Estimation of foliar glucose content of areca palm by a smartphone app and Fourier transform infrared spectroscopy based multivariate modeling

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL

Vibrational Spectroscopy Pub Date : 2024-01-01 DOI:10.1016/j.vibspec.2023.103643

V. Arunachalam , Diksha C. Salgaonkar , Satvashil S. Devidas , Bappa Das

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Abstract

Carbohydrates are essential molecules in the metabolism of plant systems whose quantification is crucial. The study aims to estimate foliar glucose content using the Smartphone-based Color Grab app by color change upon reaction with a 3,5-dinitrosalicylic acid reagent and mid-infrared spectra. The hue showed a negative correlation of − 0.959 with glucose content with sensitivity, detection limit and precision of 13.46 μg/mL,μg/mL,0.035 μg/mL, and 0.229% respectively. The glucose concentration to color coordinates displayed a linear response between 50 to 600 µg/mL. The linear regression equation with hue of standards was used to predict spectrophotometrically measured glucose concentration of leaf extracts with R² = 0.934 and sensitivity of 13.46 μg/mL. Multivariate analysis of infrared spectrum (650–4000 cm^‐1⁻¹) of powdered arecanut leaves indicated elastic net and partial least square regression as the best models with R² of 0.99. The study has practical implications in smartphone or infrared spectra-based glucose measurements for low glucose (< 1 mg/mL) samples.

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通过智能手机应用程序和基于傅立叶变换红外光谱的多元建模估算山苍子叶片葡萄糖含量

碳水化合物是植物系统新陈代谢中的重要分子，其定量至关重要。本研究旨在使用基于智能手机的 Color Grab 应用程序，通过与 3,5-二硝基水杨酸试剂反应后的颜色变化和中红外光谱来估算叶片葡萄糖含量。色调与葡萄糖含量的负相关性为-0.959，灵敏度、检测限和精确度分别为 13.46 μg/mL、μg/mL、0.035 μg/mL 和 0.229%。葡萄糖浓度与颜色坐标在 50 至 600 微克/毫升之间呈线性响应。用标准色调的线性回归方程来预测分光光度法测得的叶提取物葡萄糖浓度，R2 = 0.934，灵敏度为 13.46 μg/mL。对油菜叶粉的红外光谱（650-4000 cm-1-1）进行多变量分析表明，弹性网和部分最小二乘回归是最佳模型，R2 为 0.99。这项研究对于用智能手机或红外光谱测量低血糖（< 1 mg/mL）样本的葡萄糖具有实际意义。

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来源期刊

Vibrational Spectroscopy 化学-分析化学

CiteScore

4.70

自引率

4.00%

发文量

103

审稿时长

52 days

期刊介绍： Vibrational Spectroscopy provides a vehicle for the publication of original research that focuses on vibrational spectroscopy. This covers infrared, near-infrared and Raman spectroscopies and publishes papers dealing with developments in applications, theory, techniques and instrumentation. The topics covered by the journal include: Sampling techniques, Vibrational spectroscopy coupled with separation techniques, Instrumentation (Fourier transform, conventional and laser based), Data manipulation, Spectra-structure correlation and group frequencies. The application areas covered include: Analytical chemistry, Bio-organic and bio-inorganic chemistry, Organic chemistry, Inorganic chemistry, Catalysis, Environmental science, Industrial chemistry, Materials science, Physical chemistry, Polymer science, Process control, Specialized problem solving.