NL1019963C2 - Preventing mite damage to plants, e.g. bulb or tuber plants, involves use of ultra low oxygen regime - Google Patents

Abstract

Preventing mite damage to plants comprises subjecting the plants to a first period under an ultra low oxygen (ULO) regime, a second period under a standard region and a third period under a ULO regime.

Description

Method for protecting crops

The present invention relates to a method for controlling mite in crops.

Until now, pirimifos-methyl, also known as Actellic 50, has been used as a plant protection product for controlling insects and mites on crops such as flower bulbs and unground grains. Because this substance is very toxic by inhalation, there is a strong need for a safe, non-toxic alternative.

10 It has been known for some years that crops such as flower bulbs can be stored advantageously under ULO ("ultra low oxygen") conditions. For example, in the Vakblad voor de Bloemisterij, 12 (1995) it is described that stopping the aging process in which oxygen and carbon dioxide are generated makes it possible to feed the bulbs around the year without having to freeze the bulbs deeply for later planting dates or having to grow in southern regions for earlier planting dates.

When storing crops under the ULO regime, it has now been unexpectedly found that when this application of a low-oxygen climate is in some way alternated with the application of a normal, ie non-ULO, regime, the number of mites present is almost zero is reduced. The way in which the ULO conditions are realized and maintained over a number of days is, incidentally, not critical and is for example represented in the European patent application EP 315309A and the state of the art described therein. A low oxygen content is generally achieved with the addition of nitrogen from, for example, a nitrogen generator and a low carbon dioxide content with the aid of an air washer, also called scrubber.

The present invention provides an effective and environmentally harmless method of the type mentioned in the preamble, characterized in that the crops are treated at least alternately under a first period ULO regime, a second period normal regime and a third period ULO regime. In this context, "normal regime" means air with a usual oxygen level of approximately 20% and a usual carbon dioxide gas level of approximately 4%.

"H 1 ·" · Q 3 -2-

The method according to the invention can be applied with great success to various types of crops, namely to bulbous plants such as flower bulbs, for example tulips, hyacinths, narcissus, lilies, but also to vegetables such as onions. In addition, root vegetables such as gladiolus, dahlias or zantedeschia can also be treated against the presence of mite by means of the method according to the invention.

According to a preferred embodiment of the invention, the crops are treated for a first period under ULO regime in an airtight climate control room which lasts 5 to 50 days, preferably 8 to 15 days, more preferably around 11 days. The second period of normal regime, in which the climate control space is generally opened, then then preferably lasts 5 to 15 days, more preferably around 8 days. The third period under ULO regime in the climate control room lasts for 5 to 50 days, preferably 10 to 20 days, more preferably 17 to 19 days.

The ULO regimens are characterized by conditions with a low oxygen content of approximately 0.2 - 2% oxygen, preferably lower than 1.5% oxygen. More preferably, the carbon dioxide gas content is also kept low, namely at about 0.2 to 5% carbon dioxide, in particular lower than 2% carbon dioxide, wherein carbon dioxide gas is a non-chemical name for carbon dioxide.

During the application of the process according to the invention, the temperature is kept at 0-25 ° C, preferably at approximately 15-25 ° C, in particular around 20 ° C. It will be clear to those skilled in the art that it is generally important for the quality of the crops that for a good result of the method according to the invention it is not necessary to freeze it, but that storage at room temperature to a surprisingly good result.

The process described in this application reduces the amount of mite present in various types of mite species such as, for example, the bulb mite and the tulip gall mite.

The length of the treatment periods used are based on the insight that the mites are killed under ULO conditions, but not the eggs originating from the mites. It will be clear that it is within the expertise of the person skilled in the art to adjust the length of the three regimes to combat different types of mite, and also other vermin than mite.

