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    • 专利摘要:
    The present invention relates to a composition intended for agricultural use, in the concentrated or diluted state, for stimulating the nitrogen metabolism of the cultivated plants; processes and uses thereof. The compositions comprise (1) a compound selected from the group consisting of glutamic acid, glutamine, a hydrate thereof, an enantiomer thereof, a salt thereof, and combinations thereof; and (2) algae of the genus Laminaria; said algae of the genus Laminaria and said compound being present respectively in a mass ratio of between 4.5: 1 and 67.5: 1.
    公开号:FR3033473A1
    申请号:FR1552014
    申请日:2015-03-11
    公开日:2016-09-16
    发明作者:Marc Guillermou;Sylvie Levivier;Olivier Klarzynski
    申请人:BIO3G;
    IPC主号:
    专利说明:

    [0001] A composition for agricultural use for stimulating nitrogen metabolism of plants comprising an extract of algae of the genus Laminaria and glutamic acid, processes and uses thereof. FIELD OF THE INVENTION The field of the invention is that of compositions intended for agricultural use, in order to stimulate the growth of plants, particularly for the stimulation of the nitrogen metabolism of plants. More specifically, the invention relates to a composition, concentrated or ready for use in diluted form, comprising algae of the genus Laminaria and a compound having a glutamine unit such as glutamine, glutamic acid, their hydrates, their enantiomers , their salts. The invention also relates to a method for stimulating nitrogen metabolism of cultivated plants and the use of algae of the genus Laminaria and a compound having the glutamine unit, or a composition comprising them, for the stimulation of nitrogen metabolism. cultivated plants. 2. Prior Art The United Nations Food and Agriculture Organization, better known by the acronym FAQ for Food and Agriculture Organization of the United Nations, is estimated at 9.1 billion human population in 2050 ( http://www.fao.org/fileadmin/templates/wsfs/docs/Issues papers / Issues papers EN / C how to feed the world in 2050.pdf). According to his estimates, the increase in the population would be mainly in the developing countries. To feed this population, food production is expected to increase by 70% and cereal production should reach 3 billion tonnes, compared to 2 billion today. Nitrogen is an essential component of proteins and a key element for crop enhancement. It is absorbed by plants in the form of nitrates. Therefore, nitrogen fertilization is an indispensable step in modern agriculture. However, the intensive use of nitrogen fertilizers has a severe environmental impact due in particular to groundwater pollution, acid rain in some parts of the world, the destruction of aquatic fauna and flora, and the proliferation of green algae (U / va / actuca, Ulva armoricana, Ulva rotundata) in the seas and oceans. On the other hand, the actual production of nitrogen fertilizers is a relatively polluting activity in itself.
    [0002] 3033473 2 To limit the environmental impact, natural fertilizers based on algae are proposed. Algae are rich in amino acids and proteins. Algae are therefore a source of nitrogen of choice. A first step consists in spreading green algae on the fields. One tonne of algae is equivalent to 1.2 kg of nitrogen. In addition, this approach allows the use of green algae collected on the beaches. An alternative approach is to use so-called "biostimulant" compositions containing algae as a source of nitrogen. To the best of the applicant's knowledge, there is no composition allowing cultivated plants to optimize or maximize the assimilation and use of the nitrogen administered to them by fertilizers. 3. OBJECTIVES OF THE INVENTION The object of the invention is notably to overcome these disadvantages of the prior art.
    [0003] More specifically, an object of the invention is to provide, in at least one embodiment, a composition, in concentrated or diluted form, for stimulating growth of the cultivated plants. Another object of the invention is to implement, in at least one embodiment, a composition, in concentrated or diluted form, for stimulating the nitrogen metabolism of the cultivated plants. Another objective of the invention is to implement, in at least one embodiment, a composition, in concentrated or diluted form, making it possible to increase the yield of a crop without increasing or even decreasing the amount of wheat. fertilizer administered.
