Epidemiology and management of primary Phytophthora infections in potatoes

Phytophthora infestans

late blight on potato leaf

Successful management of potato late blight, caused by Phytophthora infestans, depends critically on the timing of the first application of control tactics. The decision when to make this application is complicated by the fact that the time of onset of the disease can very considerably among years, occurring early in some years and late in others. The colonization of above-ground plant parts by P. infestans is initiated when the pathogen grows upward from infected tubers through the stems, producing very early symptoms of primary infection on stems or on the foliage.

Materials and Methods

Experiments with infected seed tubers were carried out at two sites, Puch (heavy soil) and Strassmoos (light soil), to determine the effect of precipitation and soil moisture on the incidence of primary Phytophthora infections. At both sites, tubers inoculated with 50 zoospores of the pathogen were planted either early (early April) or late (early May). To determine whether primary infections can be reduced by seed treatment or a well-timed early fungicide spray, tubers were treated with the fungicidal seed treatment EPOK (Metalaxyl M + Fluazinam) 50 ml/dt, or stems emerging from untreated tubers were tested for latent Phytophthora infections using PCR and the corresponding plots sprayed with RIDOMIL GOLD MZ (Metalaxyl M + Mancozeb) 2kg/ha after the first positive PCR result.

Results and Discussion

Fig. 1: Relationship between cumulative rainfall and time of first symptom appearanceZoombild vorhanden

Fig. 1: Relationship between cumulative rainfall and time of first symptom appearance

Following crop emergence, the first symptoms of primary Phytophthora infection became evident one week after about 20 mm of rain had fallen (Fig. 1). Potatoes planted at Puch in early April subsequently developed 10% incidence of primary stem infection, while those planted in early May had an incidence of primary infection of less than 1%.
Fig. 2: Relationship between temperature sum and time of first symptom appearanceZoombild vorhanden

Fig. 2: Relationship between temperature sum and time of first symptom appearance

This difference was most likely due to differences in soil moisture: while the total amount of precipitation prior to symptom appearance was similar for the two planting dates, the temperature sum accumulated between precipitation and symptom appearance was increased by about one-third for the later planting date (Fig. 2).
Fig. 3: Incidence of stem infection by Phytophthora infestans in relation to treatmentZoombild vorhanden

Fig. 3: Incidence of stem infection by Phytophthora infestans in relation to treatment

In plots in which tubers were treated with fungicide prior to planting, the incidence of primary stem infection was reduced by about two-thirds relative to the untreated control. Disease reductions were even grater for plots receiving timely fungicide sprays based on PCR testing for latent infection (Fig. 3). This study further documented for the first time that P. infestans is able to colonize daughter tubers directly from infected mother tubers in the soil.