BIO-HERBICIDE BASED ON ESSENTIAL OIL

Field of the invention

The invention relates to a herbicidal composition comprising at least one essential oil, at least one surfactant and at least one oily substance. The invention also relates to the use of such a herbicidal composition. Description of prior art

Among pests, weeds have been documented as serious plant pests which can reduce crop yields and interfere with plant functions to stop their growth. They constantly compete with crops for water and nutrient resources reducing yields and quality and, consequently, causing huge economic losses which can reach 34% in major crops.

Currently, most reliable weed control methods include mechanical weeding, hand weeding and application of chemical herbicides. These last chemical methods pose several problems with their negative impacts on environmental, animal and human health. Also, the systematic application of chemical herbicides increases the weed’s resistance to the applied chemical molecules/substances. Moreover, the alternative methods (thermal, mechanical ...) currently proposed are not very effective over time and the lack of persistence of the applied compositions forces the user to restart the operation at short intervals.

The current trend is to find a biological product to minimize the perceived impacts from synthetic herbicides in agriculture production. In this context, essential oils have been identified as potential natural herbicidal active compounds.

An essential oil is a concentrated hydrophobic liquid containing volatile (defined as the tendency of a substance to vaporize) aroma compounds from plants. Essential oils are also known as volatile oils, ethereal oils, aetherolea, or simply as the oil of the plant from which they were extracted. An oil is essential in the sense that it contains the essence of the plant's fragrance, i.e. the characteristic fragrance of the plant from which it is derived. Essential oils are generally extracted by distillation, often by using steam. Other processes include expression, solvent extraction, absolute oil extraction, resin tapping, and cold pressing. According to the norm ISO 9235, an essential oil is a product obtained from a natural raw material of plant origin, by steam distillation, by mechanical processes, for example from the epicarp of fruits, or by dry distillation, after separation of the aqueous phase - if any - by physical processes.

Herbicidal compositions comprising at least one essential oil, at least one oily substance and at least one surfactant are already known and formulated in order to avoid the use of chemical herbicides such as pelargonic acid. In this sense, the document US 2009/099022 discloses a herbicidal composition containing lemongrass essential oil, a carrier oil such as corn oil or linseed oil and a surfactant (for example sodium lauryl sulfate and lecithin).

Unfortunately, with the actual herbicidal compositions, only poor results are obtained in term of efficiency, notably because the spreading and the adhesion of these compositions are not always sufficient and adequate, because these compositions are often volatile but mainly because the active compound(s) of such herbicidal compositions does/do not necessary penetrate through the epicuticular waxes and through the plant tissues in an effective way.

Thus, nowadays, there is a need to provide an efficient herbicidal composition, comprising at least one essential oil as an active compound, notably to provide an alternative to the chemical herbicides such as pelargonic acid. In parallel, there is a need to provide a herbicidal composition presenting the right and adequate properties in terms of spreading, adhesion and volatility. More particularly, there is a need to provide a herbicidal composition comprising at least one essential oil as an active compound that presents a pre-emergence herbicidal activity or a post-emergence herbicidal activity, preferably that presents simultaneously a pre-emergence herbicidal activity and a post emergence herbicidal activity. There is also a need to provide a herbicidal composition ensuring that the active compound(s) can penetrate through epicuticular waxes of the weeds leaves in an effective way. Summary of the invention

It is an object of the invention to provide a herbicidal composition as an alternative to the chemical herbicides (such as pelargonic acid), comprising at least one essential oil as an active compound, at least one surfactant and at least one oily substance, such a composition presenting the right and adequate properties in terms of spreading, adhesion, volatility and penetration inside the plant tissues through the epicuticular waxes of the weeds leaves, while being at the same time effective both on radical elongation and germination (pre emergence herbicidal activity) of weeds but also on germinated and developed weeds (post-emergence herbicidal activity).

More particularly, it is an object of the invention to provide a herbicidal composition comprising at least one essential oil as an active compound, this composition remaining stable and “in place” over time once applied for example on weeds in the fields and this composition ensuring an adequate penetration of the active compound(s) inside the plant tissues through the epicuticular waxes of the weeds leaves.

To this end, according to the invention, there is provided a herbicidal composition comprising at least one essential oil as an active compound, at least one surfactant and at least one oily substance, said composition being under the form of an emulsion.

The terms “active compound” mean that the compound is biologically active as a herbicide (herbicidal activity). The desired herbicidal activity may be the sort to inhibit seed germination, to prevent the resumption of underground or aerial meristem and bud development, or to inhibit the development and growth of the roots and also of the hypocotyls, the epicotyls and any aerial parts of the plants.

