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Editorial: Advancing sustainable management of fungal diseases in berry crops

Manuel Avilés, Peter M. Henry, Berta de los Santos, Ángel Rebollar‐Alviter, C. Borrero

Year
2025
Citations
1
Access
Open access

Abstract

Early and accurate disease detection is crucial for timely intervention and minimizing crop losses. Lee et al.[https://www.frontiersin.org/articles/10.3389/fpls.2020.559172/full] addressed this challenge by proposing an improved vision-based detection method for strawberry diseases using deep learning. Their work demonstrated that a deep neural network (DNN) incorporating PlantNet, a backbone feature extractor pre-trained on plant data, and a two-stage cascade detection model could effectively identify strawberry diseases. This approach offers the potential for integration into automated robotic systems, enabling early detection and targeted interventions, thus reducing the reliance on broadspectrum treatments.Understanding the molecular interplay between the host plant and the pathogen is fundamental for developing targeted disease management strategies. Several recent studies have delved into these interactions in strawberry. Zhang et al.[https://www.frontiersin.org/articles/10.3389/fpls.2022.1105591/full] conducted a genome-wide analysis of the LysM gene family in octoploid strawberry and examined their expression in response to infection by Colletotrichum fructicola, a causal agent of anthracnose. LysM receptor-like kinases (LysM-RLKs) play crucial roles in plant immunity by recognizing chitin, a major component of fungal cell walls. Identifying and characterizing these genes in strawberry can provide insights into the plant's defense mechanisms against fungal pathogens and potentially inform breeding strategies for enhanced resistance.Focusing on another significant pathogen of strawberry, Phytophthora cactorum, Ghimire et al. [https://www.frontiersin.org/articles/10.3389/fpls.2024.1379970/full] performed a transcriptome analysis of the pathogen during infection of susceptible strawberry. Their research aimed to identify RXLR effectors, proteins secreted by oomycetes to manipulate host cells and promote infection. The identification of these effectors and understanding their function in inducing cell death contributes to our knowledge of P. cactorum pathogenesis and may reveal potential targets for disease control interventions.Ozbudak et al. [https://www.frontiersin.org/articles/10.3389/fpls.2024.1390926/full] investigated the transcriptome analysis of the interaction between Colletotrichum nymphaeae and strawberry, another species within the anthracnose-causing Colletotrichum acutatum species complex. Their study identified in planta expressed genes of the fungal pathogen that are potentially associated with virulence. The significant expression of genes encoding enzymes like tannase, endochitinase, and chitinase during infection in different strawberry tissues (wounded leaves, unwounded leaves, and fruits) highlights the active role of these fungal factors in disease development. This knowledge can aid in understanding the infection process and identifying targets for disruption.Beyond understanding the disease and the pathogen, developing sustainable control methods is paramount.Hernández-Muñiz et al.[https://www.frontiersin.org/articles/10.3389/fpls.2024.1416401/full] explored the optimization of anaerobic soil disinfestation (ASD) as a non-chemical alternative for controlling Verticillium dahliae, the causal agent of Verticillium wilt in strawberry. By using local agrowastes such as rice bran and residual strawberry extrudate as soil amendments under anaerobic conditions, they aimed to reduce the pathogen inoculum in the soil. Their findings indicated that rice bran amendment at an optimized rate effectively reduced V. dahliae density, demonstrating the potential of ASD utilizing locally available organic residues as a sustainable alternative to chemical fumigants.While not directly focused on strawberry, the research by Chen et al.[https://www.frontiersin.org/articles/10.3389/fpls.2024.1475416/full] on resistance enhancement in tomato fruit against Botrytis cinerea using bacterial volatile organic compounds (VOCs)

Keywords

BerryFungal diseaseBiologyBiotechnologyAgroforestryBotanyHorticulture

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