    [0004] Another object of the invention is to implement, in at least one embodiment, a composition, in concentrated or diluted form, making it possible to improve the quality of the crops without increasing or even decreasing the quantity of administered fertilizer. The invention further aims, in at least one embodiment, to provide a method for stimulating the metabolism of cultivated plants to improve the yield and quality of agricultural crops without requiring an increase in the amount of fertilizer. spread. 4. Objectives of the Invention These objectives, as well as others which will appear later, are achieved by means of a concentrated composition intended for agricultural use, to stimulate the nitrogen metabolism of the cultivated plants. According to the invention, such a concentrated composition comprises: a compound having a glutamine unit, in particular a compound chosen from the group comprising glutamic acid, glutamine, one of their hydrates, one of their enantiomers, one of their salts , and their combinations; - seaweed of the genus Laminaria; said algae of the genus Laminaria and said compound being present in a mass ratio of from about 4.5: 1 to about 67.5: 1, respectively. The term "hydrate" of a molecule means the union of water and said molecule, for example for a crystallized salt. The term "enantiomer" means the non-superimposable stereoisomeric forms of a molecule having an asymmetric carbon.
    [0005] By "salt" is meant a chemical compound consisting of an anion and a cation without a net charge. Here, glutamic acid forms an anion (glutamate) which can form a salt by complexing with a cation selected from ammonium, calcium, iron, magnesium, potassium, pyridinium, sodium, lithium , quaternary ammonium. Preferably, the glutamic acid salt is monosodium glutamate or monosodium glutamate. The mass ratio is calculated as follows: mass ratio = mass of Laminaria algae / mass of active principle Thus, the invention is based on a completely new and original approach to provide a composition for stimulating nitrogen metabolism. This stimulation in particular makes it possible to improve the quality and the yield of the cultivated plants, without increasing the quantity of fertilizer administered to the crops, or even reducing the quantity of fertilizer administered. The composition according to the invention is in no way a palliative or a complement to traditional sources of nitrogen such as synthetic chemical fertilizers or natural origin. Indeed, the amount of nitrogen provided by the composition according to the invention is negligible (less than about 0.01%), the composition not then being a nitrogen source sufficient for the cultivation of plants. It is important to emphasize here that the principle of the invention is not to design a composition which would be limited to providing plants with nitrogen under a different form of fertilizers. The principle of the invention is based on the provision of a composition - in concentrated or diluted form - comprising a combination of ingredients selected to stimulate in particular the assimilation and translocation of nitrogen from the roots to the plant cells.
    [0006] In fact, the inventors have surprisingly discovered that the combination of an alga belonging to the genus Laminaria and a compound comprising a glutamine unit, makes it possible to stimulate the nitrogen metabolism of the cultivated plants. By "stimulation of nitrogen metabolism" is meant, in particular, an increase in nitrogen uptake by said plant, an increase in nitrogen storage by said plant, and combinations thereof. In other words, the cultures treated with the composition according to the invention have either a better yield at equal amount of fertilizer; or the plants treated with the composition according to the invention have no or little deficiency due to a too small fertilizer application. In other words, the expression "stimulation of nitrogen metabolism" in the present application means that, at an equal amount of nitrogen, the cultivated plants treated with the composition according to the invention are capable of: to absorb more nitrogen compared to an untreated plant; and on the other hand, to further translocate, with respect to an untreated plant, the nitrogen assimilated by the roots to the plant cells requiring this nitrogen, and in particular to the seeds for the synthesis of proteins. It is established that plant cells react according to external stimuli. However, no method of agriculture is based on this principle. In fact, most of the nitrogen fertilization strategies remain based on fixed amounts of nitrogen to be fed to the crops, without taking into account the internal dimension of the plant. The inventors have discovered that certain biological mechanisms resulting from different metabolic pathways can be activated only by means of particular combinations of active principles. The inventors have therefore developed a composition for agricultural use which makes it possible to stimulate the nitrogen metabolism of cultivated plants, thanks to the combination of an algae extract of the genus Laminaria and a compound having a glutamine motif, and in particular chosen from the glutamine, glutamic acid, one of their hydrates, one of their enantiomers, one of their salts, and their combinations. In other words, the composition according to the invention allows cultivated plants to have a higher protein content in seeds for example, without having to increase the amount of fertilizers and nitrates in the soil. Thus, the plants grown in the presence of the composition according to the invention have a better quality, without having to increase the amount of nitrates in the soil. As a result, they are more easily valued commercially and nutritionally.
    [0007] Equally interestingly, the inventors have found that the composition according to the invention makes it possible to reduce the quantity of fertilizer administered while preserving an equivalent protein content and culture yield. In other words, the composition according to the invention makes it possible to cultivate plants by reducing the amount of fertilizer without altering the quality of the crops or reducing the crop yield.