The terms“oily substance” designate a fat fluid/liquid insoluble in water, from plant, animal or mineral origin.

The term“emulsion” means a fine dispersion of minute droplets of one liquid in another in which it is not soluble or miscible.

The invention is defined by the independent claims. The dependent claims define advantageous embodiments. In the context of the present invention, it was surprisingly determined that a composition under the form of an emulsion according to the invention comprising at least one essential oil as an active compound, at least one surfactant and at least one oily substance, demonstrates an efficient herbicidal activity on weeds. Indeed, it was shown that a composition according to the invention exhibits both a pre-emergence herbicidal activity and a post emergence herbicidal activity while being stable and remaining in place over time once applied.

It was also shown that the presence of at least one oily substance in a composition according to the present invention confers the right and adequate properties in terms of spreading, adhesion and volatility to the composition. In other words, the presence of at least one oily substance in a herbicidal composition according to the present invention, was determined to improve the spreading and the adhesion of the composition on the target sites, for example on the leaves of weeds, while reducing the volatility of the composition. The reduction of the volatility of the composition allows to ensure that it remains on the target sites, for example on the leaves of weeds. It was also shown that the presence of an oily substance in a herbicidal composition according to the present invention enhances at least its pre- and postemergence activities on weeds. Finally, it was also shown that the penetration of the active compounds through the epicuticular waxes of the weeds leaves is enhanced.

Advantageously, the composition under the form of an emulsion according to the present invention presents droplets having a droplet size inferior to 15 pm, preferably a droplet size inferior to 10 pm, more preferably a droplet size comprised between 0.1 pm and 10 pm, more preferably a droplet size comprised between 0.5 pm and 5 pm, more preferably a droplet size comprised between 3 pm and 4 pm. According to the present invention, the composition under the form of an emulsion may also present droplets having a droplet size inferior to 0.1 pm, preferably a droplet size inferior to 0.01 pm.

In particular and preferably, the composition under the form of an emulsion according to the present invention presents droplets having a droplet size distribution D90 equal to 15 pm, more preferably a droplet size distribution D90 equal to 10 pm. In particular and preferably, the composition under the form of an emulsion according to the present invention presents droplets having a droplet size distribution D50 equal to 5 pm, more preferably a droplet size distribution D50 equal to 4.5 pm.

In particular and preferably, the composition under the form of an emulsion according to the present invention presents droplets having a droplet size distribution D10 equal to 2 pm, more preferably a droplet size distribution D50 equal to 1 .5 pm.

In the context of the present invention, it was determined that such a composition under the form of an emulsion presenting droplets having a droplet size inferior to 15 pm, preferably a droplet size inferior to 10 pm, more preferably a droplet size comprised between 0.1 pm and 10 pm, more preferably a droplet size comprised between 0.5 pm and 5 pm, more preferably a droplet size comprised between 3 pm and 4 pm, improves the penetration of the active molecules (compounds) through the epicuticular waxes of the weeds leaves, so improving the herbicidal activity of essential oils.

In the context of the present invention, it was determined that such a composition under the form of an emulsion presenting droplets having such D90 and/or D50 and/or D10 value(s), improves the penetration of the active molecules (compounds) through epicuticular waxes of the weeds leaves, so improving the herbicidal activity of essential oils.

It was also determined that a composition under the form of an emulsion presenting such droplet sizes allows to avoid the formation of a precipitate by decantation what significantly increases the stability of the composition over time. Also, with such droplet sizes in a composition under the form of an emulsion according to the invention, it was shown that these droplets retain their size after one unique mixing. That is to say that, when applying the composition on a crop field, the composition does not need to be continuously mixed.

Preferably, in a herbicidal composition according to the invention, said at least one oily substance is a vegetable oil or a derivate of a vegetable oil chosen from the group consisting of the fatty esters obtained by esterification or transesterification of vegetable oils, fatty amides obtained by amidification or transamidification of vegetable oils and mixtures thereof, or mixtures thereof. This list is not exhaustive.

In general, by (trans)esterification and (trans)amidification is meant reactions which take place on the terminal function of the constituent triglycerides of the vegetable oil, and by epoxidation is meant a reaction taking place on the unsaturations of the vegetable oil.

Advantageously, in a herbicidal composition according to the invention, said vegetable oil is chosen from the group consisting of hazelnut oil, rapeseed oil, soybean oil, sunflower oil, pistachio oil, olive oil, almond oil, sweet almond oil, peanut oil, canola oil, safflower oil, cottonseed oil, linseed oil, corn oil, grape-seed oil, sesame oil and mixtures thereof. This list is not exhaustive.

