FR2913302A1 - Expanded polystyrene container for the culture of plants, comprises a cell intended to conform a block of the plant culture, and a block having truncated cells present between lower and upper sides of the container - Google Patents

Abstract

The expanded polystyrene container for the culture of plants, comprises a cell intended to conform a block of the plant culture, and a block having truncated cells (4) present between upper and lower sides (2, 3) of the container. A wall of the cell is covered by a layer or a deposit of self-undercutting toxic product to stop a longitudinal growth of certain roots of the plants to be cultivated when the end of the plant approaches or attains the toxic product. The toxic product is based on air extinguisher, Bordeaux mixture and/or fungistatic-fungicide. Independent claims are included for: (1) a process for the preparation of a container; and (2) a process for the preparation of a block for plant culture.

Description

LD -RI GRB07-0686FR Farms with Limited Liability: ROBIN

NURSERY

  Container for seedling culture and method of preparation Invention of: ROBIN Bruno Container for the cultivation of plants and method of preparation.

  The present invention relates to the field of plant culture. It is known to carry out, in nurseries, seedlings in clumps of culture formed in container cells. When the plants are of sufficient size, the clumps are extracted and the plants are planted on a site. One type of container, described in FR-A-2620699, is constituted by a parallelepiped block of expanded polystyrene, molded at high density, having a plurality of frustoconical cells therethrough. The roots are deflected downwards in contact with the sides of the cells and, the lower ends of the cells being open, the roots of the cultivated plants self-cernent in contact with the air. This container normally gives complete satisfaction. Nevertheless, obtaining good quality containers depends on the "hands-on" of the driver of the injection molding machine. In fact, when the polystyrene beads are poorly welded, the roots of the plants grown in the cells infiltrate between the balls and grow in the polystyrene block. It follows that the clumps of culture can not be extracted from the alveoli without destroying the roots of the plants and the cultures are then lost.

  Another type of container, made of a rigid plastic material, consists of a plate from which spaced apart tubes extend downwards and constitute cells, these tubes having holes distributed to partially air the periphery of the clods. The roots of the cultivated plants are self-cernent in contact with the air, at the lower part of the cells and at their periphery. Nevertheless, such a container is expensive and must be, from below, strongly ventilated and not wet for root self-cernage to occur. In the opposite case, the roots pass through the peripheral holes and penetrate into the neighboring cells. Here again, the clumps of culture can not be extracted from the alveoli without destroying the roots of the plants and the cultures are then largely lost. According to one aspect of the present invention, there is provided a container for the cultivation of plants, in particular expanded polystyrene, which comprises at least one cell for conforming a plant mound of at least one plant. Advantageously, the wall of the cell is at least partially covered with a layer or a deposit of a toxic autocerning product capable of causing a stop of the longitudinal growth of at least some of the roots of the plant to be grown. when the end of the latter approaches or reaches this product, so that these roots do not penetrate into the wall of the cell. The self-cerning product may advantageously be based on air lime extinguished and / or based on Bordeaux mixture and / or fungicide fungicide base. The container may advantageously comprise a block comprising, between an upper face and a lower face, a plurality of frustoconical cells. According to another aspect of the present invention, there is provided a method for preparing a container, in particular an expanded polystyrene, which comprises at least one cell for conforming a clump of at least one plant. Advantageously, this method comprises a step of deposition, on at least a part of the wall of the cell, of a toxic self-cerning product capable of causing a stop of the longitudinal growth of at least some of the roots of the plant to grow when the end of the latter approaches or reaches this product, so that these roots do not penetrate the wall of the cell. According to another aspect of the present invention, there is provided a method for preparing at least one root ball for the cultivation of at least one plant. Advantageously, this process comprises a step of depositing, on at least a part of the wall of at least one cell of a container, in particular an expanded polystyrene, a toxic self-curing product capable of causing a reaction. stopping the longitudinal growth of at least some of the roots of the plant to be grown, when the end thereof approaches or reaches this product, and a subsequent step of at least partial filling of the cell with a material of culture so as to conform a clump of culture. Advantageously, the deposition step can be carried out by dipping the container in an aqueous solution of the toxic self-cerning product. Advantageously, the deposition step may be carried out by spraying an aqueous solution of the toxic self-curing product on at least the cell of the container. Advantageously, the deposition step may be carried out by spraying the container with an aqueous solution of the toxic self-cerning product.

