Are environmental factors correlated with the diversity of Phytophthora in organically and conventionally managed citrus orchards in Sicily?: Insights from metabarcoding and baiting

Sebastiano Conti Taguali; Federico La Spada; Antonella Pane; Peter J. A. Cock; Beatrix Keillor; David E. L. Cooke; Santa Olga Cacciola

doi:10.1007/s11557-025-02091-2

Are environmental factors correlated with the diversity of Phytophthora in organically and conventionally managed citrus orchards in Sicily? Insights from metabarcoding and baiting

Sebastiano Conti Taguali, Federico La Spada, Antonella Pane, Peter J. A. Cock, Beatrix Keillor, David E. L. Cooke^*, Santa Olga Cacciola^*

^*Corresponding author for this work

Strathclyde Institute Of Pharmacy And Biomedical Sciences

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Phytophthora species pose a significant threat to citrus production in the Mediterranean, particularly in Sicily, a major citrus-producing region. This study explores the diversity and distribution of Phytophthora taxa in Sicilian citrus orchards, addressing the urgent need to tackle increasing agricultural challenges, such as climate change. Specifically, it aimed to evaluate how environmental factors, such as the type of management (organic vs. conventional) and geographical area influence the composition of Phytophthora communities in Sicilian citrus orchards, and whether these communities correlate with tree health. An additional objective was to compare the effectiveness of traditional baiting and high-throughput metabarcoding techniques (targeting the ITS1 region and RPS10 gene) in capturing this diversity, as well as to assess potential shifts in community structure resulting from climate change by comparing current data with historical records. Soil samples were collected from ten citrus-producing areas under two distinct agronomic management and tree health conditions. Traditional baiting recovered 556 isolates of three already described Phytophthora species, while ITS1 metabarcoding identified ten additional taxa, demonstrating higher specificity (99.5% of ITS1 reads classified as Phytophthora compared to 82.5% for RPS10). Our findings indicate that geographical location is a key driver of community composition. Although statistical analyses did not reveal significant differences in Phytophthora diversity between organic and conventional management systems, these results provide valuable insights into the factors shaping pathogen communities. These insights are crucial for developing targeted disease management strategies and for understanding how environmental stressors, including climate change, impact pathogen dynamics in Mediterranean citrus orchards.

Original language	English
Article number	76
Number of pages	24
Journal	Mycological Progress
Volume	24
DOIs	https://doi.org/10.1007/s11557-025-02091-2
Publication status	Published - 8 Nov 2025

Funding

The authors acknowledge the projects “Nuove soluzioni tecnologiche per la filiera degli agrumi: trasferimento di innovazione per il miglioramento degli standard qualitativi delle produzioni agrumicole e per fronteggiare la minaccia di malattie infettive di origine fungina degli agrumi nel comprensorio del GAL Eloro – NewCitrusTech” (cod. 1.3.1”—Misura 19 PSR 2014/2022 Sostegno allo sviluppo locale leader, sottomisura 19.2 “Sostegno all’esecuzione degli interventi nell’ambito della strategia di Sviluppo locale di tipo partecipativo—CLLD), and “Azioni Innovative per la Produttivit` a del Distretto dell’Ortofrutta di Qualit` a – INNOVAPROD” (cod. 1.3.2”—Misura 19 PSR 2014/2022 “Sostegno allo sviluppo locale leader, sottomisura 19.2; Sostegno all’esecuzione degli interventi nell’ambito della strategia di Sviluppo locale di tipo partecipativo—CLLD). The authors acknowledge the projects European Union (NextGeneration EU), through the MUR-PNRR project SAMOTHRACE (ECS00000022).

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

ITS1
Metabarcoding
Illumina
DNA sequencing
Leaf baiting
Citrus orchards
RPS10 gene

Access to Document

10.1007/s11557-025-02091-2Licence: CC BY 4.0

Taguali-etal-MP-2025-Are-environmental-factors-correlated-with-the-diversity-of-PhytophthoraFinal published version, 4.49 MBLicence: CC BY 4.0

Cite this

Conti Taguali, S., La Spada, F., Pane, A., Cock, P. J. A., Keillor, B., Cooke, D. E. L., & Cacciola, S. O. (2025). Are environmental factors correlated with the diversity of Phytophthora in organically and conventionally managed citrus orchards in Sicily? Insights from metabarcoding and baiting. Mycological Progress, 24, Article 76. https://doi.org/10.1007/s11557-025-02091-2