    [0008] Consequently, the composition according to the invention makes it possible to implement efficient farming while being more respectful of the environment. The compound having a glutamine unit and Laminaria algae are present in the compositions according to the invention in a physiologically effective amount, that is to say when the composition (ready-to-use or after dilution) is applied to the plants to be treated. . Advantageously, said algae of the genus Laminaria and said compound are present respectively in a mass ratio of between about 11.25: 1 and about 45: 1; alternatively between about 18: 1 to about 38.25: 1; alternatively in a weight ratio of about 45: 1.5. The inventors have indeed found that these particular mass ratios allow a better efficiency of the stimulation of nitrogen metabolism. The inventors have indeed found that these specific mass ratios allow the best results and better stimulation of the nitrogen metabolism of the cultivated plants. As demonstrated by the work of the inventors, the composition exhibits optimum efficiency for these particular mass ratio values, and maximum efficiency when the Laminaria / com algal weight ratio is about 45: 1.5. It should be noted that the ratio 45: 1.5 can be approximated by the value 30: 1. In an advantageous embodiment of the invention, the algae of the genus Laminaria can be incorporated into the composition according to the invention in the form of a solution of Laminaria algae, preferably an aqueous solution of Laminaria algae. For example, such an aqueous solution may comprise about 40% to 50% by weight of algae of the genus Laminaria and the remainder being by weight of water, based on the total weight of the aqueous solution. The algae of the genus Laminaria can be milled, chopped, cut or mixed in water to form an aqueous solution of algae of the genus Laminaria. In a particularly advantageous embodiment, the algae of the genus Laminaria are incorporated in the composition according to the invention in the form of an aqueous solution of algae comprising approximately 45% by weight of algae and 55% by weight of water. , based on the total weight of the aqueous solution. Such an aqueous solution of Laminaria algae can be prepared by grinding algae of the genus Laminaria in water after washing and sorting the algae. The water is then added until it reaches 45% by weight of primary algae extract and 55% by weight of water, based on the total weight of the aqueous solution. The mixture is then transferred to a 1000L vat for milling with a Comitrol type mill. Once crushed, citric acid is added at 3% (w / v) and then homogenized before conditioning and end use. Thus, when the algae are incorporated in the composition according to the invention in the form of an aqueous solution, said algae of the genus Laminaria and said compound are present respectively in a mass ratio of between about 10: 1 and about 150: 1, preferably about 100: 1.5. Advantageously, in such a diluted, ready-to-use composition, said Laminaria algae in aqueous solution and said compound are present respectively in a mass ratio of between about 25: 1 and about 100: 1, more preferably between about 40 : 1 and about 85: 1 and most preferably a weight ratio of about 100: 1.5. Particularly advantageously, the concentrated composition according to the invention comprises a mass proportion of said compound of between about 0.01% and about 20%; alternatively between about 0.1% and about 10%; Alternatively between about 0.5% and about 5%; and alternatively about 1.5% relative to the total weight of the concentrated composition. Advantageously, said compound is selected from glutamic acid D, glutamic acid L, monosodium glutamate, glutamine, or mixtures thereof; alternatively monosodium glutamate, glutamic acid or mixtures thereof; Alternatively glutamic acid. Monosodium glutamate and monosodium glutamate refer to the same molecule. Advantageously, the concentrated composition according to the invention comprises a mass proportion of said algae of the genus Laminaria of between about 4.5% and about 50%; alternatively between about 15% and about 50%; alternatively between about 25% and about 50%; alternatively between about 35% and about 50%; alternatively between about 40% and 45%; alternatively about 42.2% based on the total weight of the concentrated composition. The inventors have indeed found that these carefully selected proportions allow a good effectiveness of the composition according to the invention. It also makes it economically viable. Advantageously, the algae of the genus Larninaria is chosen from the species Larninaria abyssali, Larninaria agardhii, Larninaria andersonii, Larninaria angustata, Larninaria belvisii, Larninaria biruncinata, Larninaria bongardiona, Larninaria bracteata, Larninaria