FR3056078B1

FR3056078B1 - ORGANIC MULCH

Info

Publication number: FR3056078B1
Application number: FR1700086A
Authority: FR
Inventors: Cedric Bertrand; Vanessa Andreu
Original assignee: Akinao; De Perpignan, University of; Universite de Perpignan
Current assignee: Akinao; De Perpignan, University of; Universite de Perpignan
Priority date: 2016-09-20
Filing date: 2017-01-27
Publication date: 2019-07-12
Anticipated expiration: 2037-01-27
Also published as: FR3056078A1; FR3056076A1

Abstract

L'invention vise un nouveau paillis organique conférant notamment au paillis obtenu une meilleure efficacité d'inhibition de la germination des adventices. L'invention porte principalement sur un nouveau paillis organique qui est essentiellement caractérisé en ce qu'il est réalisé à base d'une ou de plusieurs plantes choisies parmi les adventices, les plantes rudérales et les plantes envahissantes. L'invention porte également sur une nouvelle méthode d'obtention d'un tel paillis.The invention relates to a new organic mulch conferring in particular mulch obtained a better effectiveness of inhibition of the germination of weeds. The invention relates mainly to a new organic mulch which is essentially characterized in that it is made from one or more plants selected from weeds, ruderal plants and invasive plants. The invention also relates to a new method for obtaining such a mulch.

Description

"ORGANIC MULCH" The invention is in the fields of agriculture, horticulture and the maintenance of collective and amateur gardens and green spaces and infrastructure (JEVI). The invention relates more particularly to mulches.

Mulching is an operation that consists of covering the soil with plant, mineral or plastic materials, mainly to limit the evaporation and growth of weeds. Mulching also limits temperature and humidity variations and can, depending on its nature, bring nutrients to the soil.

There are different types of mulch including plastic mulch, biodegradable film, but also organic mulches based on organic waste (sawdust, dry plants, dead leaves, wood chips) or compost.

The development of organic mulch, for example in the case of leaves or dry plants, is to pick up dead leaves or dry plants and to grind them.

This is particularly the case for Miscanthus, a perennial herb of the graminaceous family whose stems and / or dry leaves are harvested at the end of winter and then ground for use as mulch. But Miscanthus mulch does not sufficiently limit the germination of some weeds.

The invention is a new organic mulch conferring including mulch obtained a better efficacy of inhibition of germination of weeds. The invention also relates to a new method for obtaining this mulch.

For this purpose, the organic mulch of the invention is essentially characterized in that it is made from one or more plants selected from weeds, ruderal plants and invasive plants.

Advantageously, the mulch is made based on viscous Inula, glandular Garlic or a mixture of these two plants. The invention also relates to a method for obtaining mulch previously stated which is essentially characterized in that it comprises at least the steps of: - mowing at least one fresh plant having green parts, - drying said mowed plants, and - grinding of the dried plants, the drying being able to precede the grinding or to succeed the grinding.

Advantageously, the green parts comprise rods and leaves.

Preferably, the plant has a strong allelopathic character.

More preferably, the mulch obtained is mixed with at least one mulch obtained by the same method as previously defined using a plant of different species.

Other features and advantages of the invention will emerge clearly from the description which is given below, by way of indication and in no way limiting, with reference to the appended figures among which: FIG. 1 is a graph illustrating the germination rate of two plants, Lolium multiflorum (a weed) and Nasturtium officinale subjected to the presence of three mulches according to the invention based respectively on Inula viscosa, Ailanthus altissima and a mixture of these two plants, in comparison with a control without mulching and mulching of the Miscanthus-based prior art; FIG. 2 is a graph illustrating the average size of the Lolium multiflorum coleoptiles subjected to the three mulches according to the invention based respectively on Inula viscosa, Ailanthus altissima and mixtures of these two plants, in comparison with a control without mulching and mulching of the Miscanthus-based prior art, and - FIG. a graph illustrating the germination rate of Lolium multiflorum and Nasturtium officinale 14 days after removal of the mulch, ie 14 days after the measurements corresponding to the results presented in FIG. 1, and FIG. 4 is a graph illustrating the number of weeds per square meter and their nature, on a soil prepared for market gardening 6 weeks after laying an Inule mulch in comparison with a Miscanthus mulch.

The Applicant has made a point a new mulch and a new method of obtaining organic mulches herbal to obtain mulch superior efficacy to existing organic mulches.

This method includes a step of mowing fresh plants, as opposed to mowing plants or parts of plants already dry. Fresh plants are plants with all or some green parts. In the method of the invention, the drying is carried out after mowing, before or after grinding. It can also be provided that the grinding and mowing are carried out at the same time, if necessary by the same machine, and that the fresh crushed plants are then dried.

