Gooseberry Microbiota during Storage

Q3 Economics, Econometrics and Finance

Food Processing: Techniques and Technology Pub Date : 2024-07-03 DOI:10.21603/2074-9414-2024-2-2505

Natalya Motovilova, Olga Golub, G. Chekryga

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Abstract

Berries are a source of biologically active substances in human diet. Gooseberries have attractive sensory properties and high nutritional value. However, modern science knows little about micromycetic contamination of gooseberry. The research objective was to define the mycobiota composition of Ribes uva-crispa L. varieties during storage. The study featured the mycobiota of gooseberry varieties Senator and Rozoviy 2. The berries were harvested on the test field of the Siberian Federal Scientific Center of Agro-BioTechnologies of the Russian Academy of Sciences. They were stored for 18 days at 18 ± 2 and 4 ± 2°C and a relative humidity of 90–95%. The authors used standard research methods to identify the mycobiota and attribute them to nine genera by morphological structure: Aspergillus, Mucor, Penicillium, Rhizopus, Alternaria, Aureobasidium, Cladosporium, Cryptococcus, and anaerobic yeast. The frequency of occurrence varied from 20 to 100%. Micromycetes of the genus Fusarium were present only in the Senator sample, which also demonstrated a 100% occurrence of Penicillium, Alternaria, Aspergillus, and Cladosporium. In the sample of Rozoviy 2, Penicillium and Cladosporium occurred in 80%. The Senator sample was twice as low in micromycetes as the Rozoviy 2 berries: 558 vs. 945, respectively. The Senator berries grew in micromycetes due to the Cladosporium fungi while Rozoviy 2 owed its micromycetic increase to Penicillium. Both varieties showed no signs of ascomycetes known as a powdery mildew agent. During storage, the growth of yeast and yeast-like fungi depended on the variety of berries while the growth of mycelial fungi depended on the variety and storage temperature. The data obtained expand the scope of scientific knowledge about the generic composition of gooseberry mycobiota, which may help to select correct anti-spoilage measures.

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贮藏期间的鹅莓微生物群

浆果是人类饮食中生物活性物质的来源。鹅莓具有诱人的感官特性和很高的营养价值。然而，现代科学对鹅莓的微霉菌污染知之甚少。研究目的是确定鹅莓品种在贮藏过程中的霉菌群组成。这项研究的重点是鹅莓品种 Senator 和 Rozoviy 2 的霉菌生物群。这些浆果是在俄罗斯科学院西伯利亚联邦农业生物技术科学中心的试验田里收获的。它们在 18 ± 2 和 4 ± 2°C 和 90-95% 的相对湿度下存放了 18 天。作者使用标准的研究方法对菌类进行了鉴定，并根据形态结构将其归为九个属：曲霉属（Aspergillus）、粘菌属（Mucor）、青霉菌属（Penicillium）、根霉菌属（Rhizopus）、交替孢霉属（Alternaria）、金孢霉属（Aureobasidium）、梭菌属（Cladosporium）、隐球菌属（Cryptococcus）和厌氧酵母属（anaerobic yeast）。出现频率从 20% 到 100% 不等。镰刀菌属的小霉菌只出现在参议员的样本中，青霉、交替孢霉、曲霉和克拉多孢霉的出现率也是 100%。在 Rozoviy 2 号样本中，青霉和颚孢菌的出现率为 80%。参议员样本中的微霉菌含量是罗佐维 2 号浆果的两倍：分别为 558 个和 945 个。参议员浆果的微菌落总数增加是由于克拉多孢子菌的作用，而罗佐维 2 号的微菌落总数增加则是由于青霉的作用。这两个品种都没有出现被称为白粉病菌的子囊菌的迹象。在贮藏期间，酵母菌和酵母类真菌的生长取决于浆果的品种，而菌丝真菌的生长则取决于品种和贮藏温度。所获得的数据扩大了有关醋栗真菌生物群一般组成的科学知识范围，这可能有助于选择正确的防霉措施。

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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来源期刊

Food Processing: Techniques and Technology Engineering-Industrial and Manufacturing Engineering

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

12 weeks