brasiliensis, Larninaria brongardiona, Larninaria bullata, Larninaria cichorioides, Larninaria complanata, Larninaria conica, Larninaria coriacea, Larninaria cornea, Larninaria crassifolia, Larninaria diabolica, Larninaria digitata, Larninaria discolor, Larninaria ephemera, Larninaria forlowii, Larninaria fissilis, Larninaria flagellum, Larninaria flexicaulis, Larninaria gunneri, Larninaria hyperborea, Larninaria japonica, Larninaria 15 larnourariaii, Larninaria leptopoda, Larninaria longicruris, Larninaria longipedalis, Larninaria longipes, Larninaria longissima, Larninaria lyrata, Larninaria nigripes, Larninaria ochotensis, Larninaria ochroleuca, Larninaria ophiura, Larninaria pallida, Larninaria palmata, Larninaria popyr Ina, Larninaria platymeris, Larninaria polyphylla, Larninaria pseudodigitata, Larninaria punctota, Larninaria religosa, Larninaria remotifolia, Larninaria repens, Larninaria rodriguezi, Larninaria ruprechtiona, Larninaria ruprechtii, Larninaria saccharina, Larninaria sachalinensis, Larninaria sorniensis, Larninaria setchellii, Larninaria sinclairii, Larninaria solidungula , Larninaria toeniata, Larninaria turneri, Larninaria viridissima, Larninaria vittata, Larninaria yendoona, Larninaria yezoensis or combinations thereof; alternatively the alga is selected from the species Larninaria digitata, Larninaria hyperborea, Larninaria japonica, Larninaria saccharina or combinations thereof; alternatively the alga belongs to the species Larninaria digitata. In an advantageous embodiment, the composition according to the invention further comprises at least one preservative agent. In this case, said preserving agent is chosen from sorbates, para bens or their mixture. Preferably, said preservative is selected from potassium sorbate, methylparaben or mixtures thereof. Advantageously, said preservative is between about 0.02% and about 2%, preferably about 0.2%. The presence of preservative makes it possible to avoid the degradation of the composition and the development of microorganisms.
    [0009] In one embodiment of the invention, the concentrated composition according to the invention further comprises an adjuvant; alternatively an adjuvant selected from a gelling agent, a dispersing agent, a surfactant or combinations thereof. Interestingly, said adjuvant is a texturizing agent such as xanthan, silicone or combination thereof. These adjuvants make it possible to formulate an easy-to-use composition. In one embodiment, said surfactant is selected from a polyethoxylated fatty alcohol, a sucrolipid, a polyethoxylated vegetable oil, a polyethoxylated vegetable oil methyl ester, a polyethoxylated fatty acid, a hydrated silicone, a sorbitol ester, a polyethoxylated sorbitol ester and combinations thereof. According to the invention, the surfactant is between about 0.1% and about 10%, preferably about 1.5% relative to the total weight of the composition. The invention further relates to a ready-to-use composition for agricultural use for stimulating nitrogen metabolism of cultivated plants, said composition comprising: - about 0.0001% to about 1% by weight of a compound selected from group comprising glutamic acid, glutamine, one of their hydrates, one of their enantiomers, a salt thereof, and combinations thereof based on the total weight of the ready-to-use composition; about 0.045% to about 5% by weight of algae of the genus Laminaria relative to the total weight of the ready-to-use composition; at least one preservative agent, said algae of the genus Laminaria and said compound being present respectively in a mass ratio of between about 4.5: 1 and about 67.5: 1. In an advantageous embodiment of the ready-to-use composition, said weight ratio Laminaria algae / compound is between about 4.5: 1 to about 67.51, alternatively about 11.25: 1 to about 45: 1, alternatively about 18: 1 to about 38.25: 1, alternatively about 45: 1.5. It should be noted that the ratio 45: 1.5 can be approximated by the value 30: 1. In an advantageous embodiment, the ready-to-use composition according to the invention comprises a mass proportion of said compound of between approximately 0.0001% and approximately 1%; alternatively between about 0.001% and about 0.1%; Alternatively between 0.005% and about 0.05%; and alternatively about 0.015% based on the total weight of the ready-to-use composition. In an advantageous embodiment, the ready-to-use composition according to the invention comprises a mass proportion of said Laminaria algae of between about 0.05% and about 5%; alternatively between about 0.15% and about 0.50%; alternatively between about 0.25% and about 0.50%; alternatively between about 0.35% and about 0.50%; alternatively between about 0.35% and about 0.45%; and alternatively about 0.45% based on the total weight of the ready-to-use composition.