The cutting of fresh plants advantageously preserves the allelopathic nature of the plants used, which allelopathic character acts against germination but also against the growth of weeds that have succeeded in germinating despite the presence of mulch , and favorably to soil enrichment. This is why the use of plants with a strong allelopathic character is preferred.

In addition, it is preferred in the context of the invention the joint use of the stems and leaves. If the leaves show a more pronounced allelopathic character, the stems act, because of their greater weight, on the mechanical effect of the mulch which prevents the germination and sprouting of germs. It should be noted that the effectiveness of a mulch against the germination of weeds lies mainly in the mechanical effect resulting from the presence of a mass on the ground which isolates the earth from the external environment. It should be noted that in addition to stems and leaves, mulches may include fruits and flowers that do not affect their anti-sprouting properties.

The Applicant has also discovered that the realization of mulch made from weeds, ruderal plants or invasive plants allowed to avoid the growth of plants of the same type. This is quite surprising since it could be expected that the use of these spontaneous growth type plants as mulch could have resulted in a proliferation of germination of the plants used to make the mulch. Conversely, the tests presented below show that the use of this type of plant has made it possible to limit or even completely annihilate the germination of weeds without causing the regrowth of the weeds used to produce the mulch.

It is understood that the use of spontaneous type plants (weeds, ruderal plants, invasive plants) to achieve mulch is quite advantageous because it allows to mitigate doubly the proliferation of this type of plant, a on the other hand by ensuring their mowing, and on the other hand by limiting the growth of weeds.

[0020] The Applicant has more particularly used to make mulches spontaneous growth plants harvested in the French region of Languedoc Roussillon, and more particularly the glandular Garlic (Ailanthus altissima) of the family of invasive alien plants, the viscous Inula (Inula viscosa) of the family of ruderal plants and weeds, and a mulch resulting from a mixture of mulch of Ailante and mulch of Inule. These two plants have a strong allelopathic character as recognized by the scientific community of this field.

To achieve the mulch of the invention, the viscous Inula and the glandular wing are preferably harvested between the months of May and October. Mowing is done on fresh plants which are either left on site for drying or transported to be dried at another site. The drying period varies between 24 hours and a week and is carried out at room temperature. The grinding is then carried out by a grinder, for example a grinder with vegetable type knives.

Alternatively, while remaining within the scope of the invention, the method for obtaining mulch may be part of another process, for example a plant substance extraction process in which the plants, after the extraction operation, form coproducts then recoverable for the manufacture of mulch.

It will also be possible to add, in the mulch of the invention, synthetic or natural polymers, based on lignin and cellulose in particular or any other bonding system intended to maintain better cohesion and stability of the mulch.

The mulch obtained can be intended for professionals for use in market gardening, viticulture or in arboriculture, communities or amateur gardeners. Depending on the use and in the case of a mixture of more or less woody plants, it will be possible to vary the rate of woody and unwoody plants in the mulch. For market gardening applications, the majority of plants that are not very woody (for example the viscous Inula) will benefit mainly from soil enrichment caused by the presence of leafy parts and, conversely, from perennial crops. woody plants (eg, glandular garlic) whose degradation time is slower.

Nonlimiting embodiments of the method and mulches of the invention are described below, as are the conditions of the tests carried out in support of the results given in the graphs of FIGS. 1 to 4.

Example 1: Tests in mini greenhouses Elaboration of viscous Inula mulch, glandular Garlic and mulch mixture The viscous Inula and the glandular Garlic are harvested in the Languedoc Roussillon region and more particularly in the department. Eastern Pyrenees. The viscous Inula was harvested in June 2014 and the Glandular Garlic in September 2014.

Once the mowing is done, the Inule and the Ailante are bagged and then transported to another site where the drying is carried out on tarpaulins for a period varying between 48 hours and 10 days depending on the volume.

Once dried, the Inule and the Ailante are crushed in a grinder with vegetable type knife mill. The dried and milled Inula then constitutes the Inule mulch, and the dried and crushed Garlic constitutes the mulch of Ailante. To make the mixing mulch, the dried and ground Ailante and the dried and milled Inula are mixed in ratios of 50:50. The mixture may be indifferently referred to as Inule and Ailante mixture mulch or Inule and Ailante mulch mixture. Assessment of germination rate and radicle size of Nasturtium officinale and Lolium multiflorum

The effects of viscous Inula mulch, glandular Garlic and a mixture of viscous Inula mulch and glandular Garlic obtained under the conditions described above are determined in mini greenhouses on two species of plants: Common Watercress (Nasturtium officinale). ) and Italian ryegrass (Lolium multiflorum) which is a weed.

