Near Infrared Technology in Agricultural Sustainability: Rapid Prediction of Nitrogen Content from Organic Fertilizer

Q3 Multidisciplinary Transdisciplinary Journal of Engineering Science Pub Date : 2022-02-17 DOI:10.22545/2022/00167

D. Devianti, S. Sufardi, M. Mustaqimah, A. A. Munawar

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Abstract

Presented study employs the near infrared reflectance (NIRS) as a rapid and effective sensing technology in detecting and determining quality parameter of organic fertilizer in form of nitrogen content (N). a total of 10 organic fertilizers were used as samples made from agricultural waste. Near infrared spectra data were acquired and measured as absorbance for all samples in wavenumbers range 5,000 – 11,000 cm-1. On the other hand, actual N content was measured by means of standard laboratory procedures. Spectra data were corrected using de-trending second order (DT-2), standard normal variate (SNV) and combination of them (SNV+DT). Moreover, prediction models for N content determination were developed using principal component regression (PCR) followed by leverage cross validation. The results showed that N content can be predicted rapidly without involving chemical materials with maximum coefficient of determination are 0.98 for calibration and 0.95 for validation phase respectively. It may conclude that sensing technology based on NIRS can be applied as a rapid and effective method for N determination of organic fertilizers.

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近红外技术在农业可持续发展中的应用:有机肥氮含量的快速预测

本研究采用近红外反射(NIRS)技术作为一种快速有效的传感技术，对有机肥中氮含量(N)的质量参数进行检测和测定。获取近红外光谱数据，并测量所有样品在5000 - 11000 cm-1波数范围内的吸光度。另一方面，实际氮含量是通过标准实验室程序测量的。光谱数据使用去趋势二阶(DT-2)、标准正态变量(SNV)和它们的组合(SNV+DT)进行校正。此外，利用主成分回归(PCR)和杠杆交叉验证建立了氮含量测定的预测模型。结果表明，该方法可在不涉及化学物质的情况下快速预测氮含量，其校正期和验证期的最大测定系数分别为0.98和0.95。由此可见，基于近红外光谱的传感技术可作为一种快速有效的有机肥氮素测定方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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