Preferably, in a herbicidal composition according to the invention, said at least one essential oil is chosen from the group consisting of cinnamon essential oil, citronella essential oil, lemon essential oil, eucalyptus essential oil and mixtures thereof. This list is not exhaustive.

Cinnamon essential oil essentially contains the following molecules: cinnamaldehyde, cinnamyl acetate and benzaldehyde, eugenol, eugenyl acetate, caryophyllene, linalool and phellandrene. This list is not exhaustive.

Citronella essential oil essentially contains the following: molecules: citronellal, geraniol, citronellol, citral and limonene. This list is not exhaustive.

Eucalyptus essential oil essentially contains the following: eucalyptol, isopulegol, pinene (a et b) and p-cymene. This list is not exhaustive.

Preferably, in a herbicidal composition according to the invention, said cinnamon essential oil is obtained from the plant Cinnamomun zeylanicum or from the plant Cinnamomun cassia or from the plant Cinnamomun talama or from the plant Cinnamomun aromaticum or from the plant Cinnamomun glaucescens or from the plant Cinnamomun camphora. This list is not exhaustive.

Preferably, in a herbicidal composition according to the invention, said citronella essential oil is obtained from the plant Cymbopogon winterianus or from the plant Cymbopogon flexuosus.

Advantageously, in a herbicidal composition according to the invention, said eucalyptus essential oil is obtained from the plant Eucalyptus citriodora or from the plant Eucalyptus globulus or from the plant Eucalyptus radiata.

According to the invention, said at least one essential oil can be from synthetic origin or from natural origin, for example from an extract or from a fraction of an extract from the roots, the barks, the leaves, the stems, the fruits, the seeds and/or the flowers.

The extract used in the context of the invention to obtain an essential oil can be a cellular extract or an extracellular extract of the plant, which can be prepared according to any method known to those skilled in the art for extracting essential oils from plant tissues. The extract can be obtained from the roots, the barks, the leaves, the stems, the fruits, the seeds and/or the flowers.

Advantageously, the extract is derived from the leaves, the barks, the fruits or the seeds, the use of which does not lead to the death of the plant from which they are extracted.

The extract obtained can then be concentrated, or dried, for example by evaporation or lyophilization. The extract obtained can be incorporated as it is into the composition or else be purified, treated or fractionated, so as to enrich for desired active ingredient.

Advantageously, in a herbicidal composition according to the invention, said at least one surfactant is a natural surfactant chosen from the group consisting of lecithin, casein, saponines and mixtures thereof.

Alternatively, in a herbicidal composition according to the invention, said at least one surfactant is a synthetic surfactant chosen from the group consisting of sorbitan monododecanoate poly(oxy-1 ,2-ethanediyl), alkyl polyglucosides, sorbitan laurate, polyoxyethylene (20) sorbitan monolaurate, polyoxyethylene (20) sorbitan monopalmitate, polyoxyethylene (20) sorbitan monostearate, polyoxyethylene (20) sorbitan monooleate, polyoxyethylene glycol sorbitan laurate, hexaethylene glycol sorbitan monooleate, polyoxyethylene sorbitan stearate, decaglyceryl monooleate, decaglyceryl dioleate, polyoxyethylene sorbitan tristearate, monodehydrosorbitol monooleate, sorbitan monolaurate, sorbitan monopalmitate, sorbitan laurate and mixtures thereof. It is understood that any other appropriate surfactant is part of the present invention. This list is not exhaustive. Commercial names of adequate non-ionic surfactants are for example: Tween 20®, Tween 80®, Span 80®, Atplus® UEP-100, ethoxylated castor oil, Span 85®, Brij® 93, Brij® S 100, IGEPAL® CA-210, IGEPAL® CO- 890, MERPOL® HCS, SP Brij® C2 MBAL-SO-(SG), Triton™ x-405 reduced, Etocas® 5, glycerol monostearate, glyceryl stearate, Emulson® CO 9, Span 20® et Span 80® and mixtures thereof. This list is not exhaustive.

The presence of at least one surfactant in a herbicidal composition according to the invention, allows to obtain (1 ) a stable emulsion showing a good interaction between the hydrophilic and hydrophobic parts of the vegetable oil and the essential oil, (2) small particle size to improve the penetration of active molecules through epicuticular waxes of the weeds leaves and (3) an improvement on herbicidal activity of essential oils.

Preferably, in a herbicidal composition according to the invention, said at least one surfactant presents a hydrophilic-lipophilic balance (HLB) value comprised between 5 and 10, preferably a HLB value comprised between 7 and 9, more preferably a HLB value equal to 8.