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title = "Are environmental factors correlated with the diversity of Phytophthora in organically and conventionally managed citrus orchards in Sicily?: Insights from metabarcoding and baiting",

abstract = "Phytophthora species pose a significant threat to citrus production in the Mediterranean, particularly in Sicily, a major citrus-producing region. This study explores the diversity and distribution of Phytophthora taxa in Sicilian citrus orchards, addressing the urgent need to tackle increasing agricultural challenges, such as climate change. Specifically, it aimed to evaluate how environmental factors, such as the type of management (organic vs. conventional) and geographical area influence the composition of Phytophthora communities in Sicilian citrus orchards, and whether these communities correlate with tree health. An additional objective was to compare the effectiveness of traditional baiting and high-throughput metabarcoding techniques (targeting the ITS1 region and RPS10 gene) in capturing this diversity, as well as to assess potential shifts in community structure resulting from climate change by comparing current data with historical records. Soil samples were collected from ten citrus-producing areas under two distinct agronomic management and tree health conditions. Traditional baiting recovered 556 isolates of three already described Phytophthora species, while ITS1 metabarcoding identified ten additional taxa, demonstrating higher specificity (99.5\% of ITS1 reads classified as Phytophthora compared to 82.5\% for RPS10). Our findings indicate that geographical location is a key driver of community composition. Although statistical analyses did not reveal significant differences in Phytophthora diversity between organic and conventional management systems, these results provide valuable insights into the factors shaping pathogen communities. These insights are crucial for developing targeted disease management strategies and for understanding how environmental stressors, including climate change, impact pathogen dynamics in Mediterranean citrus orchards.",

keywords = "ITS1, Metabarcoding, Illumina, DNA sequencing, Leaf baiting, Citrus orchards, RPS10 gene",

author = "\{Conti Taguali\}, Sebastiano and \{La Spada\}, Federico and Antonella Pane and Cock, \{Peter J. A.\} and Beatrix Keillor and Cooke, \{David E. L.\} and Cacciola, \{Santa Olga\}",

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Are environmental factors correlated with the diversity of Phytophthora in organically and conventionally managed citrus orchards in Sicily? Insights from metabarcoding and baiting. / Conti Taguali, Sebastiano; La Spada, Federico; Pane, Antonella et al.
In: Mycological Progress, Vol. 24, 76, 08.11.2025.

Research output: Contribution to journal › Article › peer-review

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T2 - Insights from metabarcoding and baiting

AU - Conti Taguali, Sebastiano

AU - La Spada, Federico

AU - Pane, Antonella

AU - Cock, Peter J. A.

AU - Keillor, Beatrix

AU - Cooke, David E. L.

AU - Cacciola, Santa Olga

PY - 2025/11/8

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AB - Phytophthora species pose a significant threat to citrus production in the Mediterranean, particularly in Sicily, a major citrus-producing region. This study explores the diversity and distribution of Phytophthora taxa in Sicilian citrus orchards, addressing the urgent need to tackle increasing agricultural challenges, such as climate change. Specifically, it aimed to evaluate how environmental factors, such as the type of management (organic vs. conventional) and geographical area influence the composition of Phytophthora communities in Sicilian citrus orchards, and whether these communities correlate with tree health. An additional objective was to compare the effectiveness of traditional baiting and high-throughput metabarcoding techniques (targeting the ITS1 region and RPS10 gene) in capturing this diversity, as well as to assess potential shifts in community structure resulting from climate change by comparing current data with historical records. Soil samples were collected from ten citrus-producing areas under two distinct agronomic management and tree health conditions. Traditional baiting recovered 556 isolates of three already described Phytophthora species, while ITS1 metabarcoding identified ten additional taxa, demonstrating higher specificity (99.5% of ITS1 reads classified as Phytophthora compared to 82.5% for RPS10). Our findings indicate that geographical location is a key driver of community composition. Although statistical analyses did not reveal significant differences in Phytophthora diversity between organic and conventional management systems, these results provide valuable insights into the factors shaping pathogen communities. These insights are crucial for developing targeted disease management strategies and for understanding how environmental stressors, including climate change, impact pathogen dynamics in Mediterranean citrus orchards.

KW - ITS1

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KW - Illumina

KW - DNA sequencing

KW - Leaf baiting

KW - Citrus orchards

KW - RPS10 gene

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DO - 10.1007/s11557-025-02091-2

M3 - Article

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JO - Mycological Progress

JF - Mycological Progress

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