NL194746C - Method for growing in a hydroponics. - Google Patents

Description

1 194746. Method for growing in a hydroponics

The present invention relates to a method for cultivation in a hydroponic culture using a nutrient medium consisting of an aqueous solution of polyvinyl alcohol, in which oxygen-containing bubbles are present.

Japanese patent application 58722/1991, laid open to public inspection on March 13, 1991, discloses a method for growing plants in a hydroponic culture using a soluble polymer in which also oxygen-containing bubbles are present. The polymer used is a high polymer surfactant comprising cellulose ether compounds, such as methyl cellulose and ethyl cellulose, with a molecular weight of 1000 or higher, polyoxyethylene alkyl ether, polyvinyl alcohol and the like in a concentration of 0.1-5%, the cellulose -ether compounds are preferred from the viewpoint of stability. In this Japanese patent application only one example with methyl cellulose as a surfactant is included.

From C.A. Finch: Polyvinyl Alcohol Developments, John Wiley and Sons - New York -1992, in particular Figures 1.18-1.23 on pages 21-24, it follows that polyvinyl alcohol with a degree of hydrolysis of 75-90% gives more reduction in surface tension than polyvinyl alcohol with a degree of hydrolysis of 100%; on page 4-7 it is explained that the most commonly used polyvinyl alcohol has a degree of hydrolysis of 88% due to the good solubility in water at ambient temperature. In addition, it is known from Encyclopedia of Polymer Science and Engineering (1989), Volume 17, pages 302-304 that polyvinyl alcohol compositions with different degrees of hydrolysis are commercially available, while also mentioning that polyvinyl alcohol with a degree of hydrolysis of about 75% is insoluble in water. "

Ullmann's Encyclopedia of Industrial Chemistry A21 (1992), pp. 743-747 also discloses that commercially available polyvinyl alcohols range from fully saponified types to products with a degree of hydrolysis of about 70 mol%. It has been stated that most commercial products belong to two groups with a degree of hydrolysis of 98 mol% and 87-89 mol%, respectively. Both groups generally include products with a degree of polymerization of 500-2500.

A conventional method for growing in hydroponics consists of the use of a nutrient medium of fertilizers and trace amounts of nutrient components dissolved in water, and an irrigation or circulation system.

The irrigation system involves the passage of air through a nutrient solution.

The circulation system involves supplying oxygen during the circulation of a nutrient solution and is classified into two types, namely with or without a vessel. The non-vessel type comprises, for example, a method which consists of pumping a feed solution from a feed bed and then recycling the feed solution to the feed bed, oxygen being supplied; and a method comprising the use of two feed beds, and repeating the steps of pumping a feed solution from one bed to fill another bed and then returning the feed solution, causing the liquid level to move up and down, which facilitates the supply of oxygen.

The type with a vessel consists of flowing down a feed solution into a feed bed in a tank using a height difference and then pumping the feed solution out of the tank into a feed bed where air is supplied.

An example of the circulation system is known as an NFT culture ("nutrient film technique"). This method consists of producing a slightly sloping bed and flowing down a nutrient solution in the form of a thin film with a thickness from 1 to 2 mm, whereby the upper part of the roots of the plants is exposed to the air and thus directly absorbs oxygen.

Of the aforementioned conventional hydroponic cultivation methods, the irrigation system has a problem because it results in uneven growth of the plants due to insufficient dissolution of oxygen in a nutrient solution through the passage of air 50 therein, resulting in a large amount of the roots of the plants decay due to a lack of oxygen and the air-permeable holes of the system are sometimes partially clogged The NFT culture, with its nutrient bed sloping, achieves good growth near the feed solution inlet, but causes uneven growth in the vicinity of the outlet due to poor fluid flow.

Furthermore, the two mentioned methods, in which a large amount of nutrient solution must be stored or circulated, require a well-built and relatively large installation, so that a considerable investment is required.

194746 2

The object of the present invention is to provide a method for growing in a hydroponics with a nutrient solution for improving the growth of the plants, whereby the use of a compact plant becomes possible.

The process as stated in the preamble is characterized in that the polyvinyl alcohol has a degree of hydrolysis of 80 to 88 mol% and is present in the nutrient medium in an amount of 0.001-1% by weight.

If polyvinyl alcohol with a degree of hydrolysis higher than 88 mol% is used, a substantial reduction in the yield of the plant, vegetable or fruit to be cultivated is observed. If polyvinyl alcohol with a degree of hydrolysis lower than 80 mol% is used, a substantially poorer yield of the plant, vegetable or fruit to be cultivated is also obtained. Moreover, the amount of 0.001-1% by weight of polyvinyl alcohol was found to have a substantial influence on obtaining optimum air bubbles in the entire nutrient medium and thus on the yield of the plants, vegetables or fruit to be grown.

According to the hydroponic cultivation method of the present invention, the nutrient medium is an aqueous solution of polyvinyl alcohol with a degree of hydrolysis of 80-88 mol% in an amount of 0.001-1% by weight, in which oxygen-containing bubbles are present and wherein this bubble situation is maintained. The cultivation of hydroponic plants in such a bubble-fed nutrient solution of the present invention allows for the simplification and reduction of the weight of the hydroponic plant because a substantial amount of nutrient solution can be reduced by an amount of bubbles and such hydroponics can provide sufficient oxygen and feeding nutrient solution so that the growth of plants is improved.

The PVA preferably has a viscosity-average degree of polymerization (hereinafter abbreviated as "degree of polymerization") of 200 to 5000 and preferably of 500 to 4000.