  Advantageously, the deposition step may be may include a subsequent dewatering step. Advantageously, the dosage of the aqueous solution comprises between 50 and 150 kg of airless lime or Bordeaux mixture for 400 liters of water.

  Advantageously, the dosage of the aqueous solution comprises between 30 and 80 kg of fungistatic fungicide for 400 liters of water. Referring to the single figure attached, it can be seen that there is shown by way of non-limiting example, a container 1 adapted to implement the invention.

  This container 1 is constituted by a block of parallelepipedal shape which has, between an upper face 2 and a lower face 3, a plurality of cells 4 open at the top and bottom, in the form of conical truncated sections of larger circular sections. up and down. In these cells 4, there are provided lower projecting portions 5 and, optionally, four ribs 6 which extend along generatrices. In one example, the container 1 is obtained by molding a high density expanded polystyrene from beads. This material is advantageous because it provides a lightweight container 1, easy to handle and transport. The cells 4 are intended to form clumps of culture material suitable for the plants to be cultivated.

  Before filling the cells 4 with the culture material, the walls of these cells are treated, which consists in depositing, preferably over the entire surface of these walls, in order to cover it, with a layer of a self-curing, fungistatic toxic product chosen to cause a stop in the longitudinal growth of the roots of the plants to be cultivated. A seed of a plant or a young seedling or a cutting to be cultivated being introduced into each of the clumps formed in the cells 4, the growth process of the root system of the plants can proceed as follows.

  When the roots of the cultivated plants come into contact with the walls of the cells 4, the toxic product deposited on these walls acts on the root tips, causing a slight accumulation toxicity. The root tips absorb the toxic product, only in their end portions, until the concentration reaches a level of toxicity that causes the arrest of growth and root weaning. This stop is favorable for starting root shoots on weaned roots and starting new secondary roots from the central pivot of the root system of the cultivated plants. These new roots will in turn develop, come into contact with the wall of cells 4 of container 1, self-identify and give birth to new roots. This succession of self-cerning on the inner surface of the cells 4 is favorable to an increase in the root volume in the clumps of the cultivated plants. The root system can thus present a well-ordered and natural architecture, with a tendon tending not to be deformed, and a root system tending to extend radially and to be vigorous, so that after transplantation on a site, the seedlings tend to recover better, to take root better and to be more stable. Moreover, the long roots arriving at the bottom of the cells 4 are also self-cerned by the air circulating under the culture containers. The self-cerning of the roots reaching the walls of the cells 4 also has the effect of preventing roots from entering the polystyrene constituting the container 1.

  It follows from the foregoing that the extraction of the clumps with the cultivated plants does not pose any difficulty. The application of the described treatment makes it possible to be less demanding on the conditions of manufacture of the container 1 and on the qualities of the latter on the surface. Indeed, insofar as the toxic product is correctly distributed and is correctly dosed, the root system of the cultivated plants can be independent of the surface state and the density of the walls of the cells 4 covered by the toxic product of auto -cernage. In addition, the reuse of the container 1 after having applied the described treatment, even if it is slightly damaged, does not pose any difficulty for the same reason. The self-curing toxicants may be prepared as aqueous mixtures and may be selected from the following products.

  For calcicolous plants, which generally grow in calcareous soils, it is advantageous to deposit a watery formula based on aerated lime or Bouillie Bordelaise. This selection may for example apply to the following plants: Quercus pubescens, Tilia, Cedrus atlantica, Pinus nigra, Larix decidua.