Such a HLB value of said at least one surfactant comprised between 5 and 10, preferably comprised between 6 and 8 and more preferably equal to 7 was determined, in the context of the present invention, to be the adequate HLB value in order to obtain a composition under the form of an emulsion with the right droplet size allowing the composition to effectively penetrate the plant membranes, notably epicuticular waxes of the weeds leaves. As stated above, preferably, according to the present invention, the composition under the form of an emulsion presents droplets having a droplet size inferior to 15 pm, preferably a droplet size inferior to 10 pm, more preferably a droplet size comprised between 0.1 pm and 10 pm, more preferably a droplet size comprised between 0.5 pm and 5 pm, more preferably a droplet size comprised between 3 pm and 4 pm. According to the present invention, the composition under the form of an emulsion may also present droplets having a droplet size inferior to 0.1 pm, preferably a droplet size inferior to 0.01 pm.

It was also shown that the compositions according to the invention presenting such a HLB value were more effective in term of pre-emergence and post-emergence herbicidal activity. Also, it was determined that such a HLB value allows to obtain stable composition without the formations of precipitates or supernatants.

Within the meaning of the present invention, the term “HLB” is understood as being an empirical expression which expresses the hydrophilic and hydrophobic (or lipophilic) relationship of a surfactant. The hydrophilic- hydrophobic balance (HLB) of a surfactant expresses its properties: a surfactant has a greater affinity for water if the HLB balance is high (hydrophilic nature) and, conversely, a surfactant has a lower affinity for water (lipophilic or hydrophobic nature) when its HLB value is low.

The determination of the HLB value by calculation allows an arbitrary scale to be defined. The calculation method can be as follows: HLB=20xMh/M. This empirical formula allowing the HLB value to be calculated comprises the ratio between the molecular mass of the hydrophilic group of the surfactant in question (Mh) multiplied by 20 and the molecular mass of the surfactant in question (M).

Starting from this empirical formula, an arbitrary scale is therefore defined and has HLB values comprised between 0 and 20. An HLB value of zero corresponds to a completely lipophilic surfactant, and an HLB value of 20 corresponds to a completely hydrophilic surfactant. A distinction is made, therefore, between surfactants of low, medium and high HLB: a surfactant of low HLB has an HLB value of from 0 to 6; a surfactant of medium HLB has an HLB value of from 6 to 14 and a surfactant of high HLB has an HLB value of from 14 to 20.

Finally, the HLB value of a surfactant allows the solubility of the surfactant in water or in oil to be indicated and therefore the direction of the emulsion (water-in-oil or oil-in-water) to be determined. For this reason, a surfactant of high HLB will have a greater affinity for water and will therefore be more soluble in water than in oil and vice versa for surfactants of low HLB, which will be more soluble in oil. A surfactant that is more soluble in water than in oil will influence the direction of the “oil-in-water” emulsion and vice versa for a surfactant that is more soluble in oil than in water.

In the sense of the present invention, said at least one surfactant can be a mixture of surfactants. For example, such a mixture of surfactants can be a mixture of a low HLB surfactant with a high HLB surfactant. As an example, a mixture of surfactants can be a mixture of a first surfactant having a HLB value comprised between 3 and 6 so allowing to disperse an aqueous phase in a lipophilic phase with a second surfactant having a HLB value comprised between 15 and 18 so allowing to disperse a lipophilic phase in an aqueous phase.

In the case of a binary mixture of surfactants, the HLB value of this mixture can be calculated as followed:

binary mixture HBL = [ml / (ml + m2) . HLB1 ] + [m2 / (ml + m2) . HLB2] where ml = mass of the first surfactant

m2 = mass of the second surfactant

HLB1 = HLB of the first surfactant

HLB2 = HLB of the second surfactant

According to the invention, like for compositions only comprising one surfactant having a HLB value comprised between 5 and 10, the binary mixture HLB value is preferably comprised between 5 and 10, more preferably equal to 7. It is understood, that, according to the present invention, the composition may comprise more than two surfactants, for example mixtures of 3 or 4 surfactants.

Preferably, a herbicidal composition according to the invention further comprises an antioxidant agent chosen from the group consisting of tocopherol, ascorbic acid, sodium ascorbate, calcium ascorbate, citric acid and mixtures thereof. This list is not exhaustive.

Advantageously, in a herbicidal composition according to the invention, said at least one essential oil as an active compound is present in the composition in a proportion ranging from 1 % to 20% by weight relative to the total weight of the composition, preferably ranging from 2% to 5% by weight relative to the total weight of the composition.

