreek: some biochemical parameters and SCoT analysis

Improvement of CHS genes expression and flavonoids content in callus culture of Silybum marianum elicited with extracts of yeast and Aspergillus niger

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