Bubbles may be present in the nutrient solution by passing air through, stirring the solution or circulating and dropping the solution, with air passage being most effective. The nutrient solution can be introduced directly into the nutrient medium or previously in another place in the bubble form and then supplied to the nutrient medium. The temperature of the nutrient solution is preferably in the range of 5 to 40 ° C, in particular in the range of 10-30 ° C.

The bubbles present in the aqueous solution of the water-soluble polymer have an average diameter of preferably from 0.05 to 5 mm, and in particular 0.05 to 2 mm. The ratio between the volume occupied by all bubbles and the volume of the aqueous solution of the water-soluble polymer in the nutrient medium is generally at least 10%, preferably at least 50% and in particular at least 70% . It is particularly desirable that the entire portion of the nutrient medium comprises bubbles. If the bubbles occupy only a small part of the volume of the aqueous solution, the bubbles are rather in an upper part of the nutrient medium. The gas that forms the bubbles must contain oxygen and examples of this are normal air and oxygen.

Depending on the plant species, the nutrient solution may contain fertilizer components such as Ca (NO 3) 2 · 4H 2 O, KNOg, NH 4 H 2 PO 4 • MgSO 4 · 7H 2 O and NH 4 NO 3, and a trace amount of nutrient components such as Fe-EDTA, H3BOa and MnCl 2 · 4H 2 O.

According to the present invention, the following plants are preferably grown: tomatoes, cucumbers, melons, strawberries, wort, onions, basillium and lettuce; tulip, roses, gerbera and carnations; and R. umbellata, and Camellia sasangua, used to obtain a green roof garden.

Moreover, the method obtained by the present invention can be used in combination with any of the methods described above according to the prior art, provided that the operation of the present invention is not deteriorated.

The hydroponic cultivation method obtained by the present invention, wherein the amount of the continuously flowing nutrient solution is lowerable, can reduce the weight of the plant and the investment for the plant and improve plant growth.

50 Examples

The present invention will become apparent from the following description of the illustrated embodiments, which are given as an explanation of the invention.

EXAMPLE 1

55 Nutrient solutions for the nutrient media (temperature 25 ° C) were prepared by dissolving 0.2% by weight in water based on the solution of a commercially available fertilizer (trade name: "Otsuka House Hiryo", prepared by Otsuka Chemial Co. Ltd.) and 0.05% by weight on the same basis of a number of water-soluble polymers as shown in Table A. The Aals-Saene Melon seedlings obtained by the prior cultivation for 3 weeks after sowing , were immersed in each of the nutrient media, in which air was continuously blown through to generate bubbles. The nutrient media containing the water-soluble polymers bubbled sufficiently and fed the nutrient solution to the roots of the melon very adequately, so that the roots were kept wet during the cultivation period despite the amount based on the weight of the nutrient solution was reduced. After growing for 2 months in hydroponics, the seedlings were in bloom and the flowers were grown, and an additional period of 2 months of hydroponic cultivation resulted in ripe melon fruits.

On the other hand, using hydroponics with a nutrient medium without the presence of a water-soluble polymer or blowing air through it grew for insufficient growth of the melon fruits. The results are shown in Table A.

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5, 194746

. EXAMPLE II

Nutritional solutions used for the nutrient media (temperature 25 ° C) were prepared by dissolving in water 0.1 wt% of the same commercially available liquid fertilizer as used in Example I and dissolving different amounts of PVA (degree of polymerization: 1750 (degree of hydrolysis: 88 mol%), as shown in Table B. The cucumber seed plants, which were previously grown for 3 weeks after sowing, were immersed in the aforementioned nutrient medium, in which air was continuously blown through to blow bubbles forms through which the seedlings grew.

The systems containing the PVA bubbled better and fed the nutrient solution to the roots of the cucumber very favorably, so that the roots were kept wet during the cultivation period, although the amount was reduced based on the weight of the nutrient solution . After a 1.5 month period of hydroponic cultivation after the above-described transplant, the cucumber was in bloom and then grew for 50 days. The effect of applying PVA on growth was assessed by checking the weight of the cucumber per seedling. On the other hand, as shown in the comparative examples in Table 2, cultivation in a hydroponic culture using nutrient media without the use of PVA or without the passage of air conferred a less sufficient growth of the cucumber than that of the present invention.

The results are shown in Table B.

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, Example III

Food solutions used for the nutrient medium (temperature 25 ° C) were prepared by dissolving in water 0.1% by weight of the same commercially available fertilizer as used in Example 1 and dissolving 0.002% by weight of PVA (degree of polymerization) : 2000, degree of hydrolysis: 80 mole%), as shown in Table C. The nutrient medium was bubbled by passing air through it. Hydroponic cultivation of rose seed plants of 50 cm in length was carried out in the aforementioned medium. After a period of 6 months of growing in hydroponics, the rose provided flowers with a slightly larger length.

On the other hand, with hydroponics using a nutrient medium without the use of PVA or without air being passed through, only smaller flowers were obtained than those of the present invention. The rose was not in bloom in hydroponic cultivation using sodium dodecyibenzene sulfonate.

The results are shown in Table C.

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Claims (1)

4 Claim 9 194746 Method for cultivation in a hydroponic culture using a nutrient medium consisting of an aqueous solution of polyvinyl alcohol in which oxygen-containing bubbles are present, characterized in that the polyvinyl alcohol has a degree of hydrolysis of 80 to 88 mol% and in the nutrient medium is present in an amount of 0.001-1% by weight.