The present invention will be further elucidated on the basis of three examples without limiting the scope of protection in any way. 5

Example 1

Five portions of tulip bulbs from the Tulipa Tulp crop, type Miss Holland, were treated as follows: - the tulip bulbs were placed in an airtight cell with a cell temperature set at 20 ° C, with a nitrogen generator the oxygen content in the cell was reduced to < 1.5% and the scrubber set to <2% carbon dioxide, this first regime is maintained for 11 full days 15 - the cell is then opened for 8 days exposing the tulip bulbs to the outside air - the cell is again sealed airtight under the same conditions as under the first regime; sample 1 was removed from the cell after 10 days of ULO regime, sample 2 after 12 days, sample 3 after 14 days, sample 4 after 17 days, sample 5 after 19 days; 20 each without disturbing the ULO regime.

Table 1 - samples - number of bulb mites 25 sample 0, untreated 44500 sample 1, after 10 days ULO 64 sample 2, after 12 days ULO 25 sample 3, after 14 days ULO 121 sample 4, after 17 days ULO 2 30 sample 5, after 19 days ULO 1 -4-

A study has been carried out by the Laboratory of Flower Bulb Research Foundation into the survival of bulb mites under the above-mentioned conditions, the results of which are shown in Table 1.

Conclusion: It is clear that treatment with ULO interrupted by allowing a period of air to effectively kill bulb mites.

Example 2 Five portions of the Tulipa Tulp, Union Jack type were treated in exactly the same way as described in Example 1.

A study was carried out by the same laboratory as in Example 1 into the survival of bulb mites under the conditions mentioned above. The tulip bulbs are placed in a so-called "Berlese funnel" per bag (sample) supplied and lamps have been fitted. The bulbs were treated in these funnels for a number of days and the numbers of bulb mites were collected per bag supplied. After 3 days the numbers of trapped mites were counted, the result of which is shown in Table 2.

Table 2 _samples__ number of bulb mites sample 0, untreated> 1000 sample 1, after 10 days ULO 3 sample 2, after 12 days ULO 11 sample 3, after 14 days ULO 4 sample 4, after 17 days ULO 1 sample 5, after 19 days ULO 0 1

Conclusion: with so few remaining mites we can speak of a very good result.

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Example 3

Five portions of the Tulipa Tulp, Blue Parrot species, were treated in exactly the same way as described in Examples 1 and 2.

5 A study was carried out by the same laboratory into the survival of gall mites under the conditions mentioned above. For gall mites, the trapping method used for bulb mites is not suitable and it is microscopically determined per bag whether there is survival of gall mites. Only live gall mites were found in the control sample.

10 A more accurate assessment was also made of whether there was survival of gall mites in the treated lots of tulips. To this end, the Blue Parrot tulip bulbs were transferred to paper bags and hung in mesh bags in a storage cell at 20 ° C. Hanging the bags with tulip bulbs is done in such a way that overflowing of gall mites was not possible. A so-called catching substrate is arranged between the spheres. This catch substrate was collected after 30 days and assessed for the presence of live gall mites. Again only live gall mites were found in the control sample.

Conclusion: the gall mite can also be combated extremely effectively using the method of the present invention.

Claims (10)

Method for controlling mites in crops, characterized in that the crops are treated at least alternately under a first period ULO regime, a second period normal regime and a third period ULO regime. Method according to claim 1, characterized in that bulb plants are treated. Method according to claim 2, characterized in that the bulb plant flower bulbs is treated. Method according to claim 1, characterized in that tubers are treated. 15 Method according to one or more of the preceding claims, characterized in that the first period of the ULO regime lasts 5 to 50 days. 6. Method according to one or more of the preceding claims, characterized in that the second period of normal regime lasts 5 to 15 days. Method according to one or more of the preceding claims, characterized in that the third period ULO regime lasts 5 to 50 days. Method according to one or more of the preceding claims, characterized in that the air contains 0.2 - 2% oxygen during the periods of the ULO regime. Method according to one or more of the preceding claims, characterized in that the air contains 0.2 - 5% carbon dioxide during the periods of the ULO regime. 30 Method according to one or more of the preceding claims, characterized in that the temperature during the treatment is set to 0 - 25 ° C. 5 10 15 1 0 10: S