BE1022363B1 - BRUSH OF GERMINATION OF PLANTS - Google Patents

Abstract

Plant germination support comprising a first layer composed of a first type of fibers and incorporating plant seeds, said first layer is composed of a first type of fibers being fibers having a size predominantly between 200 μm and 3000 μm and in that it further comprises at least one second layer placed under the first layer and composed of a second type of fibers being fibers having a size predominantly between 3500 μm and 25000 μm, said first and second layers being integral one from the other.

Description

Plant germination support

The present invention relates to a plant germination medium comprising a first layer composed of a first type of fiber and incorporating plant seeds.

Such a support is known from WO 2012/021114 which relates to an incorporation of plant seeds in a layer formed from cellulosic fibers especially obtained from recycled paper. The germination medium according to this prior document corresponds to a seeded paper allowing, by watering, to initiate the germination of seedlings at the start of the seeds.

Unfortunately, such a germination medium, even if it allows germination of the seedlings, does not allow to ensure correct growth giving rise to viable and robust plants. Indeed, as soon as the roots of seedlings are formed and pierce the layer formed of fibers, they are found in the open air or at least in an environment that does not include the minimum substances required to ensure plant growth, for example minerals and water. Therefore, it is essential to quickly transplant the seedlings obtained in a suitable substrate, for example in soil or potting soil otherwise plantlets would wither. However, these transplant operations are restrictive, require time and can also damage seedlings especially in the root system.

There is therefore a real need to provide a germinating medium which is not limited to ensure germination of the seedlings but which also allows to ensure their growth without having to proceed with their transplant or allowing their transplantation once they are more developed and therefore more robust.

To solve these problems, there is provided, according to the invention, a plant germination carrier as indicated at the beginning, characterized in that said first layer is composed of a first type of fibers being fibers having a size predominantly comprised between 200 pm and 3000 pm, preferably between 500 and 2000 pm, preferably predominantly between 1000 and 1500 pm and in that it further comprises at least one second layer juxtaposed under the first layer and composed of a second fiber type being fibers having a size predominantly between 3500 pm and 25000 pm, preferably predominantly between 5000 and 20000 pm, preferably predominantly between 7500 and 10000 pm, said first and second layers being integral with one of the other.

In the context of the present invention, the term "size" means length. In this sense, the fibers of the first layer therefore have a length of between 200 μm and 3000 μm, whereas the fibers of the second layer therefore have a length of between 3500 μm and 25,000 μm.

In the context of the present invention, the term "predominantly" means that at least 90% of the fibers have a size of between 200 μm and 3000 μm for the fibers of the first layer and that at least 90% of the fibers have a size between 3500 pm and 25000 pm for the fibers of the second layer.

In the context of the present invention, it has been shown that such a germination support formed by a bonding and a superposition of a first layer composed of a first type of fibers being fibers having a size mainly comprised between 200 μm. and 3000 μm on a second layer composed of a second type of fibers being fibers having a size mainly comprised between 3500 μm and 25,000 μm, makes it possible not only to ensure the germination of the seeds incorporated in the first layer but also a growth and a development of seedlings obtained without having to transplant them into a substrate such as potting soil.

In this way, since each of the layers of the seed carrier is composed of a distinct type of fiber, more robust seedlings with a more advanced stage of development can be obtained without having to handle them. Then, once more robust seedlings obtained at the level of the only germination medium, it can be envisaged to proceed with their transplantation, which can be carried out minimizing the risk of damaging the root systems and the aerial parts since the plants then present a more advanced stage of development. It can also be envisaged to simply let the growth of the seedlings continue in the only seed medium according to the invention, without having to carry out a transplantation, this until obtaining adult plants that can be maintained continuously on the germination support according to the invention, or until an advanced stage of development of the seedlings before their collection (this is for example the case for the varieties of the type of condiment plants). On the one hand, it has been determined that the fibers of the first layer having a size mainly comprised between 200 μm and 3,000 μm make it possible to incorporate and evenly and uniformly distribute seeds within the first layer during manufacture. of a germination support according to the invention. In addition, such fibers having a size mainly comprised between 200 μm and 3000 μm form a network of fibers in the form of a mesh that is favorable for germination of the seeds, that is to say a network in the form of a mesh allowing the rootlets and the aerial part of the seedlings to be inserted without encountering unavoidable obstacles, which would slow or even stop growth. Moreover, such a mesh formed by fibers having a size mainly comprised between 200 μm and 3000 μm enables seedlings to reach the surface of the first layer without the latter becoming detached from the second lower layer. Indeed, the mesh of the first layer does not have a resistance opposing the breakthrough of the seedlings through the first upper layer, which prevents pressure being exerted by the seedlings between the two layers, which would dissociate them from each other. On the other hand, it has been determined that the fibers of the second layer having a size mainly comprised between 3500 μm and 25,000 μm form a network of fibers in the form of a mesh that is favorable for the rooting of seedlings. by providing a large water storage necessary for the water supply of plants.

