Fungi Causing Storage Rot of Apple Fruit in Integrated Pest Management System and their Sensitivity to Fungicides

Grantina-Ievina, Lelde

doi:10.1515/plua-2015-0007

Cited by 19 publications

(16 citation statements)

References 27 publications

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“…Moreover, the current study was not focused on the quantitative analysis of each fungal species so there is a chance that there were Penicillium strains among isolates which were not selected for DNA extraction. Other mould found in fruit in the current study— Fusarium, Alternaria and Cladosporium , commonly reside in apple (Bernier et al 1996 ; Grantina-Ievina 2015 ; Abdelfattah et al 2016 ). In the study carried out in Italy, also the presence of M. pulcherrima and some Pichia and Rhodotorula species has been confirmed (Pelliccia et al 2011 ).…”

Section: Discussionmentioning

confidence: 58%

“…Majority of the research was carried out before molecular methods became commonly available (Williams 1955 ; Pennycook and Newhook 1981 ; Bernier et al 1996 ). Moreover, most studies focused on changes of apple microflora during cold storage of harvested fruits (Mirzwa-Mróz et al 2012 ; Alwakeel 2013 ) or on mould known as common apple pathogens (Grantina-Ievina 2015 ). It has been demonstrated that various fungal species might survive pasteurisation, i.e.…”

Section: Introductionmentioning

confidence: 99%

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Examination of novel Aureobasidium pullulans isolates dominating apple microflora and assessing their potential for apple juice spoilage

Wajda

Wyderka

Polak

et al. 2018

World J Microbiol Biotechnol

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There is very little up to date information regarding apple microflora so in the current study we decided to address that issue and assess whether dominant fungi which reside in fruit might spoil apple juice. Microorganisms were isolated from apples of Koksa Górska harvested in the middle of October in 2016 and 2017. Identification of isolates was based on the sequencing of ribosomal DNA. Some isolates were characteristic for a particular year but in both years apple microflora was dominated by Aureobasidium pullulans. Based on phylogenetic analysis it was stated that only one isolate (LW81) was closely related to strains which are already described in available databases. All other isolates collected in the current study differed significantly from sequences stored in databases, tending to form a common cluster. It was possible to predict secondary structure of ITS2 region only for the isolate LW81, while we managed to establish the length and location of 5.8S gene in Rfam database for all sequences. A. pullulans is known exopolysaccharide producer so obtained microorganisms were tested for their ability to synthesise those substances on Czapek-Dox agar. The strain which proved to be the most significant exopolysaccharide producer (isolate LW14) was inoculated in the sterilised apple juice at three different initial cell number (100, 1000 and 10,000 cfu/ml) and subjected to pasteurisation. In all cases pasteurisation eliminated fungal growth effectively, therefore A. pullulans strains should not pose any risk to the quality of pasteurised apple juices.

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Section: Discussionmentioning

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Examination of novel Aureobasidium pullulans isolates dominating apple microflora and assessing their potential for apple juice spoilage

Wajda

Wyderka

Polak

et al. 2018

World J Microbiol Biotechnol

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“…Penicillium spp. are frequently isolated from decaying apples as fungi causing postharvest disease (Valiuškaitė et al 2006, Konstantinou et al 2011, Grantina-Ievina 2015, Juhnevica-Radenkova et al 2016. Many researchers (Konstantinou et al 2011, Juhnevica-Radenkova et al 2016 only mention Penicillium expansum, but other species of the genus Penicillium can probably cause postharvest disease of apples, too.…”

Section: Dominant Fungi Causing Postharvest Diseasesmentioning

confidence: 99%

“…Other fungal genera causing postharvest disease of apples are investigated less than Neofabraea and Penicillium and therefore less knowledge concerning their diversity is available. Fungi of the genus Alternaria are also frequently recorded as fungi causing postharvest diseases of apples (Valiuškaitė et al 2006, Konstantinou et al 2011, Grantina-Ievina 2015. Konstantinou et al (2011) recorded Alternaria tenuissima on stored apples in Greece, while Grantina-Ievina (2015) isolated A. alternata from apples.…”

Section: Dominant Fungi Causing Postharvest Diseasesmentioning

confidence: 99%

“…Many studies focused on the occurrence of fungi causing postharvest diseases of apples have been published from different parts of the world (e.g. Sholberg & Haag 1995, Valiuškaitė et al 2006, Konstantinou et al 2011, Alwakeel 2013, Břrve et al 2013, Grantina-Ievina 2015, Juhnevica-Radenkova et al 2016. Nevertheless, the number of studies comparing the occurrence of fungal species causing postharvest diseases of fruits harvested from organic and integrated apple orchards is very limited.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of the occurrence of fungi causing postharvest diseases of apples grown in organic and integrated production systems in orchards in the Czech Republic.

Novotný¹,

Lukáš²,

Brožová³

et al. 2019

Czech Mycol.

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During the years 2013-2015, the occurrence of fungi causing postharvest diseases of apples was evaluated in three apple orchards with integrated and organic production systems in the Czech Republic. The postharvest disease fungi were more frequently recorded in fruits from organically cultivated apple trees (average 29.97%) than those from integrated production (17.67%). This difference is statistically significant. Neofabraea, Penicillium, Alternaria and a sterile grey mycelium were the most frequently recorded taxa in apples grown in organic and integrated production systems. There were also significant differences in the frequency of occurrence of the most frequent fungal taxa between years. In 2013 and 2014, Neofabraea was the most frequently isolated genus in both cultivation systems, whereas in 2015, Penicillium was the most frequently recorded genus also in both cultivation systems, which was likely caused by the low precipitation in the 2015 growing season.

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An assessment of the air quality in apple warehouses: new records of Aspergillus europaeus, Aspergillus pulverulentus, Penicillium allii and Penicillium sumatraense as decay agents

et al. 2021

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Airborne fungi are one of the major components of aeromycobiota known to produce several fungal diseases in fruits. Their presence in indoor environment of warehouses may limit the storage period of apples. Qualitative and quantitative analyses of airborne fungal spores were conducted using gravity settling techniques to detect fungal airspora present in the atmosphere of two apple warehouses in Tunisia. In this study, 375 fungal isolates were obtained and purified. Phylogenetic analysis of calmodulin, beta-tubulin and ITS regions coupled with phenotypic characterization helped to identify 15 fungal species. Penicillium exhibited the highest diversity with ten species detected (Penicillium allii,

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Fungi Causing Storage Rot of Apple Fruit in Integrated Pest Management System and their Sensitivity to Fungicides

Cited by 19 publications

References 27 publications

Examination of novel Aureobasidium pullulans isolates dominating apple microflora and assessing their potential for apple juice spoilage

Examination of novel Aureobasidium pullulans isolates dominating apple microflora and assessing their potential for apple juice spoilage

Comparison of the occurrence of fungi causing postharvest diseases of apples grown in organic and integrated production systems in orchards in the Czech Republic.

An assessment of the air quality in apple warehouses: new records of Aspergillus europaeus, Aspergillus pulverulentus, Penicillium allii and Penicillium sumatraense as decay agents

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