    [0010] The ready-to-use composition may comprise said preferred glutamine moiety-comprising compounds, said preferred algae, and additional compounds as defined above. The invention also relates to a process for obtaining a diluted composition comprising the following steps: providing a concentrated composition as defined above; - supply of an aqueous medium; and - diluting said concentrated composition in said aqueous medium in a dilution ratio of between about 0.05% and about 10%, alternatively between about 0.1% and about 4%, alternatively between about 0.4% and about 2%; and alternatively about 1% based on the total volume of the diluted composition. The method according to the invention thus makes it possible to prepare extemporaneously a diluted composition, ready to be applied in particular by spraying on the cultures from a small volume of concentrated composition according to the invention.
    [0011] When the concentrated composition is diluted for application to the plants to be treated, it should be noted that said Laminaria algae and said compound are present respectively in a mass ratio of between about 4.5: 1 and about 67.5: 1, preferably about 45: 1.5. Advantageously, in such a diluted, ready-to-use composition, the Laminaria algae extract and said compound are present in a mass ratio of from about 11.25: 1 to about 45: 1, more preferably between about 18: 1 and about 38.25: 1 and most preferably about 45: 1.5 weight ratio.
    [0012] Another object of the invention relates to a method of treating cultivated plants, to stimulate their nitrogen metabolism, comprising the following steps: providing a concentrated composition as defined above; diluting said concentrated composition in an aqueous medium at a dilution ratio of from about 0.05% to about 10%, alternatively from about 0.1% to about 4%; alternatively between about 0.4% and about 2%; and alternatively about 1% based on the total volume of the diluted composition; spraying said diluted composition on said plants by air.
    [0013] The dilution ranges make it possible to obtain an effective concentration in the spray solution. These concentrations of Laminaria algae and of a compound having a glutamine unit make it possible to effectively stimulate the nitrogen metabolism of the cultivated plants.
    [0014] Different ways of preparing the diluted composition from the concentrated composition are possible. The first mode consists in directly diluting a volume of about 0.1 L to about 10 L, preferably about 2 L, of concentrated composition in a tank comprising between 50 L and 1000 L of water. For example, it is usual to spray between: 20 - 100-1000 L / ha for vines and arboriculture (fruit trees for example); - 50-300 L / ha for field crops (wheat, rapeseed, corn for example) and certain specialty crops (strawberries, tomatoes for example). Thus, the farmer can prepare the composition ready to be applied in particular by spraying on his crops according to the method of cultivation adopted.
    [0015] In an interesting embodiment, the plants to be treated are the plants selected from straw cereals, maize, rice, rapeseed, potato, beetroot, sunflower, grapevine, fruit trees, leafy vegetables, fruits and roots, a meadow, turf; preferably the plants selected from wheat and rapeseed. Included in the "straw cereal" group are wheat, barley, oats, triticale and rye. The term "leafy vegetables" includes vegetables whose consumed portion corresponds to the leaf of the plant. Examples of leafy vegetables include endive, spinach, Swiss chard, cabbage or crucifer, salad such as lettuce, arugula, lamb's lettuce, escarole, lettuce iceberg, leaf oak, watercress, sorrel, ndole, etc. Root vegetables, in particular carrots, radishes, parsnips, Jerusalem artichokes, leeks, turnips, celery, onions, garlic and so on. Preferably, the spraying step is carried out at stages 29, 30 and 61 according to the BBCH scale when the plant to be treated is wheat. Alternatively, the spraying step is carried out at stage 55 according to the BBCH scale when the plant to be treated is rapeseed. The BBCH scale (Biologische Bundesanstalt für Land und Forstwirtschaft) is a phenological scale (Phenological stages of monocotyledons and cultivated dicotyledons, U. Meier, Blackwell Wissenschafts-Verlag Berlin, 2001). The scale makes it possible to identify very precisely each stage of development of the annual cycle of the plant. Scales of phenological notation have been developed for each large family of plants (perennial plants, roots, leafy vegetables, etc.) as well as for cultivated plants of interest such as beets, potatoes, wheat, rapeseed etc.