These effects are compared to those of a commercial mulch made from Miscanthus, as well as to bare soil without mulch.

For each of the two species tested, 3 identical tests were carried out consisting of sowing 30 seeds on moist soil and covering the soil with 5 cm of mulch. The mulch is removed 7 days after its installation and a reading of the germination rate and the size of the coleoptiles of sprouted shoots is carried out.

Figure 1 reports the results obtained in terms of germination rate for the two species tested.

The results referenced 1 relate to the tests carried out on the Italian ryegrass and the results referenced 2 relate to the tests carried out on Common Watercress. The sub-references a, b, c, d and e relate to the results obtained respectively on a control without mulch (a), with a mulch of the Miscanthus prior art (b), with an Inule mulch (c), with a mulch of Ailante (d) and with a mixture of mulch of Inule and Ailante (e).

It can be seen that the three mulches of the invention make it possible to avoid any germination of the Common Watercress whereas the Miscanthus mulch does not reach it completely. With regard to ryegrass, the mulches of the invention make it possible to reduce by more than half the germination rate generated without mulch, whereas the Miscanthus mulch provides only a slight decrease in the germination rate.

The three mulches of the invention thus have an excellent efficiency for limiting or even annihilating the germination of plants and weeds. It should be noted that during the tests carried out, the growth or germination of any other weed, including those used to make the mulch has not been detected.

Figure 2 shows the average sizes of coleoptiles of sprouting Italian ryegrass obtained with the three mulches of the invention, Miscanthus mulch and the mulch-free control.

It is found that the size of the ryegrass coleoptiles is much smaller with the mulches of the invention compared to the mulch-free control and also to Miscanthus prior art mulch.

Demonstration of the irreversible nature of the absence of germination Following the tests and measurements previously described, the mulches tested are removed. Figure 3 reports the results obtained in terms of germination rate for the two species tested 14 days after removal of the mulch.

For the three mulches of the invention, it is found that the germination rate does not increase after removal of the mulch, which shows that the absence of germination (resulting from the presence of the mulches of the invention) has a character irreversible. For certain results, for example for Italian ryegrass with Inule mulch (reference 1c), it is possible to note a significant decrease in the germination rate resulting from a natural loss of certain sprouted plants.

Analyzes of soil composition

In this example, the mulch of the invention is a viscous Inula mulch prepared as previously described.

The viscous Inule mulch of the invention is compared to Miscanthus prior art mulch and bare mulch free soil.

Mulches are left on the ground for 6 months and then buried for a month. The analyzes of the composition of the soil are then carried out. The results are shown in Table 1 below.

It is found that the mulch of the invention causes an increase in the content of organic carbon, organic matter and total nitrogen. Thus, the mulch of the invention provides soil enrichment without nitrogen reduction, probably from the method of obtaining mulch by mowing green plants, including leaves.

[0026] Example 2: Tests in the fields

Field tests (greenhouses) are carried out with a viscous Inula mulch whose method of elaboration is that previously described, besides the fact that for these tests, the Inule was harvested in August 2014.

The land is prepared for market gardening. After being plowed, the soil is covered in three areas by the mulch of Inule, and on three other areas by a mulch of Miscanthus. The land is regularly watered on these areas. After 6 weeks, weeds are counted and described as being grown on areas with Inule mulch and on areas with Miscanthus mulch. The results are reported in number of weeds per square meter and presented in Figure 4.

Inner mulch areas were found to have a substantially lower number of Nettle, Veronica and other unidentified weeds than on areas covered with Miscanthus mulch.

The examples described above demonstrate the effectiveness of the mulches of the invention and mulches obtained by the method of the invention. This efficiency is illustrated both for mini greenhouse tests and for field trials.

Claims

MODIFIED CLAIMS

1. Organic mulch, characterized in that it is made of viscous Inula, glandular Garlic or a mixture of these two plants.

2. Method of obtaining an organic mulch according to claim 1, characterized in that it comprises at least its steps of: mowing at least one fresh plant having green parts, drying said mowed plants, and grinding dried plants, drying which can precede grinding or succeeding grinding.

3. Method according to claim 2, characterized in that the green parts comprise rods and leaves.

4. Method according to any one of claims 2 and 3, characterized in that His plant has a strong allelopathic character.

5. Method according to any one of claims 2 to 4, characterized in that the obtained mulch is mixed with at least one mulch obtained by the same method according to any one of claims 2 to 4 using a plant of different species .