Preferably, in a herbicidal composition according to the invention, said at least one surfactant is present in the composition in a proportion ranging from 0.1 % to 20% by weight relative to the total weight of the composition, preferably ranging from 0.5% to 5% by weight relative to the total weight of the composition. Advantageously, in a herbicidal composition according to the invention, said at least one oily substance is present in the composition in a proportion ranging from 1 % to 20% by weight relative to the total weight of the composition, preferably ranging from 2% to 5% by weight relative to the total weight of the composition.

Preferably, the herbicidal composition according to the invention further comprises at least one solvent chosen from the group consisting of water, alcohols, ketones, esters, ethers, polyols, ethyl acetate, propylene carbonate, acetonitrile and mixtures thereof.

Preferably, the herbicidal composition according to the invention further comprises at least one co-surfactant being a low molecular weight alcohol from methanol to butanol and mixtures thereof.

Advantageously, in a herbicidal composition according to the invention, said at least one co-surfactant is present in the composition in a proportion ranging from 0.01 % to 10% by weight relative to the total weight of the composition, preferably ranging from 0.1 % to 5% by weight relative to the total weight of the composition, more preferably ranging from 0.5% to 2% by weight relative to the total weight of the composition.

Preferably, the herbicidal composition according to the invention, further comprises at least one adjuvant chosen from the group consisting of paraffin wax, Trend® 90, Heliosol ®, 1 -octyl-2-pyrrolidone, Actirob® B, Atplus® 463, Actilandes™, Vegelux®, Emulsol® and mixtures thereof.

Preferably, the herbicidal composition according to the invention, is under the form of capsulates, in particular under the form of nano- or micro- capsulates, liquids or concentrates. Any type of known herbicidal composition may be prepared.

Advantageously, in a herbicidal composition according to the invention, all components are bio-based components.

The present invention also relates to the use of a composition according to the invention for obtaining phytotoxic activity comprising inhibiting seed germination, preventing the resumption of underground or aerial meristem and bud development, or inhibiting the development and growth of the roots, the hypocotyls, the epicotyls, the plantlets or aerial parts of the plant. In particular, use may be made of herbicidal compositions in the form of granules, liquids, emulsions or emulsifiable concentrates, as adjuvants for herbicidal mixture.

Short description of the drawings

These and further aspects of the invention will be explained in greater detail by way of examples and with reference to the accompanying figures in which: Fig.1 shows the remaining quantity (% weight) on a support over time of a composition according to the invention comprising an oily substance (with FS) in comparison with a composition not comprising an oily substance (without FS);

Fig.2 shows the germination rate (%) of different seeds (carrot, chamomile, clover and plantain) treated with two different compositions according to the invention (HE1 and HE2);

Fig.3 shows the toxicity score measured on Bryophyte seven days after treatment with two different compositions according to the invention (HE1 and HE2);

Fig.4 shows the toxicity score measured on Pterydophyte (Equisetum arvense) seven days after treatment with two different compositions according to the invention (HE1 and HE2);

Fig.5 shows the lost percentage (%) measured on crimson clover 7 days after treatment with different compositions according to the invention;

Fig.6 shows the lost percentage (%) measured on crimson clover 7 days after treatment with different compositions according to the invention;

Fig.7 shows the lost percentage (%) measured on grass 7 days after treatment with different compositions according to the invention;

Fig.8 shows the lost percentage (%) measured on crimson clover 7 days after treatment with different compositions according to the invention;

Fig.9 shows the lost percentage (%) measured on grass 7 days after treatment with different compositions according to the invention. Detailed description of embodiments of the invention

Volatility of a composition according to the invention In order to determine the volatility of a composition according to the invention comprising an oily substance, in comparison with a composition not containing an oily substance, the weight of 10 drops of each composition was measured every 5 minutes. In practice, 10 drops of 10 pL were put on a small piece of parafilm paper (5x5 cm). The volatility test was performed under a temperature of 20 ± 2°C.

Figure 1 shows the obtained results with two different compositions (see Table 1 ), i.e. the remaining quantity (% weight) over time of a composition according to the invention comprising an oily substance (with FS) in comparison with a composition not comprising an oily substance (without FS).

