Evaluating Nanotechnology in raising the efficiency of some substances used in fertilizing wheat grown on sandy soil.

Ghazi, Dina; Abbas, A.; Abdelghany, A.M.; elsherpiny, mohamed; ElGhamry, Ayman

doi:10.21608/ejss.2022.147839.1512

Cited by 6 publications

(7 citation statements)

References 13 publications

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“…Also, compost amendment can hold a high quantity of irrigation water, thus help in the water deficit stress tolerance. The obtained results are in accordance with those of Tartoura, (2010), Nguyen et al, (2012), Hussein et al, (2022), Ghazi et al, (2022) and Awwad et al, (2022).…”

Section: Discussionsupporting

confidence: 92%

“…Compost is a wealthy source of organic matter (Hussein et al, 2022). It improves the plant growth performance and increase crop yield and quality due to it enhances soil physical attributes i.e., structure, porosity, bulk density, water holding capacity, hydraulic conductivity, compression strength and water permeability (Ghazi et al, 2022) and soil chemical characteristics such as soil content of nutrients and organic matter (Awwad et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

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Response of maize plant grown under water deficit stress to compost and melatonin under terraces and alternate furrow irrigation techniques

elsherpiny¹,

Helmy

2022

Egypt.J. Soil Sci.

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HE CURRENT TREND is finding suitable irrigation techniques that conserve irrigation water and improve efficiency. So, a field experiment was conducted in the Experimental Farm of the Faculty of Agriculture, Mansoura Univ., El-Dakahlya Governorate, Egypt during the season of 2022, aimed to evaluate the growth performance and productivity of maize affected by different irrigation methods i.e., terraces, traditional furrow and alternative furrow techniques as main plots under soil addition of compost as subplots (with application of compost at the rate of 7.0 ton fed -1 and the other without compost application), and foliar application of melatonin at different levels (1.0 and 2.0 mmol L -1 ) as sub subplot. The trial was carried out in a split split-plot design with three replicates. The results showed that plants grown under alternative furrow irrigation technique without compost and melatonin had the highest values of enzymatic antioxidants i.e., superoxide dismutase SOD (80.26, unit mg -1 proteinˉ¹), peroxidase enzyme POD (246.54, unit mg -1 proteinˉ¹), and catalase enzyme CAT (89.07, unit mg -1 proteinˉ¹), at the period of 70 days from sowing, while the maize plants grown under terraces irrigation technique with compost and simultaneously sprayed with melatonin at the rate of 2.0 mmol L -1 possessed the lowest values of these enzymatic antioxidants (69.25, 178.28 and70.57 unit mg -1 proteinˉ¹ for SOD,POD and CAT, respectively). On the contrary, the maximum values of growth parameters and chemical constitute at 70 days from sowing (fresh and dry weight, leaf area chlorophyll content, N, P, K) as well as yield and its components and bio chemical traits of grains at harvest stage e.g., the weight of 1000 grain , cob length, No. of rows cob -1 , grain and biological yield, total carbohydrates, protein and oil content in grain were recorded with terraces irrigation technique plus compost and melatonin at rate of 2.0 mmol L -1 . Generally, it can be concluded that maize plant irrigation should be with the terrace technique and simultaneously addition of compost as water absorbent substance and foliar application of melatonin as a biological hormone regulates plant physiology.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Response of maize plant grown under water deficit stress to compost and melatonin under terraces and alternate furrow irrigation techniques

elsherpiny¹,

Helmy

2022

Egypt.J. Soil Sci.

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“…improves the physical characteristics of the soil, such as structure, porosity, bulk density, compression strength. Besides water holding capacity and water permeability, It improves the efficiency of plant development, agricultural production and quality (Ghazi et al, 2022). This enhancement as a result of altered pore geometry, especially in water-holding pores.…”

Section: -Discussionmentioning

confidence: 99%

Impact of cultivation methods and fertilization by EM (Effective microorganisms) and /or compost on Productivity and water use efficiency of wheat (Triticum aestivum L.)

Rashwan,

mahmoud

2024

Egypt.J. Soil Sci.

