Microbiome succession during apple fruit development: healthy and pathological microbial assemblages
Microbiome succession during apple fruit development: healthy and pathological microbial assemblages
The surface and internal tissues of fruits host diverse microbial communities but the functional role of this microflora, outside of pathogenic species, in fruit health and quality are largely unknown. The recent use of universal primer sets and advanced sequencing technologies, however, has greatly increased our understanding of these microbial communities without the need to culture them. This is fostering a paradigm shift that views an organism and its microbiota as a single entity (metaorganism). We present our current understanding of the microbiome assembly in apple fruit and its implication on postharvest pathology. We first describe the initial microbial colonization and establishment in flowers, as well as the spatial and temporal community dynamics during fruit development. We then elucidate the patterns of succession that take place in the fruit microbiome as it develops and matures in the field, and subsequently after harvest and during cold storage. Next, we discuss the crucial need to identify species comprising the core microbiome and the need to conduct functional analysis of networks and the cross-talk between microbial components. We then discuss the utilization of this information for the practical development of targeted and precise biological control strategies against postharvest diseases and highlight the opportunities and challenges that exist for designing and manipulating the fruit microbiome. Lastly, topics of research that will enable a paradigm shift in fruit management are discussed in which a fruit and its dynamic microbiota are viewed as one biological entity.
Biological Control, Core microbiome, Fruit microbiome, Fruit pathology, Microbial assemblages, Microbiome succession
Sui, Yuan
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Zhimo, V.Yeka
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Abdelfattah, Ahmed
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Cernava, Tomislav
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Huang, Ke
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Liao, Qinhong
bb147d04-7095-4d60-8acc-029dd8e27c28
Wisniewski, Michael
8151e3c3-1df9-49d8-816f-b5db42e08057
Droby, Samir
180e1947-8fc0-4444-81bb-ed0cb8e098d2
March 2024
Sui, Yuan
725d3cf9-6135-4509-b0c0-6ceafca185ea
Zhimo, V.Yeka
074e4f62-eb09-4724-8c3d-f5c555f639ff
Abdelfattah, Ahmed
5bb85028-c320-421a-855c-97d56b8bcf53
Cernava, Tomislav
a13d65aa-2529-479a-ba90-69ebbc4ba07f
Huang, Ke
60a01b4e-d913-4438-988b-2b31c7c163df
Liao, Qinhong
bb147d04-7095-4d60-8acc-029dd8e27c28
Wisniewski, Michael
8151e3c3-1df9-49d8-816f-b5db42e08057
Droby, Samir
180e1947-8fc0-4444-81bb-ed0cb8e098d2
Sui, Yuan, Zhimo, V.Yeka, Abdelfattah, Ahmed, Cernava, Tomislav, Huang, Ke, Liao, Qinhong, Wisniewski, Michael and Droby, Samir
(2024)
Microbiome succession during apple fruit development: healthy and pathological microbial assemblages.
Postharvest Biology and Technology, 209, [112679].
(doi:10.1016/j.postharvbio.2023.112679).
Abstract
The surface and internal tissues of fruits host diverse microbial communities but the functional role of this microflora, outside of pathogenic species, in fruit health and quality are largely unknown. The recent use of universal primer sets and advanced sequencing technologies, however, has greatly increased our understanding of these microbial communities without the need to culture them. This is fostering a paradigm shift that views an organism and its microbiota as a single entity (metaorganism). We present our current understanding of the microbiome assembly in apple fruit and its implication on postharvest pathology. We first describe the initial microbial colonization and establishment in flowers, as well as the spatial and temporal community dynamics during fruit development. We then elucidate the patterns of succession that take place in the fruit microbiome as it develops and matures in the field, and subsequently after harvest and during cold storage. Next, we discuss the crucial need to identify species comprising the core microbiome and the need to conduct functional analysis of networks and the cross-talk between microbial components. We then discuss the utilization of this information for the practical development of targeted and precise biological control strategies against postharvest diseases and highlight the opportunities and challenges that exist for designing and manipulating the fruit microbiome. Lastly, topics of research that will enable a paradigm shift in fruit management are discussed in which a fruit and its dynamic microbiota are viewed as one biological entity.
Text
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Accepted/In Press date: 16 November 2023
e-pub ahead of print date: 30 November 2023
Published date: March 2024
Additional Information:
Funding Information:
This work was supported by National Natural Science Foundation of China ( 32371928 ), Natural Science Foundation of Chongqing Science and Technology Bureau ( CSTB2022NSCQ-MSX1317 ), and Chongqing Talents – Innovation Leader Project to YS.
Publisher Copyright:
© 2023 Elsevier B.V.
Keywords:
Biological Control, Core microbiome, Fruit microbiome, Fruit pathology, Microbial assemblages, Microbiome succession
Identifiers
Local EPrints ID: 486392
URI: http://eprints.soton.ac.uk/id/eprint/486392
ISSN: 0925-5214
PURE UUID: c92bd94d-3e98-452d-a5e0-feae6f932e0e
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Date deposited: 19 Jan 2024 17:31
Last modified: 25 Apr 2024 02:04
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Contributors
Author:
Yuan Sui
Author:
V.Yeka Zhimo
Author:
Ahmed Abdelfattah
Author:
Tomislav Cernava
Author:
Ke Huang
Author:
Qinhong Liao
Author:
Michael Wisniewski
Author:
Samir Droby
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