NL2001517C2 - Cultivating orchids in greenhouse by growing Vanilla orchid under specific conditions, irradiating plant with light, and supplying manure and nutrients including naphthalene acetic acid, cytokines and 6-benzylaminopurine to plants - Google Patents

Abstract

Method for cultivating orchids in greenhouse, involves growing Vanillaorchid under temperature of 14-16[deg] C for 8-10 weeks, cultivating the plants at temperature of 23-28[deg] C for 9-12 months, controlling humidity of the plant to 85-95%, irradiating the plant with 400-600 joules of light per day, supplying manure and nutrients including naphthalene acetic acid, cytokines and 6-benzylaminopurine to the plants and growing the plants until it reaches height of 10 cm. (Incomplete specification, abstract based on available information published by patent office).

Description

P82677NL00

Improved method for growing orchids in a greenhouse

This invention relates to an improved method for growing orchids in a greenhouse, more in particular for growing vanilla.

Growing orchids in a greenhouse has increased enormously in popularity in the last decades, but is still largely limited to the cultivation of pot plants and the cultivation of multi-year cut orchids. It would be desirable to also carry out the cultivation of perennial orchid plants under conditioned conditions, such as can be achieved in a greenhouse. This is especially important for the cultivation of the vanilla orchid, Vanilla planifolia, Vanilla tahitensis, Vanilla pompona a climbing plant that needs trees or other forms of permanent support to grow along. The vanilla orchid is mainly known for its fruits, the vanilla beans that are often used as a fragrance and flavoring agent in ripe and dried form, but there is also a demand for the flowers of the vanilla orchid. Due to certain climate requirements, the vanilla orchid is mainly grown in countries with a tropical climate

Due to the high demand for vanilla products and the limited availability of controlled vanilla (vanilla with a constant supply and constant quality), the vanilla orchid has a high commercial and economic value. It is already known from the prior art that the vanilla orchid can be grown in a greenhouse, where the climate requirements and the lighting can be optimally regulated. Sometimes even better than in the tropical countries because in a greenhouse the climate can be kept constant and it can be prevented that the temperature during the formation of fruit falls below 17-18 ° C at night. However, since one depends on the fixed support along which vanilla grows, a large area is needed for the growth, which therefore results in a relatively low yield per m2 of greenhouse space. In addition, the continuous growth of the vanilla orchid also causes 30 spatial problems.

Thus, there is still a need for a method that facilitates the cultivation of the vanilla orchid.

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Summary of the invention

The present invention comprises a method for growing orchids wherein after each flowering / fruit ripening cycle of said orchid the stem is rooted in a substrate. This rooting preferably takes place via the air roots formed by the orchid. Preferably, before the first flowering, the stem has already been rooted in the substrate one or more times. In the present method, the substrate can be at least two levels in the greenhouse. In a preferred embodiment of the invention the rooting is induced by offering a substrate at the height of the air roots, in a further preferred embodiment the rooting is induced by offering the air roots at the height of the substrate.

Preferably, the present invention comprises a method for guiding the crop of the orchid along a wire. This guidance preferably takes place in the horizontal and / or vertical direction.

The present invention further comprises an embodiment in which the flowering of the orchid is preferably induced via a cold induction at 14-16 ° C, in addition to which after the flowering the fruit ripening takes place at a constant temperature of 23-28 ° C. The orchid can also be subjected to a day / night rhythm of 14/10 hours with a preferred light quantity of at least 400-600 joules during the day.

Preferably the orchid of the method described above is an orchid of the Vanilla planifolia species or another vanilla species.

DESCRIPTION OF THE FIGURES FIG. 1 shows a typical arrangement of the plants in the greenhouse. The guidance of the plant is shown via a wire in the vertical direction (first position). Hereby the plant is rooted through its original root or through the re-rooting of an air root in substrate that has been applied at some height in the greenhouse. The older parts of the plant may or may not be guided between the bottom of the greenhouse and the (Re-rooting place of the plant left. If the plant starts to grow, part of the plant's stem with an air root attached to it can be returned to the substrate. where re-rooting can take place.

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FIG. 2 shows a detail of the plant after re-rooting several times, the stalk being guided above the substrate level so that a good working space is created for taking care of the flowers and harvesting the fruits. The position of flower cluster, fruit, leaf and plant stem 5 are given as an example in the figure. Also shown is the velamen of the air roots where they are located in the substrate or below the upper substrate level.

