Botryotinia fuckeliana

Grey mould

General

Grey mould (Botryotinia fuckeliana / Botrytis cinerea) is a commonly found fungus in many environments. It survives in plant parts like bulbs and crop residues or as sclerotia (drought- and cold-resistant structures) in the soil.

Life cycle and appearance of Grey mould

Spores of grey mould (Botryotinia fuckeliana / Botrytis cinerea) need moisture (dew, rain, irrigation water) and nutrients for germination. Germination also happens at very high relative humidity (RH > 93%) on dry plants. The germ tube grows into the plant. Grey mould (Botryotinia fuckeliana / Botrytis cinerea) is a necrotrophic fungus, meaning that it excretes compounds that kill the plant cells and then uses the content of the plant cells as nutrients. On the infected area, new spores are formed within a few days. Under circumstances unfavourable for germination, the spores can survive a few days on the plant surface and still germinate when the RH increases, for example when cut flowers are harvested and put into cold storage.

Wounds can also provide the fungus with sufficient moisture, for example pruning wounds on the stems of cucumber and tomato.

In general, grey mould (Botryotinia fuckeliana / Botrytis cinerea) is considered a weak pathogen, only infecting weakened or damaged plants.

How to control Grey mould

How to prevent Grey mould

  • Make sure the crop grows regularly with not too much vegetative growth, in order to maintain a microclimate which is not humid enough for grey mould
  • Provide sufficient ventilation in greenhouse crops
  • Remove diseased plants or plant parts in a closed plastic bag
  • In tomato: prune with a knife and not by hand, to avoid rugged, irregular wound surfaces
  • In cucumber:
    • remove dead leaves on the stem once, especially in the autumn, because from these leaves the stems are infected, possibly killing the entire plant
    • maintain a higher RH once stem infection is present, since more plants die at lower RH
    • remove aborting fruits, since these can be infected after abortion and then provide a large amount of inoculum
  • Extra Silicon and/or Calcium nutrition hardens the cell walls and makes it harder for the fungi to enter the leaves

Prevent plant diseases by optimizing plant potential and crop resilience.