# Status and Best Management Practices of Potato Early Dying Disease in New Brunswick, Canada

**Authors:** Khalil I. Al-Mughrabi, Rene Poirier, Salah Eddin Khabbaz

PMC · DOI: 10.3390/biology14050514 · Biology · 2025-05-07

## TL;DR

This study investigates potato early dying disease in New Brunswick, finding high levels of pathogens and nematodes, and identifies effective management practices like fumigation and specific fungicides.

## Contribution

The study provides field-scale evidence on the efficacy of fumigation and specific disease management products for controlling potato early dying disease in New Brunswick.

## Key findings

- Root lesion nematodes and Verticillium dahliae were found at high levels in nearly all tested potato fields.
- Fumigation with Chloropicrin significantly reduced both nematode and Verticillium populations.
- Velum and Aprovia were effective in reducing nematode and Verticillium populations, with combinations showing the best results.

## Abstract

Yield reduction due to potato early dying (PED) in severely affected fields can exceed 50%. The aim of this research was to determine the incidence and abundance of Verticillium dahliae, V. albo-atrum, and nematode propagules in soil samples collected from the major potato cultivation areas in New Brunswick, Canada; identify and quantify the density of Verticillium microsclerotia in the soil using both soil plating and molecular methods to better understand the specific pathogens present and to assess the efficacy of various management measures on PED; assess the effectiveness of fungicides and nematicides and soil amendments in managing PED; and perform a field-scale evaluation of the effectiveness of fumigation to manage PED. This research has highlighted that the populations of root lesion nematodes, which were present in every field tested, were at much higher populations than previously thought, and that 77% of these fields also had V. dahliae present, providing a significantly challenging management issue. Fumigation with Chloropicrin was effective in reducing both nematode and V. dahliae populations. Velum reduced both V. dahliae and nematodes, with Aprovio working well to reduce V. dahliae. The mustard seed meal and bio-stimulant/fertilizer also provided a reasonable decrease in V. dahliae soil propagules.

Potato early dying (PED) disease complex is often called the Verticillium wilt of potato and is considered one of the most economically devastating diseases of potato worldwide. The severity of the disease greatly increases with the association of the soil-borne pathogens Verticillium dahliae and V. albo-atrum and the root lesion nematode (Pratylenchus sp.). Recently, an increase in wilt disease symptoms and a sharp decline in marketable tuber yield were observed in New Brunswick (NB), Canada. A survey of 71 fields, along with eight fumigated and eight non-fumigated fields, was carried out to determine and quantify nematodes and Verticillium in the soil. Techniques used included plate counts for Verticillium (CFU/g soil), real-time qPCR (RT-qPCR) for V. dahliae (cell/g soil), and nematode identification and counts (# of nematodes/kg of soil). The survey results of the 71 fields revealed that 55 fields had Verticillium sp. ranging from 2 to 66 CFU/g of soil by the plate method, and 68 fields had high V. dahliae ranging from 261 to 27,471 cell/g of soil by RT-qPCR method. All fields had high numbers of root lesion nematodes ranging from 560 to 14,240 nematodes/kg of soil. There was an uneven distribution of PED incidence in potato fields at various locations of NB. Fumigation with Chloropicrin significantly reduced the numbers of root lesion nematodes by 34.1–99.0%, Verticillium sp. CFU/g of soil by 50–100%, and V. dahliae cell/g soil by 38–91% in the eight fumigated fields. The management of the PED complex with various disease management products under field conditions was also studied in a field plot trial setup. The nematicide Velum applied in-furrow at the recommended label rate decreased the numbers of root lesion nematodes by up to 66% compared to other products. The combination of both Velum + Aprovia and the application of ammonium-lignosulfonate significantly reduced V. dahliae by 190.55% and 274.24%, respectively, compared to other products. The fungicide Aprovia applied in-furrow at the recommended rate for the management of Verticillium wilt significantly reduced Verticillium sp. CFU/g of soil in treated soil by 73.3% compared to Velum, Mustgrow, Senator PSPT, Vapam, ammonium-lignosulfonate, Nimitz, and the untreated control. Disease management products increased potato marketable yield by 27.38–97.74%. The results of this study suggest that the root lesion nematode and V. dahliae have a ubiquitous distribution in the fields cultivated with potatoes in NB. The co-infection of potato by both V. dahliae and the root lesion nematode can greatly increase the severity of PED. Fumigation with Chloropicrin significantly reduced the levels of root lesion nematodes and Verticillium in all fumigated fields. Management practices of PED using the fungicide Aprovia, the nematicide Velum, and a combination of both Velum + Aprovia had the greatest effect in reducing the population density of the root lesion nematode and Verticillium dahliae in soils of commercial potato fields in New Brunswick.

## Linked entities

- **Chemicals:** Chloropicrin (PubChem CID 6423), Vapam (PubChem CID 5366415)
- **Species:** Verticillium dahliae (taxon 27337), Verticillium albo-atrum (taxon 27335), Pratylenchus sp. (taxon 3082208)

## Full-text entities

- **Diseases:** root lesion nematode (MESH:D009349), Dying Disease (MESH:D064806), Potato (MESH:C538354), wilt disease (MESH:D004194)
- **Chemicals:** Aprovia (-), Chloropicrin (MESH:C100187), Vapam (MESH:C008435)
- **Species:** Nematoda (nematode, phylum) [taxon 6231], Verticillium albo-atrum (species) [taxon 27335], Nematodes (genus) [taxon 333870], Solanum tuberosum (potatoes, species) [taxon 4113], Pratylenchus (genus) [taxon 45927], Verticillium dahliae (species) [taxon 27337]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12109294/full.md

## References

68 references — full list in the complete paper: https://tomesphere.com/paper/PMC12109294/full.md

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Source: https://tomesphere.com/paper/PMC12109294