Legend: 1. fruit 2. flower cluster 10 3. leaf 4. plant 5. velamen

DETAILED DESCRIPTION OF THE INVENTION

An "Orchid" is defined herein as being from the family

Orchidiaceae a family with more than 20,000 species, mainly found in tropical countries where there is an optimal climate for orchids. Orchids can grow as an epiphyte or in the ground. In this context, "epiphyte" is understood to mean a climbing orchid that is dependent on a tree or fixed support as support for the stem. Due to the enormous increase in popularity, orchids are currently being grown many times in greenhouses where one can grow under conditioned conditions. However, the cultivation of orchids in greenhouses still mainly focuses on growing pot plants, the present invention focuses on growing perennial orchid plants.

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During growth, orchids form aerial roots that are used, among other things, as support and adhesion during climbing. "Air roots" are defined herein as roots or bulges that grow above the ground from the stem of the orchid and are often placed opposite the leaves on the stem. These air roots can grow towards the ground or away from the ground and can vary in thickness, length and color. The inventors have now found that when these air roots are allowed to root, and preferably repeatedly, in a substrate, this results in a substantial increase in the growth and fruiting of orchids

3 A

brings. Repeatedly rooting the air roots makes the plant stronger.

The above-mentioned roots of the aerial roots take place after the flowering / fruit ripening cycle and preferably took place one or more times before the first flowering ad 5. It appears that this rooting makes the plants more powerful and shows an increased bloom. The idea is that the additional supply 4 of water and nutrients from these secondary roots complement the normal supply via the roots. The effect of this is especially visible during the first months / years of plant growth because the plants occur. develop faster to the desired length to bloom for the first time. The effect is also advantageous with older plants, the stem of which can reach a considerable length. This length complicates the supply of water and nutrients via the root and the rooting of the air roots has the effect of dramatically reducing the length over which transport must take place. An additional advantage of this rooting is that the part of the stem that blooms and bears fruit can easily be situated at working height. It is even possible to cut the old stem after successful rooting, which saves space in the greenhouse.

The substrate can be on at least two levels in the greenhouse. In one embodiment the orchid is placed in a substrate level which is at a height of between 10 cm and 100 cm above the ground (see Fig. 1), alternatively the orchid is placed in a substrate which is on a cloth on the ground is located. The rooting of the air roots is then induced in the substrate which is on the ground by lowering the crop or stem of the orchid until the air roots reach the substrate on the ground and can root therein. Alternatively, the air roots can also be rooted in the substrate level at a height of between 10 cm and 100 cm above the ground.

In a further embodiment, the orchid is placed in the above-mentioned substrate level that is above the ground at a height of between 10 cm / 100 cm, whereby this substrate level can be adjusted in height. In this way, one can induce the roots of the orchid's air roots by lowering the entire system of substrate with the orchid until the air roots formed reach the second substrate level that is on the ground below the orchid. This process can be carried out manually or automatically. The aforementioned lowering is defined herein as an active process and includes lowering the substrate with the orchid or lowering the stem with air roots of the orchid growing therefrom, whereby the original roots of the orchid may be located in the higher substrate or in the substrate at ground level. The lowering can be performed manually or automatically and in all the above cases results in air roots reaching the substrate in which they can then take root. In an alternative embodiment of the invention, the orchid 5 is located in the substrate level above the ground (height-adjustable or not) or in a substrate level on the ground and a second substrate is offered at the level of the air roots.

Substrate is herein understood to mean a mixture of ingredients in which the orchid can take root and which promote the growth of the orchids. This mixture is preferably a mixture of coconut granulate and potting soil, in a ratio of at least 80/20. In addition, any desired nutrient and / or fertilizer known in the art can be added to this mixture as required.

The rooting of the air roots also contributes to the firmness of the orchid so that it is sufficient to guide the orchid along a guide, for example a wire which can be arranged freely in the space (see Fig. 1). This also eliminates the need for permanent support (of a tree or artificial tree) for the epiphyte orchids. Guiding along a wire can be active with the crop attached to the wire or inactive with the crop growing along or around the wire. In addition, guiding along a wire can be carried out in any direction, with preference being given to guiding the crop in horizontal and / or vertical direction. This guidance can take place with any desired wire (or cord), and comprises wires of, for example, iron, rope, nylon, plastic, etc. of any desired thickness. This leads to a considerable saving of space in which in a preferred situation (if the crop is mainly directed horizontally) it is even possible to grow at two or more height levels in the greenhouse, whereby the yield per m2 of greenhouse space is further increased. In addition, the guidance along a wire makes it possible to actively lower the plant (defined as described above). This active lowering is not only desirable to induce the aforementioned roots of the air roots 30 but is also desirable in the "manual fertilization" and "pruning" processes of the orchid described below and furthermore all work to be performed on the orchid , such as harvesting the ripe fruit.