Table 1 - compositions with and without an oily substance (% w:w)

(1 ) Cinnamomum cassia (from bark) (Pranarom)

(2) grape oil (Emile Noel)

(3) Tween 20® (Sigma Aldrich)

(4) ethanol 99.5% (Sigma Aldrich)

As it can be seen on Figure 1 , a composition according to the invention comprising an oily substance preserves the integrity of the composition once applied by decreasing its volatility. Indeed, higher weights were measured over time for the composition according to the invention (with FS) in comparison with a composition not comprising an oily substance (without FS). Concretely, this means that a composition according to the invention presents a longer duration of action. Biological tests

1. Pre-emergence activity The pre-emergence activity of compositions according to the invention was evaluated on different seeds: carrot (Daucus carota), chamomile (Chamaemelum nobile), crimson clover (Trifolium incarnatum) and plantain (Plantago lanceolata).

Filter papers in petri dishes were moistened with two different compositions according to the invention (HE1 and HE2 - see Table 2) while other filter papers were moistened with water (control), before placing seeds in contact with these filter papers.

Table 2 - compositions according to the invention (% w:w)

(1 ) HE1 = Cinnamomum cassia (from bark) (Pranarom)

(2) HE2 = Cinnamomum zeylanicum (from leaves) (Pranarom)

(3) grape oil (Emile Noel)

(4) Tween 20® (Sigma Aldrich)

(5) ethanol 99.5% (Sigma Aldrich)

A first evaluation of the seeds germination rate on the filter paper was performed 8 days after the placement of the petri dishes in a growth chamber at a constant temperature of 23°C. The ungerminated seeds after 7 days were transposed on water agar in petri dishes placed in a growth chamber at a constant temperature of 23°C and a second assessment was performed 20 days later to complete the evaluation of the germination rate. A seed is considered germinated when the radicle pierces the integuments.

The obtained results are presented in Figure 2. As it can be seen, both the compositions according to the invention HE1 (Cinnamomum cassia) and HE2 (Cinnamomum zeylanicum) totally inhibit the germination of the tested seeds: compositions according to the invention presents a pre-emergence activity.

2. Post-emergence activity

Essay 1 : post-emergence activity on Bryophyte

In order to assess the post-emergence activity of compositions according to the invention on Bryophyte (adult stage), different compositions according to the invention (HE1 and HE2 - see Table 3) were tested by spraying (100 ml/m ² ) on Bryophytes (adult stage). Pelargonic acid at a concentration of 30 g/L (PA) (Compo®) was used as a positive control and a composition without the active substance (essential oil) (SSA) was also tested. Table 3 - compositions tested on Bryophyte (% w:w)

(1 ) HE1 = Cinnamomum cassia (from bark) (Pranarom)

(2) HE2 = Cinnamomum zeylanicum (from leaves) (Pranarom)

(3) grape oil (Emile Noel)

(4) Tween 20® (Sigma Aldrich)

(5) ethanol 99.5% (Sigma Aldrich)

The obtained results (toxicity score) are presented in Figure 3. For Bryophytes, it is recognized that the score of 0 represents a healthy and undamaged plant while a score of 6 represents a dead plant. These scores were determined 7 days after treatment with the different compositions.

As it can be seen, both the compositions according to the invention HE1

(Cinnamomum cassia) and HE2 (Cinnamomum zeylanicum) resulted in a toxicity score of 6 equivalent to the score noted with the positive control (pelargonic acid): compositions according to the invention presents a post-emergence activity on Bryophyte.

Essay 2: post-emergence activity on Pterydophyte

In order to assess the post-emergence activity of compositions according to the invention on Pterydophyte, the Pterydophyte Equisetum arvense (adult stage) was considered. Different compositions according to the invention (HE1 and HE2 - see Table 4) were tested by spraying (100 ml/m ² ). Pelargonic acid at a concentration of 30 g/L (PA) (Compo®) was used as a positive control and a composition without the active substance (essential oil) (SSA) was also tested.

Table 4 - compositions tested on Pterydophyte (% w:w)

(1 ) HE1 = Cinnamomum cassia (from bark) (Pranarom)

(2) HE2 = Cinnamomum zeylanicum (from leaves) (Pranarom)

(3) grape oil (Emile Noel)

(4) Tween 20® (Sigma Aldrich)

(5) ethanol 99.5% (Sigma Aldrich)

The obtained results (toxicity score) are presented in Figure 4. For Pterydophytes, it is recognized that the score of 4 represents a dead plant. These scores were determined 7 days after treatment with the different compositions.