Advantageously, according to the present invention, said first type of fiber is selected from the group consisting of plant fibers, wood fibers, cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof.

Preferably, according to the invention, said second type of fiber is also selected from the group consisting of plant fibers, wood fibers, cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof.

According to one embodiment of the invention, cellulosic and / or woody fibers are used to form a paper pulp in which the vegetable seeds are directly incorporated so as to form, after lifting and coating the pulp, a first layer of paper incorporating vegetable seeds. The second layer may also be derived from cellulosic and / or ligneous fibers also used to obtain a pulp and a paper layer. In this case, the germination support according to the invention is therefore composed of two paper layers, one incorporating the vegetable seeds and being composed of fibers having a size mainly comprised between 200 μm and 3000 μm, the other being composed of fibers having a size predominantly between 3500 pm and 25000 pm.

Preferably, when the seed carrier according to the invention is composed of two paper layers as described above, the first paper layer incorporating the vegetable seeds is derived from a pulp having a Schopper-Riegler degree (° SR) between 30 and 60, preferably an SR of 45, while the second paper layer is derived from a paper pulp having a SR between 20 and 40, preferably a SR of 30. Schopper-Riegler, which corresponds to the pulping rate of the pulp, makes it possible to evaluate the refining of the pulp: the higher the SR, the more the pulp holds the water. In the context of the present invention, the Schopper-Riegler degree is measured according to the standard reference standard UNI EN ISO 5267-1 / 2002 according to the standard PR5267-1.

It has been shown, in the context of the present invention, that a low Schopper-Riegler degree allows the fibers to swell more easily when the paper layer is moistened, for example during a sprinkling of the seed support, which promotes the storage of water and therefore allows to limit the number of waterings necessary for germination and growth of seedlings.

Advantageously, when the seed carrier according to the invention is composed of two paper layers, the first paper layer incorporating the vegetable seeds is derived from a paper pulp mainly composed of fibers derived from hardwood type plants while the second paper layer is derived from a pulp mainly composed of fibers from softwood type plants. It has been determined that resinous fibers give the second layer adequate mechanical strength for the root development of seedlings and that hardwood type fibers allow correct incorporation of seeds by "coating" them (incorporating) with within the first layer.

Preferably, according to the invention, said first layer has a grammage of between 20 and 80 g / m 2, preferably a grammage of 60 g / m 2.

Advantageously, according to the invention, said second layer has a grammage of between 150 and 450 g / m 2, preferably a grammage of 300 g / m 2.

It has been determined in the context of the present invention that such weights of each of the first and second layers are adequate. A basis weight of between 20 and 80 g / m 2 of the first layer incorporating plant seeds was determined to allow the seeds to germinate properly, the rootlets and the aerial part of the seedlings easily piercing this layer. A basis weight between 150 and 450 g / m 2 of the second layer was determined to allow rootlets and seedling roots to anchor properly in the mesh formed by the fibers forming this second layer.

Advantageously, according to the present invention, said first layer and / or said second layer further comprises at least one compound designed to retain water. The presence of such a compound, for example clay, sphagnum fragments or alginate ensures water storage at the first and / or second layer. This is advantageous at the level of the first layer incorporating the plant seeds, since the germination is conditioned by the presence of water and by the temperature. At the level of the second layer, the presence of at least one such compound is also advantageous since storage and fluid intake are necessary for seedling growth.

Preferably, according to the invention, said first layer and / or said second layer further comprises at least one compound having swelling and hydrophilic properties in the presence of water. The presence of such a compound makes it possible, both at the level of the first layer and the second layer, to confer a certain volume on the seed medium according to the invention in the presence of water. This makes it possible to finally obtain a support having an increased volume of the order of 5 to 6 times with respect to the volume of the support in the dry state, which creates space available for the roots that can develop. all the better, to capture all the better water and thus ensure optimum development of seedlings.

