Zhenglin Tan scite author profile

Chestnuts treated with calcium chloride (CaCl2), which were stored in sand, survived after 80‐days dormancy stage. Calcium chloride stablilized the membrane, but it accelerated the decay of the chestnut. The main reason for the decay was that the stress of low oxygen content induced the production of active oxygen species, eg., H2O2 by analyzing the physiological indexes such as superoxide dismutase (SOD), catalase (CAT), malondialdehyde, vitamin C (Vc), damage rate and decay rate.

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Rapid Prediction of Camelina Seed Oil Content Using Near-Infrared Spectroscopy

Zhang¹,

Tan

Chen

et al. 2017

Energy Fuels

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Camelina is a promising feedstock as a result of its ability to provide high-quality edible oil and jet fuel. However, predicting its oil content currently requires time- and labor-intensive analyses. Near-infrared (NIR) spectroscopy provides a rapid, low-cost determination approach for oil seed characterization. The objective of this study was to develop a NIR model to predict the camelina oil content using 200 camelina seed simples. Partial least squares (PLS) regression and principal component regression (PCR) were used to compare the performance of calibration models to the full spectra range (4000–1000 cm–1). PLS regression showed better prediction performance than PCR. The optimal model provided excellent fitness, with a R 2 of 0.94 and root mean square of prediction error of 0.495%, making the model useful in various applications, including quality assurance and screening. This study confirmed that the NIR method significantly reduces time (from 60 to 1 min) and cost [from 20 to 1 United States dollar (USD)] required to determine the camelina seed oil content. Last but not least, this study leverages a high-throughput, cost-effective prediction method of the camelina oil content to facilitate plant breeding and genetic studies. Future work on the NIR model should focus on developing a model system to achieve rapid analysis of genomics at a low cost to assist plant feedstock improvement.

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Detecting the content of the bright blue pigment in cream based on deep learning and near-infrared spectroscopy

Liu

Zhang

Tan

et al. 2022

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Zhenglin Tan

Determination of the food dye indigotine in cream by near-infrared spectroscopy technology combined with random forest model

Nondestructive detection of sunset yellow in cream based on near-infrared spectroscopy and interval random forest

Effect of Calcium Chloride on Chestnut

Rapid Prediction of Camelina Seed Oil Content Using Near-Infrared Spectroscopy

Detecting the content of the bright blue pigment in cream based on deep learning and near-infrared spectroscopy

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