# The crop wild relative Fragaria vesca as source of resistance against strawberry anthracnose

**Authors:** C. Rose, I. Vogt, A. Reineke, J. Ludwig‐Müller, P. Nick, C.‐M. Geilfus

PMC · DOI: 10.1111/plb.70087 · 2025-08-07

## TL;DR

Wild strawberry relatives like Fragaria vesca show resistance to anthracnose disease, offering a sustainable way to breed more disease-resistant cultivated strawberries.

## Contribution

The study identifies a wild strawberry genotype with broad resistance to multiple Colletotrichum strains, suggesting new avenues for breeding.

## Key findings

- Fragaria vesca genotypes showed varying levels of resistance to Colletotrichum species.
- The genotype NO 04 002 demonstrated resistance to six C. nymphaeae strains and tolerance to others.
- The resistance in F. vesca appears to be nonspecific and not based on the known RCA2 gene.

## Abstract

The genetic diversity of Fragaria species in situ has great potential for breeding resistance in cultivated strawberries against anthracnose disease. In this study, we investigated the host–pathogen interactions of 72 F. vesca genotypes of various German origins to identify new resistance to Colletotrichum, one of the most economically important genera of pathogens in F. × ananassa cultivation.The host–pathogen interactions were monitored by symptomatic scoring after spray‐inoculation of F. vesca genotypes with monoconidial Colletotrichum isolates of different species recently determined in German strawberry fields.We observed significant variation in host–pathogen interaction, ranging from host genotypes exhibiting resistance to a single pathogen strain, to those demonstrating broad‐spectrum resistance. The most promising F. vesca genotype, NO 04 002, showed resistance to at least six C. nymphaeae strains and tolerance to other pathogen species. However, the monogenetic resistance gene RCA2, known from F. × ananassa, was not detectable in any of the ancestral F. vesca genotypes, suggesting a more basal resistance.Our study demonstrates the potential of a crop wild relative (CWR), namely F. vesca, as genetic resource for resistance to economically relevant strawberry anthracnose. Since this resistance is based on nonspecific defence mechanisms in the host, it contributes to the development of breeding strategies that are less susceptible to resistance erosion, supporting more sustainable strawberry production.

The genetic diversity of Fragaria species in situ has great potential for breeding resistance in cultivated strawberries against anthracnose disease. In this study, we investigated the host–pathogen interactions of 72 F. vesca genotypes of various German origins to identify new resistance to Colletotrichum, one of the most economically important genera of pathogens in F. × ananassa cultivation.

The host–pathogen interactions were monitored by symptomatic scoring after spray‐inoculation of F. vesca genotypes with monoconidial Colletotrichum isolates of different species recently determined in German strawberry fields.

We observed significant variation in host–pathogen interaction, ranging from host genotypes exhibiting resistance to a single pathogen strain, to those demonstrating broad‐spectrum resistance. The most promising F. vesca genotype, NO 04 002, showed resistance to at least six C. nymphaeae strains and tolerance to other pathogen species. However, the monogenetic resistance gene RCA2, known from F. × ananassa, was not detectable in any of the ancestral F. vesca genotypes, suggesting a more basal resistance.

Our study demonstrates the potential of a crop wild relative (CWR), namely F. vesca, as genetic resource for resistance to economically relevant strawberry anthracnose. Since this resistance is based on nonspecific defence mechanisms in the host, it contributes to the development of breeding strategies that are less susceptible to resistance erosion, supporting more sustainable strawberry production.

The crop wild relative Fragaria vesca is a valuable resource to mine for novel resistance factors against Colletotrichum.

## Linked entities

- **Genes:** LOC102703910 (ribulose bisphosphate carboxylase/oxygenase activase, chloroplastic) [NCBI Gene 102703910]
- **Species:** Fragaria vesca (taxon 57918), Colletotrichum (taxon 5455)

## Full-text entities

- **Diseases:** anthracnose disease (MESH:D004194)
- **Species:** Fragaria vesca (alpine strawberry, species) [taxon 57918], Fragaria x ananassa (strawberry, species) [taxon 3747], Fragaria (genus) [taxon 3746]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12631507/full.md

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Source: https://tomesphere.com/paper/PMC12631507