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for two following seasons of 2021/ 2022 and 2022/ 2023, to examine effective of fertilization (100% NPK or control, 80 % NPK & EM (Effective microorganisms) applied at (12.35L ha -1 ), 80 % NPK & compost 12.35 ton ha -1 and 80 % NPK & Mixture of EM and compost) on wheat that grown in clay soil via using three cultivation methods, i.e. broad casting, ridges, raised beds. The experiment was arranged in a split plot design by three replicates. Water productivity as well as water use efficiency were extremely improved under raised bed method compared with the values with the other two methods through two seasons. Likewise, the highest values of plant height (cm). grain yield (ton ha -1 ), straw (ton ha -1 ), 1000 grain and protein% in the two consecutive seasons, were gained when planting wheat on raised bed at combined 80% NPK+ mix (EM and compost). Nutrition contents in wheat grain and total uptake kg ha 1 were increased with the same treatment.

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“…Nanoparticles (NPs) are effective tool in enhancing salt stress resistance and plant growth (Ghazi et al, 2022). NPs (1 to 100 nm) have efficient physicochemical properties than larger particles (Cele, 2020).…”

Section: Egyptian Journal Of Soil Sciencementioning

confidence: 99%

Interactive Effects of K-Humate, Proline and Si and Zn Nanoparticles in Improving Salt Tolerance of Wheat in Arid Degraded Soils

et al. 2022

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Silicon (Si) and zinc (Zn) nanoparticles (NPs) and foliar application of proline have been used in alleviating salt stress and enhancing wheat productivity, but the effectiveness of these materials may be enhanced when supplying the sandy degraded soil with organic amendments, e. g., potassium humate (KH). The response of wheat to spraying with a mixture of proline and NPs of Si and Zn in the presence of soil additions of KH needs further clarification, especially in low fertile sandy soils. A split-plot design with three replicates was used to carry out a two-season field experiment in a sandy saline soil (11 dS m −1 ). The K-humate doses (0, 10, and 20 kg ha −1 ) were placed in the main plots, while the foliar spraying of proline and NPs were placed in the subplots. The foliar spraying treatments were: water, proline, Si NPs, Zn NPs, Si + Zn NPs, and proline + Si + Zn NPs. The obtained results showed that the soil organic matter (SOM) significantly increased by 13% when K-humate was added at the dose of 20 kg ha −1 . The addition of 20 kg ha −1 of K-humate improved the soil's available N, P, and K by 38, 67, and 21% and enhanced the uptake of these nutrients by 6, 13, and 12%, compared to the non-amended soil. Wheat grain, straw, and biological yield increased by 26, 45, and 38%, respectively, when the K-humate increased from 0 to 20 kg ha −1 . The grain, straw, and biological yield increased by 21, 26, and 24%, respectively, as a result of foliar spraying of proline + Si + Zn NPs. The addition of K-humate (20 kg ha −1 ) enhanced the leaf chlorophyll and boosted the K + /Na + ratio by 36%, compared to the control. Chlorophyll and proline levels in wheat leaves were markedly raised by foliar application of proline and Si and Zn NPs. The soil application of K-humate and the exogenous application of proline improved the effectiveness of Si and Zn NPs in minimizing the adverse effects of salt stress. It is not recommended to only apply silicon and zinc nanoparticles via foliar spraying; an integrated parenteral management plan that depends on the addition of organic amendments to the saline sandy soils is also required.

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Evaluating Nanotechnology in raising the efficiency of some substances used in fertilizing wheat grown on sandy soil.

Cited by 6 publications

References 13 publications

Response of maize plant grown under water deficit stress to compost and melatonin under terraces and alternate furrow irrigation techniques

Response of maize plant grown under water deficit stress to compost and melatonin under terraces and alternate furrow irrigation techniques

Impact of cultivation methods and fertilization by EM (Effective microorganisms) and /or compost on Productivity and water use efficiency of wheat (Triticum aestivum L.)

Interactive Effects of K-Humate, Proline and Si and Zn Nanoparticles in Improving Salt Tolerance of Wheat in Arid Degraded Soils

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