Formulation of Nano-fertilizer and Phytochemical Screening of orange peel were utilized to enhance the growth of Vigna radiata

Q4 Agricultural and Biological Sciences International Journal of Phytopathology Pub Date : 2023-11-03 DOI:10.33687/phytopath.012.03.4664
Saba Iqbal, Gulnaz Parveen, Ambreen Ayub, Salma Gul, Tahira Batool, Amtul Sami, Tahira Batool, Nain Tara, Amtul Sami, Atiya Hussain Khowaja
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Abstract

Nanotechnology has developed into one of the most valued fields of sciences in the current century owing to the introduction of revolutionary changes in several disciplines of sciences. A key product of nanotechnology, i.e., nanoparticles (NPs) are abundantly used in modern research due to their novel applications. Orange peel contains vital nutrients that can be recycled into valuable material used for different purposes. In this study, we synthesized nano fertilizer from orange peel and tested its potential for promoting the growth of Vigna radiata and reducing the population of root rot pathogens. Nano-fertilizer extract was subjected to physical and chemical analyses for characterization. Transmission electron microscopy indicated spherical nanoparticles with sizes ranging between 18.22nm and 61.05nm. While the X-Ray diffraction analysis the peaks were observed at 2ɵ value of 19.830, 20.550, 21.240, 24.440, 27.330 and 29.770 which represented the similarity with urea slandered peak. The Synthesized nano-fertilizers contained phenols, steroids, triterpenes and xanthoproteins. In a screen house experiment, the nano fertilizer extract was administered to the seeds of Vigna radiata. The research demonstrated that increasing the dose of orange peel extract enhanced germination percentage by positively influencing plant growth characteristics. Meanwhile, a high concentration of orange peel amendment successfully reduced the colonization and infection percentage of root rotting pathogens when compared to the positive and negative controls.
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利用纳米肥料配方和柑桔皮的植物化学筛选来促进辐射维纳的生长
纳米技术已经发展成为本世纪最有价值的科学领域之一,这是由于在一些科学学科中引入了革命性的变化。纳米技术的一个重要产物,即纳米颗粒(NPs)由于其新颖的应用而在现代研究中得到了广泛的应用。橘皮含有重要的营养物质,可以回收成有价值的材料,用于不同的目的。本研究以柑桔皮为原料合成了纳米肥料,并测试了其促进辐射葡萄生长和减少根腐病病原菌数量的潜力。对纳米肥料提取物进行了理化分析表征。透射电镜观察到的纳米颗粒为球形,粒径在18.22 ~ 61.05nm之间。x射线衍射分析在19.830、20.550、21.240、24.440、27.330和29.770的2°值处发现了与尿素诽谤峰相似的峰。合成的纳米肥料含有酚类、甾体、三萜和黄质蛋白。在筛选室试验中,将纳米肥料提取物施用于放射线藤种子。研究表明,增加橙皮提取物的剂量可以通过积极影响植物的生长特性来提高发芽率。同时,与阳性对照和阴性对照相比,高浓度的橙皮改良剂成功地降低了根腐病菌的定植率和侵染率。
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来源期刊
International Journal of Phytopathology
International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.20
自引率
0.00%
发文量
11
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