Advantageously, according to the present invention, said first layer and / or said second layer further comprises at least one fertilizing agent. A supply of at least one fertilizing agent, for example an N-P-K fertilizing agent, makes it possible to ensure and accelerate the growth of the seedlings which can draw, via their root system, the minerals useful for their development. Other embodiments of the plant germinating medium according to the invention are indicated in the appended claims.

The present invention also relates to a method of manufacturing a plant germination support comprising a step of preparing a first layer by mixing a first type of fiber with seeds to obtain a layer incorporating said plant seeds. , characterized in that it further comprises: a step of preparing at least a second layer with a second type of fibers, and a step of superposition and joining of said first layer to said at least one second layer , said first layer being prepared with a first type of fibers being fibers having a size mainly comprised between 200 μm and 3000 μm and said at least one second layer being prepared with a second type of fibers being fibers having a size mainly comprised between 35 ± 0 μm and 25,000 μm.

Advantageously, according to the process according to the invention, said step of preparing a first layer by mixing a first type of fiber with seeds and / or said step of preparing a second layer with a second type of fibers comprises an addition of at least one compound arranged to retain water.

Preferably, according to the process according to the invention, said step of preparing a first layer by mixing a first type of fibers with seeds and / or said step of preparing a second layer with a second type of fibers comprises adding at least one compound having swelling properties in the presence of water.

Advantageously, according to the process according to the invention, said step of preparing a first layer by mixing a first type of fiber with seeds and / or said step of preparing a second layer with a second type of fibers comprises an addition of at least one fertilizing agent.

Preferably, according to the process according to the invention, said step of preparing a first layer by mixing a first type of fiber with seeds relies on a use of fibers selected from the group consisting of vegetable fibers, ligneous fibers. , cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof in the presence of water or not and / or additives or not.

Advantageously, according to the process according to the invention, said step of preparing a second layer with a second type of fibers is based on a use of fibers selected from the group consisting of vegetable fibers, ligneous fibers, cellulosic fibers, fibers synthetic biodegradable or not, and mixtures thereof in the presence of water or not and / or additives or not.

According to one embodiment of the process according to the invention, the step of preparing a first layer by mixing a first type of fiber with seeds to obtain a layer incorporating said plant seeds is based on a use of cellulosic fibers. and / or woody to form a pulp in which the plant seeds are directly incorporated so as to form, after the lifting and coating of the pulp, a first paper layer incorporating the vegetable seeds. According to this same embodiment, the second layer may also be derived from cellulosic and / or ligneous fibers also used for obtaining a pulp and a layer of paper following the lifting and coating of the pulp paper. In this case, the germination support according to the invention is therefore composed of two paper layers, one incorporating the vegetable seeds and being composed of fibers having a size mainly comprised between 200 μm and 3000 μm, the other being composed of fibers having a size predominantly between 3500 pm and 25000 pm, it being understood that the first paper layer is superimposed and secured to the second paper layer, for example by compression.

Preferably, according to the process according to the invention, said step of joining said first layer incorporating said seeds onto said at least one second layer is carried out by compression, by heat treatment or by any other means making it possible to bind each of the layers. one to another. Other embodiments of the process for producing a plant germination carrier according to the invention are indicated in the appended claims.

The present invention also relates to the use of a plant germination carrier according to the invention for the manufacture of printed or unprinted postcards, printed or unprinted invitation papers, printed or unprinted envelopes, products initially produced. printed or unprinted paper and any product that can be at least partially covered with plants from integrated seeds (incorporated) in said germination medium.

The present invention also relates to a use of a plant germination carrier according to the invention to ensure the germination of plants derived from seed integrated into said germination support.

The present invention also relates to a use of a plant germination carrier according to the invention for the placement of seeds in or on a culture substrate. Other forms of using a plant germination medium according to the invention are indicated in the appended claims. Other features, details and advantages of the invention will emerge from the description and examples given below, without limitation and with reference to the accompanying drawings.

Figures 1a and 1b are schematic views of a plant germination carrier according to the invention before and after germination.

Figure 2 is a schematic view of a plant germination medium inserted into a postcard according to the invention.

FIG. 3 illustrates the steps of a method of manufacture according to the invention of a germination support according to the invention.

In the figures, identical or similar elements bear the same references.