  For acidophilic plants, which generally grow in acidic soils, it is advantageous to deposit an aqueous formula whose pH is less than 7.5, thus a neutral or acidic PH formulation containing fungistatic fungicides. This selection may for example apply to the following plants: Acer palmatum, Cornus Kousa, Erica, Pieris, Quercus rubra, Vaccinium, Abies procera, Chamaecyparis lawsoniana, Cupressocyparis leylandii, Pinus wallichiana, Rhododendron. For the application of a toxic self-cerning product on the container 1, a deposition step may be carried out in the following ways. In one mode, the container 1 can be completely immersed in the mixture. Then it is drained by gravity and drying.

  According to another embodiment, the mixture can be sprayed or sprayed so that it is deposited on the walls of the cells 4. Then, its draining and drying are optionally carried out. The dosages of the product is advantageously chosen so that the ends of the roots are treated, without destroying them as this would lead to the loss of the cultivated plants. Prior to the deposition step, it may optionally provide a step of cleaning and disinfecting the container 1 to prevent contamination of the plants to be cultivated, especially in case of reuse of the container. The present invention is not limited to the preparation, by deposition of a toxic self-cerning material, of an expanded polystyrene container. Such treatment can in fact be carried out on any material in which the roots of the cultivated plants are likely to penetrate. Other cell treatment products, other dosages and other modes of application may also be considered.

Claims (11)

  Container for the cultivation of plants, in particular expanded polystyrene, comprising at least one cell intended to form a clump of at least one plant, characterized in that the wall of the cell is covered at least partially of a layer or a deposition of a self-cerning toxic product able to cause a stop of the longitudinal growth of at least some of the roots of the plant to be cultivated when the end of these approaches from where it reaches this product, so that these roots do not penetrate into the wall of the cell.   2. Container according to claim 1, characterized in that the toxic self-cerning product is based on air lime and / or Bordeaux-based slurry and / or fungicide-based fungicide.   3. Container according to one of claims 1 and 2, characterized in that it comprises a block comprising, between an upper face and a lower face, a plurality of frustoconical cells.   4. Process for the preparation of a container, in particular made of expanded polystyrene, comprising at least one cell intended to form a clump of at least one plant, characterized in that it comprises: a deposition step, on at least part of the wall of the cell, a toxic self-cerning product capable of causing a stop of the longitudinal growth of at least some of the roots of the plant to be grown, when the end of these approach or reach this product, so that these roots do not penetrate the wall of the cell.   5. Process for the preparation of at least one root ball for the cultivation of at least one plant, characterized in that it comprises: a deposition step, on at least a part of the wall of at least one cell of a container, in particular an expanded polystyrene, of a toxic self-cerning product capable of causing a stop of the longitudinal growth of at least some of the roots of the plant to be cultivated, when the end of the latter approach to or reach this product; and a subsequent step of at least partial filling of the cell with a culture material so as to form a clump of culture.   6. Preparation process according to claim 4 or 5, characterized in that the deposition step is carried out by dipping the container in an aqueous solution of the toxic autocerning product.   7. Preparation process according to claim 4 or 5, characterized in that the deposition step is carried out by spraying an aqueous solution of the toxic autocerning product on at least the cell of the container.   8. Preparation process according to claim 4 or 5, characterized in that the deposition step is carried out by spraying the container with an aqueous solution of the toxic self-curing product.   9. Preparation process according to any one of claims 6 to 8, characterized in that said deposition step comprises a subsequent dewatering step.   10. Preparation process according to any one of claims 6 to 9, characterized in that the dosage of the aqueous solution comprises between 50 and 150 kg of airless lime or Bordeaux mixture for 400 liters of water.   11. Preparation process according to any one of claims 6 to 9, characterized in that the dosage of the aqueous solution comprises between 30 and 80 kg of fungistatic fungicide for 400 liters of water.