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基于化学指纹图谱和机器学习算法的赤霞珠葡萄浆果和叶片烟雾污染分类。

Classification of Smoke Contaminated Cabernet Sauvignon Berries and Leaves Based on Chemical Fingerprinting and Machine Learning Algorithms.

机构信息

Digital Agriculture, Food, and Wine Group, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Parkville, VIC 3010, Australia.

School of Agriculture, Food and Wine, The University of Adelaide, Waite Campus, PMB 1, Glen Osmond, SA 5064, Australia.

出版信息

Sensors (Basel). 2020 Sep 7;20(18):5099. doi: 10.3390/s20185099.

DOI:10.3390/s20185099
PMID:32906800
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7571113/
Abstract

Wildfires are an increasing problem worldwide, with their number and intensity predicted to rise due to climate change. When fires occur close to vineyards, this can result in grapevine smoke contamination and, subsequently, the development of smoke taint in wine. Currently, there are no in-field detection systems that growers can use to assess whether their grapevines have been contaminated by smoke. This study evaluated the use of near-infrared (NIR) spectroscopy as a chemical fingerprinting tool, coupled with machine learning, to create a rapid, non-destructive in-field detection system for assessing grapevine smoke contamination. Two artificial neural network models were developed using grapevine leaf spectra (Model 1) and grape spectra (Model 2) as inputs, and smoke treatments as targets. Both models displayed high overall accuracies in classifying the spectral readings according to the smoking treatments (Model 1: 98.00%; Model 2: 97.40%). Ultraviolet to visible spectroscopy was also used to assess the physiological performance and senescence of leaves, and the degree of ripening and anthocyanin content of grapes. The results showed that chemical fingerprinting and machine learning might offer a rapid, in-field detection system for grapevine smoke contamination that will enable growers to make timely decisions following a bushfire event, e.g., avoiding harvest of heavily contaminated grapes for winemaking or assisting with a sample collection of grapes for chemical analysis of smoke taint markers.

摘要

野火是一个全球性的日益严重的问题,由于气候变化,预计野火的数量和强度将会增加。当火灾发生在葡萄园附近时,这可能导致葡萄藤烟雾污染,随后葡萄酒中出现烟雾异味。目前,种植者没有现场检测系统可以用来评估他们的葡萄藤是否受到烟雾污染。本研究评估了近红外(NIR)光谱作为化学指纹图谱工具的用途,结合机器学习,为评估葡萄藤烟雾污染创建一种快速、无损的现场检测系统。使用葡萄叶光谱(模型 1)和葡萄光谱(模型 2)作为输入,并用烟雾处理作为目标,开发了两种人工神经网络模型。这两种模型根据吸烟处理对光谱读数的分类都显示出很高的总体准确性(模型 1:98.00%;模型 2:97.40%)。紫外线到可见光谱也用于评估叶片的生理性能和衰老程度,以及葡萄的成熟度和花青素含量。结果表明,化学指纹图谱和机器学习可能为葡萄藤烟雾污染提供一种快速的现场检测系统,使种植者能够在丛林火灾事件后及时做出决策,例如,避免收获受严重污染的葡萄用于酿酒,或协助采集受烟雾污染的葡萄样本进行化学分析。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/99d2/7571113/ccf05c134338/sensors-20-05099-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/99d2/7571113/9b9d58352c47/sensors-20-05099-g001.jpg
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