First Report of Aspergillus flavus Causing Fruit Rot on Kiwifruit in China
2021; American Phytopathological Society; Volume: 106; Issue: 7 Linguagem: Inglês
10.1094/pdis-08-21-1771-pdn
ISSN1943-7692
AutoresGui-Yang Zhu, Xueliang Wang, T.-M. Chen, S.-Y. Wang, X. Chen, Zhiwei Song, Xin‐Chi Shi, Pedro Laborda,
Tópico(s)Plant-Microbe Interactions and Immunity
ResumoHomePlant DiseaseVol. 106, No. 7First Report of Aspergillus flavus Causing Fruit Rot on Kiwifruit in China PreviousNext DISEASE NOTE OPENOpen Access licenseFirst Report of Aspergillus flavus Causing Fruit Rot on Kiwifruit in ChinaG.-Y. Zhu, X. Wang, T.-M. Chen, S.-Y. Wang, X. Chen, Z.-W. Song, X.-C. Shi, and P. LabordaG.-Y. Zhuhttps://orcid.org/0000-0003-2392-3281School of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, X. WangSchool of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, T.-M. ChenSchool of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, S.-Y. Wang†Corresponding authors: S.-Y. Wang; E-mail Address: wangsuyan@ntu.edu.cn, X.-C. Shi; E-mail Address: shxch0301@ntu.edu.cn, and P. Laborda; E-mail Address: pedro@ntu.edu.cnSchool of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, X. ChenSchool of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, Z.-W. Songhttps://orcid.org/0000-0002-5417-3148Eco-Environmental Protection Research Institute, Shanghai Academy of Agricultural Sciences, Shanghai 201403, People's Republic of China, X.-C. Shi†Corresponding authors: S.-Y. Wang; E-mail Address: wangsuyan@ntu.edu.cn, X.-C. Shi; E-mail Address: shxch0301@ntu.edu.cn, and P. Laborda; E-mail Address: pedro@ntu.edu.cnSchool of Life Sciences, Nantong University, Nantong 226019, People's Republic of China, and P. Laborda†Corresponding authors: S.-Y. Wang; E-mail Address: wangsuyan@ntu.edu.cn, X.-C. Shi; E-mail Address: shxch0301@ntu.edu.cn, and P. Laborda; E-mail Address: pedro@ntu.edu.cnhttps://orcid.org/0000-0002-4251-4670School of Life Sciences, Nantong University, Nantong 226019, People's Republic of China AffiliationsAuthors and Affiliations G.-Y. Zhu1 X. Wang1 T.-M. Chen1 S.-Y. Wang1 † X. Chen1 Z.-W. Song2 X.-C. Shi1 † P. Laborda1 † 1School of Life Sciences, Nantong University, Nantong 226019, People's Republic of China 2Eco-Environmental Protection Research Institute, Shanghai Academy of Agricultural Sciences, Shanghai 201403, People's Republic of China Published Online:22 May 2022https://doi.org/10.1094/PDIS-08-21-1771-PDNAboutSectionsView articlePDFSupplemental ToolsAdd to favoritesDownload CitationsTrack Citations ShareShare onFacebookTwitterLinked InRedditEmailWechat View articleIn October 2020, fruit rot symptoms were detected on kiwifruit (Actinidia chinensis var. deliciosa 'Xuxiang') in southwestern Shaanxi (Hanzhong municipality, 107.27° E, 33.23° N) in China. During the harvest period, mature kiwifruit exhibited soft rot and brown lesions. The symptoms were similar to those reported for Alternaria alternata, Colletotrichum spp., Fusarium avenaceum, and Rhizopus oryzae, which cause fruit rot on kiwifruit (Feng et al. 2019; Kim et al. 2018; Li et al. 2017; Zhao et al. 2020). The symptoms were observed in approximately 15% of the fruit in six kiwifruit orchards (31 ha in total). Ten samples of symptomatic tissue, approximately 1 cm2 in size, were sterilized in 2% NaOCl for 30 s and washed twice with sterilized water. The pathogen was isolated from all collected samples via culturing on PDA medium, which contained 50 µg/ml of chloramphenicol, at 28°C. Green powdery colonies were detected after 5 days. A total of 12 isolates were obtained via single-spore isolation. The internal transcribed spacer (ITS), elongation factor 1-α (EF1-α), and RNA polymerase II subunit (RPB2) genes were amplified using ITS5/ITS4, A_EF1_F/A_EF1_R, and RPB2-5F/RPB2-7cR (NJC03) or RPB2-7cF/RPB2-11aR (NJC04) primers, respectively. Eleven isolates shared the same sequences (NJC03), MZ801787 (ITS), MZ701709 (EF1-α), and MZ701707 (RPB2), while one of the isolates provided different sequences (NJC04), OK618459 (ITS), OK634020 (EF1-α), and OL331017 (RPB2). The obtained ITS sequences shared >99% homology to the ITS gene from Aspergillus flavus KU20018.4 (MT487825), the EF1-α sequences shared 100% homology to the EF1-α gene from A. flavus clinical2342 (KP054370), and the RPB2 sequences shared >99% homology to the RPB2 genes from A. flavus PW3170 (LC000581) and A. flavus NRRL3357 (XM_041293948). A molecular phylogenetic tree was constructed using MEGA7 with reference to Aspergillus strains. Microscope observations of all the isolates showed the presence of septate mycelium and circular unicellular conidia (2 to 4 µm in diameter) and conidiophores and agreed with the morphology of A. flavus (Horn 2005). The pathogenicity of all isolates was screened using intact and wounded Xuxiang kiwifruits (10 kiwifruits were used for each combination with three replicates), which were purchased from a local market. An isolate solution of 1 × 106 spores/ml (10 µl) was used for the inoculation. Sterilized water was used in the control experiment. Inoculated kiwifruits were stored at 26°C and 60% relative humidity for 10 days. Rot lesions in the wounded kiwifruits were totally covered by green mycelia, while the lesions on the intact kiwifruits were similar to the symptoms observed in the field. The pathogen was recovered, and its identity was confirmed by sequence analysis of ITS, EF1-α, and RPB2, fulfilling Koch's postulates. A. flavus is known to be an important fungal pathogen of corn, cotton, and peanuts (Zhang et al. 2020). During recent years, A. flavus was reported to cause fruit rot on grapes (Ghuffar et al. 2020) and was identified on almond, fig, organic spelt, and pistachio (Krulj et al. 2017; Ortega-Beltran et al. 2019). The presence of A. flavus in food products is an issue of global concern due to A. flavus being able to produce carcinogenic aflatoxin (Maxwell et al. 2021). As far as we know, this is the first report of A. flavus causing fruit rot on kiwifruit. This report will help to understand the distribution of A. flavus in crops and the food safety hazards that are present in China.The author(s) declare no conflict of interest.References:Feng, L., et al. 2019. Plant Dis. 103:2951. https://doi.org/10.1094/PDIS-12-18-2277-PDN Link, ISI, Google ScholarGhuffar, S., et al. 2020. Plant Dis. 104:3062. https://doi.org/10.1094/PDIS-04-20-0863-PDN Link, ISI, Google ScholarHorn, B. W. 2005. Mycologia 97:202. https://doi.org/10.1080/15572536.2006.11832854 Crossref, ISI, Google ScholarKim, G. H., et al. 2018. Plant Dis. 102:1455. https://doi.org/10.1094/PDIS-11-17-1768-PDN Link, Google ScholarKrulj, J., et al. 2017. Plant Dis. 101:1045. https://doi.org/10.1094/PDIS-11-16-1593-PDN Link, ISI, Google ScholarLi, L., et al. 2017. Plant Dis. 101:1046. https://doi.org/10.1094/PDIS-11-16-1611-PDN Link, ISI, Google ScholarMaxwell, L. A., et al. 2021. 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Wang contributed equally to this work.Funding: Funding was provided by National Natural Science Foundation of China (31801697, 3201101306, and 3217170148).The author(s) declare no conflict of interest.DetailsFiguresLiterature CitedRelated Vol. 106, No. 7 July 2022SubscribeISSN:0191-2917e-ISSN:1943-7692 Download Metrics Downloaded 456 times Article History Issue Date: 8 Jul 2022Published: 22 May 2022First Look: 8 Dec 2021Accepted: 4 Dec 2021 Page: 1990 Information© 2022 The American Phytopathological SocietyFundingNational Natural Science Foundation of ChinaGrant/Award Number: 31801697Grant/Award Number: 3201101306Grant/Award Number: 3217170148KeywordsActinidia deliciosaaflatoxinAspergillus flavusfungal pathogenskiwifruitThe author(s) declare no conflict of interest.PDF downloadCited ByBiocontrol Ability of the Bacillus amyloliquefaciens Group, B. amyloliquefaciens , B. velezensis , B. nakamurai , and B. siamensis , for the Management of Fungal Postharvest Diseases: A Review23 May 2022 | Journal of Agricultural and Food Chemistry, Vol. 70, No. 22
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