FIG. 1a illustrates a plant germination support S according to the invention. This support comprises a first layer intended to form an upper layer 1 composed of a first type of fibers 2 having a size mainly comprised between 200 μm and 3000 μm and a second layer intended to form a lower layer 3 composed of a second type fiber 4 having a size predominantly between 3500 pm and 25000 pm. The first layer is placed above the second layer 3, these two layers being secured to one another, for example by means of an adhesive or following compression or following an integration carried out during of the manufacture of a germination support S according to the invention. In addition, the first top layer 1 incorporates vegetable seeds 5.

FIG. 1b illustrates a germination support S of plants according to the invention when the plant seeds 5 have sprouted following a watering (water supply) of the germinating medium S. The aerial part 6 of the seedlings 7 originating from the vegetable seeds 5 is located above the first upper layer 1 while the root portion 8 of the seedlings 7 is located at the second layer 3. The first layer 1 and / or the second layer 3 may increase in volume due to the necessary fluid intake germination and growth of seedlings 7 if the fibers 2, 4 component each of these layers has a water retention capacity. The roots and rootlets 8 of the seedlings 7 develop and anchor in the mesh formed by the fibers 4 forming the second layer 3 while the aerial part 6 passes through the mesh formed by the fibers 2 forming the first layer 1.

FIG. 2 illustrates an embodiment according to the invention according to which the germination support S is integrated in a postal card C.

FIG. 3 illustrates the steps of a method of manufacture according to the invention of a germination support according to the invention. In a first step, in a first tank 9, cellulosic and / or ligneous fibers 4 having a size mainly comprised between 3500 μm and 25,000 μm are mixed with water so as to form a pulp 10 which will be raised and then lying on a support 11 (for example a felt) so as to form a layer in the form of a wet sheet 12.

In a second step, in a second tank 13, cellulosic and / or ligneous fibers 2 having a size mainly comprised between 200 μm and 3000 μm are mixed with water and plant seeds 5 so as to form a This other paper pulp 14 incorporating vegetable seeds 5 is then raised and then coated directly on the wet sheet 12 to obtain a superposition of a second wet sheet 15 incorporating vegetable seeds 5 on the same. the first wet sheet 12.

Then follows a step of securing the two wet sheets 12, 15 by compression in press (represented by the letter P) so as to extract the excess water from the wet sheets 12, 15 and to bind these two sheets (layers) 12 , One to the other. Finally, when the sheets 12, 15 are integral with each other, this set 12 + 15 is subjected to a drying step, for example by ventilation (represented by the letter V) during which the moisture is absorbed. at the start of the set 12 + 15.

Example: manufacture of a germination support according to the invention a) preparation of the lower layer

In a first tank were mixed the following compounds in the following proportions by dry weight: 30% of sphagnum fragments, 37% of cellulosic fibers having a size mainly comprised between 3500 pm and 25000 pm, 15% of alfa (Macrochloa tenacissima ), 10% clay, 5% alginate and 3% glycerol E422 (to increase the water retention capacity). A mixture of these compounds was made in the presence of water to obtain a paper pulp which is drained to a Schopper-Riegler degree of a value of about 30 and a basis weight of about 300 g / m2 . This pulp is then raised and coated on a support (for example a felt) to form a paper layer having a basis weight of about 300 g / m2. b) preparation of the top layer incorporating the seeds

In another tank were mixed the following compounds in the following proportions by dry weight: 30% sphagnum fragments, 61% cellulosic fibers having a size mainly comprised between 200 pm and 3000 pm, 5% alginate, 2,4 Glycerol% E422 (to increase the water retention capacity) and 1.6% vegetable seeds. A mixture of these compounds was made in the presence of water to obtain a paper pulp which is drained to a Schopper-Riegler degree of a value of about 45 and a basis weight of about 60 g / m2 . This paper pulp is then lifted and coated directly on the paper layer obtained in the previous step (a) to form a superposition of a paper layer incorporating seeds on the paper layer obtained in the previous step (a). ). This layer incorporating seeds has a basis weight of about 60 g / m2. c) assembly of the upper and lower layers

In order to assemble and secure the two-layer superposition obtained after step (b) described above, this set of two layers is passed under press to remove the excess water from each of the layers and to that the two layers are fixed to each other by the establishment of H-type chemical bonds at the interface between the two layers. d) drying and conditioning of the germination support

The germination support obtained by joining the two layers according to step (c) above is then subjected to drying by placing it between two absorbent honeycombed supports in a box in which dry air is injected, which makes it possible to reduce the moisture content of the germinating medium until a totally dry germination medium is obtained. The resulting dry germinating medium is then stored away from any source of moisture to minimize any risk of germination.

