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Novel Technologies for Preserving Ricotta Cheese: Effects of Ultraviolet and Near-Ultraviolet–Visible Light

机译：保存乳清干酪的新技术：紫外线和近紫外线可见光的影响

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摘要

Ricotta cheese is a potential growth medium for a wide range of microorganisms. The aim of the current study was to investigate the efficacy of ultraviolet (UV-C) and near-ultraviolet–visible light (NUV–vis) in microbial decontamination of ricotta artificially inoculated with . Cheese samples were stored at 4 °C, and microbiological and sensory analyses were performed for 9 days. From the microbiological point of view, control samples became unacceptable after less than 5 days, whereas ricotta treated by both UV-C and NUV–vis light remained acceptable for more than 6 days. Similar effects of UV-C and NUV–vis light were also recorded in terms of sensory quality. The shelf life of the samples subjected to the treatments was thus extended by 50%, suggesting the potential application of UV-C and NUV–vis light for cheese decontamination.

机译：乳清干酪是多种微生物的潜在生长培养基。本研究的目的是研究紫外线（UV-C）和近紫外可见光（NUV-vis）在人工接种的乳清干酪中的微生物净化效果。奶酪样品存储在4°C，进行了9天的微生物学和感官分析。从微生物学的角度来看，对照样品在不到5天后就变得不可接受，而经过UV-C和NUV-vis光处理的意大利乳清干酪在超过6天后仍然可以接受。就感觉质量而言，也记录了UV-C和NUV可见光的类似效果。因此，经过处理的样品的保质期延长了50％，这表明UV-C和NUV-vis可见光可用于奶酪消毒。

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期刊名称 Foods
作者
Emilio Francesco Ricciardi; Selene Pedros-Garrido; Kostas Papoutsis; James G. Lyng; Amalia Conte; Matteo A. Del Nobile;
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作者单位

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年(卷),期 2020(9),5
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类营养学;
关键词
UV-C; NUV–vis light; non-thermal technology; irradiation treatments; microbial inactivation; ricotta cheese;

机译：UV-C;NUV-可见光;非热技术;辐照处理;微生物灭活;乳清干酪;

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机译：保留乳清干酪奶酪的新技术：紫外线和近紫外 - 可见光的影响
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Novel Technologies for Preserving Ricotta Cheese: Effects of Ultraviolet and Near-Ultraviolet–Visible Light

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