Phytophthora cactorum

Apple collar rot

Root damage caused by Phytophthora blight
Root damage caused by Phytophthora blight

General

Phytophthora cactorum is a plant pathogen that causes root rot, rhizome rot of strawberry, apple rot, apple collar rot and crown rot. It has an extremely wide host range.

Life cycle and appearance of Apple collar rot

Phytophthora species are very destructive organisms belonging to the Oomycetes and are therefore strictly speaking not fungi. They thrive at soil temperatures between 15 and 23 °C and higher water content than is optimal for crop growth.

Phytophthora overwinters in roots, infected tubers and bulbs or in the soil in different stages: as oospores (sexual overwintering spores), sporangia (special structures which can either germinate directly or produce zoospores), chlamydospores (thick-walled mycelium cells which are resistant to desiccation) or mycelium. Zoospores are formed from the overwintering structures, which infect the host. Zoospores are spores with flagellae, which enable them to move through water. Infection is usually from the root to the foot, but direct infection of the foot also occurs. Exudates leaking from growing root tips promote germination and attract the zoospores. The pathogen grows into the stem and on the plant surface and new sporangiophores (structures containing sporangia, a type of spores) with sporangia are formed, that protrude through the stomata. Secondary infection is either by germinating sporangia or by zoospores produced in the sporangia. For germination on above-ground plant parts, leaf wetness is required.

Dispersal by wind and rain causes the pathogen to be returned to the soil from infected plants. Dispersal in the soil happens via water, since the zoospores can readily move through water. This explains why the disease spreads more rapidly when the water content of the soil or substrate is higher than normal or optimal for crop growth.

How to prevent Apple collar rot

  • Apply hygiene measures, like cleaning machinery and tools, destroy waste heaps, remove remaining roots, infested leaves
  • Choose less susceptible or resistant cultivars when available
  • Prevent over-irrigating and be careful with overhead irrigation since both a high water content of the soil and water splash promote disease. Ensure fast drying and wound healing, by allowing air circulation
  • Disinfect recirculating nutrient solutions

Prevent plant diseases by optimizing plant potential and crop resilience.