Pests > Pest Management > Biological control > Biocontrol, rootknot nematodes, greenhouses



Pests > Pest Management > Biological control > Biocontrol, rootknot nematodes, greenhouses

Pests Pest Management Biological control Biocontrol, rootknot nematodes, greenhouses

Biological control of nematodes

March 2011. An interesting article (below) was seen on the Wageningen UR website concerning biological control of nematodes in greenhouses. None of the methods was outstanding, but incorporating fresh organic matter yielded the “best” predicable result:

http://www.glastuinbouw.wur.nl/UK/theme/quality/Organic/rootknot-nematodes/

Other methods tried were:

  • biofumigation using cabbage leaves
  • boron
  • Pasteuria pentrans
  • Baijens cultivation system (for cucumber) – two rows of cucmber are planted in one row and separated above soil level, allowing treatments on the larger row spaces (e.g., nematode controlling plants, or biological soil fumigation during cultivation.

Members suggested other techniques:

  • planting tomatoes as a trap crop, so their growing roots will attract the juvenile nematodes, and when cysts begin to form on the roots, pull them out.
  • Verticillium chlamydosporium cultured on compost as an alternative to the commercially available spore-preparations. The challenge is in finding a suitable isolate that will both grow on ordinary compost (much like mushrooms farmed on straw) as well as retain its effectiveness as a nematophagous fungus. The complexity increases by ‘rotation’ with crops which suppress nematodes.
  • It was also noted the benzyl isothiocyanate is derived from Carica papaya seeds.

A member also gave information on the use of mustard oil by horticulturists in Queensland, Australia. It is a soil conditioner that acts as a soil fumigant. It can be seen as an effective and presumably much safer than methyl bromide, etc. It can be applied through a drip irrigation system or watered in by hand for small areas.

As with the other brassciae the active agent is methyl isothiocynate. It certainly takes care of pathogenic nematodes and the soil fungi that beset crops grown under protection. It also kills snails and slugs that shelter under plastic mulches. It has killed mole crickets and dollar spot on a putting green. The seed cake from which the oil has been removed is really a waste product, but it is a good organic fertilizer. The member mixed it with potting soil for Strelitzia seedlings. They stay in their pots for 2 years and – in my nursery at least – weeds are a problem. The pelleted cake gave them a really good growth start and kept the weeds away – at least for a couple of months. Another member mentioned that Schering Agro GmBh (before they were bought out) used to market methyl isothiocyanate as Ditrapex or Vorlex and it was freely available from the mid-1960s. Supply has now been discontinued. It was particularly useful for apple replant disease and was very effective against all nematodes including Meloidogyne javanica – its only drawbacks were that it was as poisonous as EDB (oral LD50 489 mg/kg), very corrosive and had to be soil injected. It was also twice the price of EDB being used at the same rate. Unlike Methyl Bromide, weed control was not one of its strengths.

Biological control of rootknot nematodes

Biological control of root knot nematodes in organic greenhouse horticulture remains difficult

http://www.glastuinbouw.wur.nl/UK/theme/quality/Organic/rootknot-nematodes/

A simple, straightforward technique or method for effective control of root knot nematode problems in organic greenhouse horticulture is not yet available. This is the message of a research report by the Plant Sciences Group of Wageningen UR.

Photograph: Root knot nematodes are causing root malformation. This prevents the plants from taking up water and nutrients, sometimes causing death.

Techniques and methods such as biofumigation, different cultivation systems and the use of biocontrol agents were compared in the study. According to the coordinator of this research, Andr?? van der Wurff, the solution is ??? for the time being – consisting of a package a measures with growers choosing an approach on the basis of type of root knot nematode, crop, type of holding, and soil composition.

Van der Wurff, who is working for Wageningen UR Greenhouse Horticulture of the Plant Sciences Group: ???Currently, steaming of the soil is seen as the most effective method for controlling root knot nematodes (Meloidogyne species). But this technique has major disadvantages: all other soil life is killed as well and the method requires a lot of energy. This is why the study focused on alternative techniques for restricting the damage caused by nematodes.???

The scientists tested a large number of means and methods for biological control of root knot nematodes. Only boron and some still unauthorised plant extracts showed some degree of effectiveness but none of the products could fully control the nematodes.

The study into biological soil disinfestation showed that withdrawal of oxygen from the soil, by incorporating fresh organic matter, yielded the best predictable results. Biofumigation, by isothyonate gas released after the incorporation of, e.g., cabbage leaves, does not simply lead to predictable results. This is caused by the large effect of, e.g., age of the leaves and cabbage type.

Use of the biocontrol agent Pasteuria penetrans, a bacterium originating from Japan, was found to be effective against various types of root knot nematodes. The study showed the pasteuria bacterium to be effective against the nematode species Meloidogyne javanica and Meloidogyne incognita but it was insufficiently effective against all nematodes. In addition, the use of the bacterium is not yet authorised in the Netherlands.

The use of special cultivation systems can also contribute to controlling root knot nematode problems. The so-called Baijens cultivation system was found to offer good possibilities for the control of nematodes in cucumber cultivation. In this cultivation system the number of cucumber plants of two rows is planted in one row with the plants being separated above the ground. This leaves much wider soil strips between the rows; these can then better be used for measures to control the nematode problems, e.g., by cultivating nematode-controlling plants or biological soil fumigation during cultivation.

Considering all results, the scientists conclude that no ready-made method is available for the organic control of root knot nematode problems in organic greenhouse horticulture. Van de Wurff: ???organic growers will have to analyse their own situation carefully and then choose the best approach, usually involving more than one technique.???