The advances in the foliar application of micro and macronutrients and their effects on growth development and yield potential of tomato crops

Ahmed, Wassem

doi:10.15228/anst.2021.v01.i02.p04

Cited by 2 publications

(1 citation statement)

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“…The concentration of the active compounds is determined by comparing the peak areas, or heights, of the compounds in the chromatogram to a standard calibration curve. The calibration curve was generated by analyzing standard solutions at known concentrations of the active compounds (Ahmed et al, 2021).…”

Section: Root Shoot and Seedling Fresh Weight (G)mentioning

confidence: 99%

Application of Humic Acid and Sulphur on the Vigour and Viability of Harvested Soybean Seeds with Active Compounds

Ahmad,

Khan,

Riaz

et al. 2023

ANST

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Humus represents the outcome of organic matter decomposition facilitated by microorganisms. Humic acid compounds consist of constituents of humus that are extensively distributed across the Earth's surface. Sulphur is a crucial macronutrient in growth and developmental processes, swiftly recognized as the fourth primary plant nutrient, following N, P, and K. The research presented aimed to assess the impact of humic acid and foliar sulphur levels on the vigour and viability of harvested soybean seeds at the Agronomy Research Laboratory, The University of Agriculture Peshawar, during the Rabi season of 2022-2023. A randomized complete block design was chosen in three replications for the conduction of the experiment, which comprises two factors: humic acid levels (0, 3, 6, and 9 kg ha^1) and foliar sulphur levels (0, 4, 6, and 8 kg ha^1), including a control. The analysis of variance demonstrated significant differences among all parameters and their interactions. According to the experimental findings, the application of humic acid at a rate of 9 kg ha^1 resulted in a notable increase in germination (57.67%), seedling fresh (0.89 g) and dry weight (0.69 g), followed by positive yield responses under foliar application of sulphur. Results display the interaction of humic acid levels and foliar sulphur on bioactive compounds, exhibited potential activities in soybean seeds, including isoflavones (12 mg/100 g), saponins (16 mg/100 g), phytosterols (18 mg/100 g), as well as phytic acid (19 mg/100 g) and lectins (22 mg/100 g) in treated as compared to control. In conclusion, applying humic acid at a rate of 9 kg ha^1, combined with foliar sulphur at a rate of 8, is recommended to enhance the vigour and viability of harvested soybean seeds. Keywords: humic acid, foliar sulphur, vigour and viability of harvested soybean seeds Highlight:• Humic acid and foliar sulphur improved the vigour and viability of harvested soybean seeds.• Humic acid and foliar sulphur enhanced the potential activities of soybean seeds.• Humic acid and foliar sulphur improved soybean seeds' germination percentage and seedling growth. HPLC AnalysisHigh-performance liquid chromatography (HPLC) is a widely used analytical technique for separating and quantifying active compounds that involve several steps. Overall, measuring active compounds in HPLC involves precise sample preparation, chromatographic separation, detection, quantification, and data analysis to determine the concentration of the compounds in the sample accurately. The soybean seeds sample was prepared by extracting the compounds from the matrix and filtering them to remove particulate matter. The prepared sample was injected into the HPLC system, where the active compounds were separated based on their chemical properties, such as size, polarity, and charge. This separation is achieved

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Section: Root Shoot and Seedling Fresh Weight (G)mentioning

confidence: 99%