As it can be seen, the compositions according to the invention HE1 (Cinnamomum cassia) and HE2 (Cinnamomum zeylanicum) respectively resulted in a toxicity score of 4 and 3 equivalent to the score noted with the positive control (pelargonic acid): compositions according to the invention presents a post-emergence activity on Pterydophyte. Essay 3: post-emergence activity on crimson clover

The post-emergence activity of compositions according to the invention was evaluated on crimson clover (Trifolium incarnatum) (2-3 leaves stage). By spraying (100 ml/m ² ), different compositions according to the invention were tested (see Table 5). Pelargonic acid at a concentration of 30 g/L (PA) (Compo®) was used as a positive control and compositions without the active substance (essential oil) (SSA) were also tested. Water was used as a negative control. After treatment with the different compositions, plants were maintained under the following conditions: temperature of 27 ± 3°C and RH (Relative Humidity) of 60 ± 5% and the post-emergence activity was evaluated 7 days after the treatment with the different compositions.

Table 5 - compositions tested on crimson clover (% w:w)

HE1 = Cinnamomum cassia (from bark) (Floressence)

HE2 = Cinnamomum zeylanicum (from leaves) (Floressence)

HE3 = Cymbopogon wintrerianus (Floressence)

Ra = grape oil; No = hazelnut oil ; Li = linseed oil (Emile Noel)

(1 ) Tween 20® (Sigma Aldrich) (2) ethanol 99.5% (Sigma Aldrich)

The obtained results are presented in Figure 5. As it can be seen, the compositions HE1 , RA; HE2, RA; HE1 , No and HE1 , Li all presented a high post emergence activity. In particular, the obtained results allowed to highlight the fact that different oils (RA, No and Li) can be used since similar lost percentages were noted for the essential oil HE1 when mixed with these different oil (oily substance). The presented results also demonstrated that the active substance, i.e. the essential oil, is essential for the post-emergence activity since the tests without essential oil (SSA) led to 0% lost percentage.

Essay 4: post-emergence activity on crimson clover

The post-emergence activity of compositions according to the invention was evaluated on crimson clover (Trifolium incarnatum) (2-3 leaves stage). By spraying (100 ml/m ² ), different compositions according to the invention were tested (see Table 6) were tested. Pelargonic acid at a concentration of 30 g/L (PA) (Belchim Crop Protection) was used as a positive control as well as two other positive controls (Beloukha® and Compo®) and compositions without the active substance (essential oil) (SSA) was also tested. Water was use as a negative control. After treatment with the different compositions, plants were maintained under the following conditions: temperature of 27 ± 3°C and RH (Relative Humidity) of 60 ± 5% and the post-emergence activity was evaluated 7 days after the treatment with the different compositions. Table 6 - compositions tested on crimson clover (% w:w)

HE1 = Cinnamomum cassia (from bark) (Floressence)

HE2 = Cinnamomum zeylanicum (from leaves) (Floressence)

HE3 = Cymbopogon wintrerianus (Floressence)

(1 ) = grape oil (Emile Noel)

(2) Soy lecithin (MP Biomedicals)

(3) Tween 20® (Sigma Aldrich)

(4) ethanol 99.5% (Sigma Aldrich)

The obtained results are presented in Figure 6. As it can be seen, all the compositions according to the present invention were effective with at least 50% lost percentage and most of these compositions allowed to reach lost percentages equivalent to those observed with the positive controls (PA, Compo, Bel.).

It is important to note the presence of an oily substance (i.e., a vegetable oil) increased the post-emergence activity of a composition according to the present invention. Indeed, when comparing the results obtained for HE1 Bio-EtOh (essential oil + oily substance + surfactant) to the results obtained for HE1 Bio-EtOh&FIV (essential oil + surfactant), it can be concluded that the oily substance enhances the post-emergence activity since the lost percentage is significantly increased with the composition Bio-EtOh (essential oil + oily substance + surfactant).

Another point is that the use of a natural surfactant (from natural origin) or of a synthetic surfactant gave different results: the use of soy lecithin as natural surfactant (HE1 Bio) instead of Tween 20® (HE1 ) allowed to observe a significant higher lost percentage. Essay 5: post-emergence activity on grass

The post-emergence activity of compositions according to the invention was evaluated on grass (adult stage). By spraying (100 ml/m ² ), different compositions according to the invention were tested (see Table 7). Compo® at a concentration of 30 g/L (Compo) was used as a positive control and a composition without the active substance (essential oil) (SSA) was also tested. Water was used as a negative control. After treatment with the different compositions, plants were maintained under the following conditions: temperature of 27 ± 3°C and RH (Relative Humidity) of 60 ± 5% and the post emergence activity was evaluated 7 days after the treatment with the different compositions.