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A greenhouse is understood to mean a climate greenhouse in which the climate in which the orchids are grown can be continuously regulated. In addition to controlling the correct temperature, this also includes controlling the correct humidity and amount of light. Since the flowering of most orchids, but in any case 5 of Vanilia, is induced by exposing the plant (s) to a relatively cold ambient temperature for 2-3 months, it is preferable that the temperature control in the greenhouse is cold. induction of 14-16 ° C for a period of 8-10 weeks. After this induction of flowering, during the subsequent fruit ripening period, the plants are preferably kept at a constant temperature of 23-28 ° C for a period of approximately 9-12 months. The humidity is optimally regulated and is approximately between 85 and 95%. In addition, the orchids are subjected to a day / night rhythm of, for example, 14/10 hours with a preferred light quantity of at least 400-15 600 joules during the day. The humidity and light quantity in this greenhouse can also be adjusted to the needs of the orchid.

Watering and irrigation of the orchids also takes place and in a preferred embodiment the air roots are also sprayed. It is known that the air roots can in this way properly absorb water and dissolved food. Watering and irrigation takes place according to the usual method for orchids in the field, in addition manure and / or nutrients can be added to the water.

Additionally, the orchid can also be supplied with growth substances, such as NAA, which is preferably added in the substrate and ensures better root growth; cytokines, such as BAP, that induce and / or increase flowering; or auxins, which stimulate the growth of stem and leaves.

In a preferred embodiment of the present invention the orchid is of the genus Vanilla consisting of about 110 species in the family Orchidaceae, preferably of the species Vanilla planifolia, Vanilla fragans, Vanilla pompona or Vanilla tahitensis, more preferably of the species Vanilla planifolia. In the vanilla species, one flower forms one fruit after it has been fertilized. This fertilization is done manually and can only take place when the flower is completely open. The flowers of the vanilla varieties usually open simultaneously but are only open for a few hours to a day. This means that you have to pollinate all the flowers in a short time and that you must actively monitor whether the flowers are open. The active lowering of the vanilla orchid as described above can thereby yield a considerable time saving. After fruiting for 9-12 months, the vanilla beans are dried and processed according to the methods known in the art for producing vanilla. In addition, the top (10 cm) of the vanilla orchid is pruned before flowering, this causes extra production of the auxine fluid that results in stem growth and the emergence of new 10 sprouts and for a better distribution of nutrients in the orchid, thereby promoting the leaf formation and fruiting.

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The tables below show the expected production in kg. Table 1 the minimum total expected production in kg (Table 1). Table 2 the maximum yield to be expected in the future (Table 2).

Table 1 minimum expected return_

Growing year Plant density Period until Production Production _per ha_blooming Yarn) kg / plant total 1 __4000__1__0.5__2000 2 __4000__1__1__ 4000 3 __4000__1__2__8000 4 __4000__1__4__16000 5 __4000__1__4__16000 6 __4000 1__4__16000 7000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__000 1000__0001000

Table 2 maximum expected yield

Crop Year Period to plant density Production Production _per ha_bloei (year) kg / plant a total of 1 __12000__2__QJ> 12000 __ 2 __12000__2__1__24000 3 __12000__2__2__48000 __12000__2__4__96000 4 5 6 __12000__2__4__96000 __12000 2__4__96000 7 __12000__2__3 ^ __ I 84 000 8 12 000 1 2 3 1 72000 5

Example 1a and 1b drawings of the current culture situation Example 2 table with minimum yield Example 3 table with maximum yield 10

Claims (14)

9 1. A method for growing an orchid in a greenhouse wherein after each flowering / fruit ripening cycle of said orchid the stem of the orchid is rooted in the substrate A method according to claim 1 wherein said carrots takes place via the air roots formed by the orchid. A method according to claims 1-3 wherein prior to the first flowering said stem of the orchid is already rooted in the substrate 10 one or more times. A method according to claims 1 and 2 wherein the substrate is at least at two levels in the greenhouse. A method according to claims 1-4 wherein the rooting is induced by offering a substrate at the height of the air roots. A method according to claims 1-4 wherein the rooting is induced by offering the air roots at height of the substrate. A method according to claims 1-6 wherein the crop of the orchid is guided along a guide. 8. A method according to claim 7, wherein the guidance takes place in the horizontal direction. A method according to claim 7, wherein the guidance takes place in the vertical direction. A method according to claims 1-9 wherein the flowering is induced by exposing the plants to a temperature of 14-16 ° C. A method according to claims 1-10 wherein after flowering the fruit ripening takes place at a constant temperature of 23-28 ° C. A method according to claims 1-11 wherein the orchid is grown under a day / night rhythm of 14/10. A method according to claim 12 wherein the light amount during the 30 day is at least 400-600 joules. A method according to the above claims wherein the orchid belongs to the species Vanilla planifolia.