It is understood that the present invention is in no way limited to the embodiments described above and that many modifications can be made without departing from the scope of the appended claims.

Claims (18)

1. Plant germination support comprising a first layer composed of a first type of fibers and incorporating plant seeds, characterized in that said first layer is composed of a first type of fibers being fibers having a size mainly comprised of between 200 pm and 3000 pm and in that it further comprises at least one second layer juxtaposed under the first layer and composed of a second type of fibers being fibers having a size mainly comprised between 3500 pm and 25000 pm, said first and second layers being integral with each other. 2. Plant germination carrier according to claim 1, characterized in that said first type of fiber is selected from the group consisting of plant fibers, wood fibers, cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof . 3. plant germination support according to claim 1 or 2, characterized in that said second type of fiber is selected from the group consisting of plant fibers, wood fibers, cellulosic fibers, synthetic fibers biodegradable or not, and their mixtures. 4. plant germination carrier according to any one of the preceding claims, characterized in that said first layer has a basis weight between 20 and 80 g / m2, preferably a basis weight of 60 g / m2. 5. Plant germination support according to any one of the preceding claims, characterized in that said second layer has a basis weight between 150 and 450 g / m2, preferably a basis weight of 300 g / m2. 6. Plant germination support according to any one of the preceding claims, characterized in that said first layer and / or said second layer further comprises at least one compound arranged to retain water. 7. plant germination carrier according to any one of the preceding claims, characterized in that said first layer and / or said second layer further comprises at least one compound having swelling and hydrophilic properties in the presence of water. 8. plant germination carrier according to any one of the preceding claims, characterized in that said first layer and / or said second layer further comprises at least one fertilizer. 9. A method of manufacturing a plant germination medium comprising a step of preparing a first layer by mixing a first type of fiber with seeds to obtain a layer incorporating said plant seeds, characterized in that it further comprises: a step of preparing at least a second layer with a second type of fibers, and a step of superposing and joining said first layer to said at least one second layer, said first layer being prepared with a first type of fibers being fibers having a size mainly comprised between 200 μm and 3000 μm and said at least one second layer being prepared with a second type of fibers being fibers having a size mainly comprised between 3500 μm and 25,000 μm. 10. A method of manufacturing a plant germination carrier according to claim 9, characterized in that said step of preparing a first layer by mixing a first type of fiber with seeds and / or said preparation step a second layer with a second type of fiber comprises an addition of at least one compound arranged to retain water. 11. A method of manufacturing a plant germination carrier according to claim 9 or 10, characterized in that said step of preparing a first layer by mixing a first type of fiber with seeds and / or said step method of preparing a second layer with a second type of fiber comprises adding at least one compound having swelling properties in the presence of water. 12. A method of manufacturing a plant germination carrier according to any one of claims 9 to 11, characterized in that said step of preparing a first layer by mixing a first type of fiber with seeds and / or said step of preparing a second layer with a second type of fiber comprises an addition of at least one fertilizer. 13. A method of manufacturing a plant germinating medium according to any one of claims 9 to 12, characterized in that said step of preparing a first layer by mixing a first type of fiber with seeds rests on a use of fibers selected from the group consisting of plant fibers, wood fibers, cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof in the presence of water or not and / or additives or not. 14. A method of manufacturing a plant germinating medium according to any one of claims 9 to 13, characterized in that said step of preparing a second layer with a second type of fibers is based on a selected fiber use in the group consisting of plant fibers, wood fibers, cellulosic fibers, biodegradable synthetic fibers or not, and mixtures thereof in the presence of water or not and / or additives or not. 15. A method of manufacturing a plant germination carrier according to any one of claims 9 to 14, characterized in that said step of joining said first layer incorporating said seeds on said at least one second layer is made by compression , by heat treatment or by any other means for binding each of the layers to one another. 16. Use of a plant germination carrier according to any one of claims 1 to 8 for the manufacture of printed or unprinted postcards, printed or unprinted invitation papers, printed or unprinted envelopes, manufactured products from printed or unprinted paper and any product that can be at least partially covered with plants derived from seeds integrated into said germination medium. 17. Use of a plant germinating medium according to any one of claims 1 to 8 for germinating plants derived from seed integrated in said germinating medium. 18. Use of a plant germination carrier according to any one of claims 1 to 8 for the introduction of seeds in or on a culture substrate.