Table 7 - compositions tested on grass (% w:w)

HE1 = Cinnamomum cassia (from bark) (Floressence)

HE2 = Cinnamomum zeylanicum (from leaves) (Floressence)

HE3 = Cymbopogon wintrerianus (Floressence)

(1 ) = grape oil (Emile Noel)

(2) Soy lecithin (MP Biomedicals) (3) Tween 20® (Sigma Aldrich)

(4) ethanol 99.5% (Sigma Aldrich)

The obtained results are presented in Figure 7. As it can be seen, all the compositions according to the present invention were effective with at least 40% lost percentage.

It is important to note the presence of an oily substance (i.e., a vegetable oil) increased the post-emergence activity of a composition according to the present invention. Indeed, when comparing the results obtained for HE1 Bio-EtOh (essential oil + oily substance + surfactant) to the results obtained for HE1 Bio-EtOh&HV (essential oil + surfactant), it can be concluded that the oily substance enhances the post-emergence activity since the lost percentage is significantly increased with the composition Bio-EtOh (essential oil + oily substance + surfactant).

Another point is that the use of a natural surfactant (from natural origin) or of a synthetic surfactant gave different results: the use of soy lecithin as natural surfactant (HE1 Bio) instead of Tween 20® (HE1 ) allowed to observe a significant higher lost percentage.

Essay 6: post-emergence activity on crimson clover

The post-emergence activity of compositions according to the invention was evaluated on crimson clover (Trifolium incarnatum) (2-3 leaves stage). The objective of this Essay 6 was to test different vegetable oil (oily substance): rapeseed oil - Co (Everyday®); sunflower oil - To (Everyday®) and grape-seed oil - Ra (Emile Noel) in combination with three different essential oils:

Cinnamomum cassia - HE1 (from bark - Floressence), Cinnamomum zeylanicum - HE2 (from leaves - Floressence) and Cymbopogon wintrerianus - HE3 (Floressence). By spraying (100 ml/m ² ), different compositions according to the invention were tested. Each formulation was prepared as follow: 3% of the tested essential oil (HE1 or HE2 or HE3) + 3% of the tested oily substance (Co, or Ra or To) + 2% Soy lecithin (MP Biomedicals) as a surfactant + 0.5% ethanol 99.5% (Sigma Aldrich) as a co-surfactant + 91.5% water. Compo® at a concentration of 30 g/L (Compo) was used as a positive control. Water was use as a negative control. After treatment with the different compositions, plants were maintained under the following conditions: temperature of 27 ± 3°C and RH (Relative Humidity) of 60 ± 5% and the post-emergence activity was evaluated 7 days after the treatment with the different compositions.

The obtained results are presented in Figure 8. As it can be seen, all the compositions according to the present invention were effective and allowed to reach lost percentages equivalent to those observed with the positive control. These results also show that different oily substances can be used with different essential oils in an effective way.

Essay 7: post-emergence activity on grass

The post-emergence activity of compositions according to the invention was evaluated on grass (adult stage). The objective of this Essay 7 was to test different vegetable oil (oily substance): rapeseed oil - Co (Everyday®); sunflower oil - To (Everyday®) and grape-seed oil - Ra (Emile Noel) in combination with three different essential oils: Cinnamomum cassia - HE1 (from bark - Floressence), Cinnamomum zeylanicum - HE2 (from leaves - Floressence) and Cymbopogon wintrerianus - HE3 (Floressence). By spraying (100 ml/m ² ), different compositions according to the invention were tested. Each formulation was prepared as follow: 3% of the tested essential oil (HE1 or HE2 or HE3) + 3% of the tested oily substance (Co, or Ra or To) + 2% Soy lecithin (MP Biomedicals) as a surfactant + 0.5% ethanol 99.5% (Sigma Aldrich) as a co surfactant + 91 .5% water. Compo® at a concentration of 30 g/L (Compo) was used as a positive control. Water was use as a negative control. After treatment with the different compositions, plants were maintained under the following conditions: temperature of 27 ± 3°C and RH (Relative Humidity) of 60 ± 5% and the post-emergence activity was evaluated 7 days after the treatment with the different compositions.

The obtained results are presented in Figure 9. As it can be seen, all the compositions according to the present invention were effective and allowed to reach lost percentages equivalent to those observed with the positive control. These results also show that different oily substances can be used with different essential oils in an effective way.

The present invention has been described in terms of specific embodiments, which are illustrative of the invention and not to be construed as limiting. More generally, it will be appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and/or described hereinabove.

Use of the verbs "to comprise", "to include", "to be composed of", or any other variant, as well as their respective conjugations, does not exclude the presence of elements other than those stated.

Use of the article "a", "an" or "the" preceding an element does not exclude the presence of a plurality of such elements.