Malt quality profile of barley predicted by near-infrared spectroscopy using partial least squares, Bayesian regression, and artificial neural network models

IF 2.3 4区化学 Q1 SOCIAL WORK Journal of Chemometrics Pub Date : 2023-10-01 DOI:10.1002/cem.3519

Oyeyemi O. Ajayi, Lanre Akinyemi, Sikiru Adeniyi Atanda, Jason G. Walling, Ramamurthy Mahalingam

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Abstract

Due to the significant cost and time involved in identifying barley lines with superior malting quality, the malting industry is searching for accurate and rapid methods to expedite the selection of superior barley lines that meet breeder's goals. The aim of this study is to compare partial least squares regression (PLSR) with advanced statistical models (Bayesian and machine learning) and reliably assess their performance in predicting malt quality traits from near infra-red (NIR) spectral data using barley grains. Using spectral data as predictors and the malt quality traits as references, PLSR outperformed Bayesian and PCA-ANN models for diastatic power (DP), alpha amylase (AA), malt extract (ME), wort protein (WP), soluble to total protein (S/T) ratio, and free amino nitrogen (FAN). WP had the best prediction performance for all models, with the best-performing model, PLSR, having $R^{2}$ (RPD) values of 0.55 (1.5). The influential wavelength regions identified based on the variable importance in projection (VIP) scores and coefficient estimates for PLSR and Bayesian models, respectively, were comparatively similar for all malt quality traits. Based on these findings, PLSR analysis and wavelength selection techniques would enhance the future design and optimization of NIR prediction models in malt quality improvement programs.

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利用偏最小二乘、贝叶斯回归和人工神经网络模型的近红外光谱预测大麦麦芽品质特征

由于鉴定具有优质麦芽品质的大麦品系需要大量的成本和时间，因此麦芽行业正在寻找准确和快速的方法来加快选择符合育种者目标的优质大麦品系。本研究的目的是比较偏最小二乘回归(PLSR)与先进的统计模型(贝叶斯和机器学习)，并可靠地评估它们在利用大麦谷物近红外(NIR)光谱数据预测麦芽品质性状方面的性能。以光谱数据为预测指标，以麦芽品质性状为参考，PLSR模型在散散力(DP)、α淀粉酶(AA)、麦芽提取物(ME)、麦汁蛋白(WP)、可溶性与总蛋白(S/T)比和游离氨基氮(FAN)等指标上优于贝叶斯模型和PCA-ANN模型。WP对所有模型的预测效果最好，其中表现最好的PLSR模型的r2 (RPD)值为0.55(1.5)。根据PLSR和Bayesian模型的投影变量重要性(VIP)评分和系数估计分别确定的影响波长区域对所有麦芽品质性状比较相似。基于这些发现，PLSR分析和波长选择技术将有助于未来设计和优化麦芽品质改善计划中的近红外预测模型。

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来源期刊

Journal of Chemometrics 化学-分析化学

CiteScore

5.20

自引率

8.30%

发文量

审稿时长

2 months

期刊介绍： The Journal of Chemometrics is devoted to the rapid publication of original scientific papers, reviews and short communications on fundamental and applied aspects of chemometrics. It also provides a forum for the exchange of information on meetings and other news relevant to the growing community of scientists who are interested in chemometrics and its applications. Short, critical review papers are a particularly important feature of the journal, in view of the multidisciplinary readership at which it is aimed.

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