    [0016] Another aspect of the invention relates to the use (1) of algae of the genus Laminaria and (2) glutamic acid, glutamine, one of their hydrates, one of their enantiomers, a of their salts, and combinations thereof, or a composition comprising them, to stimulate the nitrogen metabolism of the cultivated plants. As indicated above, the inventors have discovered that the particular combination of Laminaria algae and a compound selected from glutamic acid, glutamine and their derivatives can effectively stimulate nitrogen metabolism. Indeed, the inventors have found that the combination of these two particular active ingredients is necessary to promote and optimize the assimilation of nitrogen contained in the soil and fertilizers by the roots. They also found that the amount of proteins present in the seeds of plants grown in the presence of the composition according to the invention was greater than in plants grown with a single fertilizer. Advantageously, the stimulation of the nitrogen metabolism of the cultivated plants comprises in particular an increase in the assimilation of nitrogen by said plant, an increase in the storage of nitrogen by said plant, and their combinations. By way of clarification, the increase in crop yield includes improved tillering, improved vegetative development, increased grain yield, increased fruit yield, and combinations thereof. The increases are calculated with reference to the same plant grown under the same conditions with or without the composition (concentrated or diluted) according to the invention. In an interesting embodiment, said plants are plants, preferably wheat and rapeseed. The inventors have found an excellent effectiveness of the composition according to the invention on these two plants. The invention also covers the use of a concentrated composition as defined above, which in the ready-to-use state, diluted in an aqueous medium, is intended to increase the harvest yield. Dilution of the concentrated composition may take place either extemporaneously, ie at the time of spraying or less than 24 hours, preferably less than 12 hours, more preferably less than 6 hours before spraying. Advantageously, said concentrated composition is diluted in said aqueous medium at a dilution ratio of from about 0.05% to about 10%, alternatively from about 0.1% to about 4%; alternatively between about 0.4% and about 2%; and alternatively about 1% based on the total volume of the diluted composition. The composition according to the invention has an optimal efficiency on the stimulation of the nitrogen metabolism of plants for its dilution ranges. The composition according to the invention is therefore powerful because only a small amount of concentrated product is sufficient to effectively treat agricultural crops. Advantageously, the stimulation of the nitrogen metabolism of the cultivated plants comprises an increase in the assimilation of nitrogen by said plant, an increase in the storage of nitrogen by said plant, and their combinations. In one embodiment, the increase in crop yield includes improved tillering, improved vegetative growth, increased grain yield, increased fruit yield, and combinations thereof. In an interesting embodiment, said plants are preferably wheat and rapeseed. 5. Other features and advantages of the invention will emerge more clearly on reading the following description of a preferred embodiment, given as a simple illustrative and non-limiting example, and of FIG. a histogram representing the results of the comparative tests with different formulations of the composition according to the invention. 6. DESCRIPTION OF AN EMBODIMENT OF THE INVENTION The general principle of the invention rests on the combination of two active principles selected for their stimulating action on nitrogen metabolism. Indeed, the combination of algae belonging to the genus Laminaria and a compound having a glutamine unit makes it possible in particular to improve the uptake of nitrogen by the roots and the use of this nitrogen by the plant. It should be noted that the composition according to the invention, whether in concentrated or diluted form, does not constitute an alternative source of nitrogen for fertilizers. Indeed, the amount of nitrogen provided by the composition according to the invention is negligible (less than 0.01%). The present invention therefore does not have the purpose or the effect of providing a source of natural and environmentally friendly nitrogen. The composition according to the invention is not a source of nitrogen. The principle of the invention is based on the fact that all the nitrogen administered to the plants is not consumed by them. The principle underlying the invention is to "force" the plant to assimilate the maximum possible nitrogen. In other words, the principle of the invention lies in the choice of two particular active ingredients, algae of the genus Laminaria and the compound having a glutamine unit, to stimulate the nitrogen metabolism of the plant. That is, by applying a combination of these two active ingredients, preferably in given proportions and / or ratios, the plants assimilate more nitrogen. This stimulation is observed by various significant signs such as an increase in the number of leaves, an increase in the amount of protein in the seeds or an increase in harvest yield. 6.1. Example of a concentrated composition according to the invention The composition according to the invention is prepared by mixing the liquid ingredients at first. Then, in a second step, the dry ingredients are added to the liquid mixture. The whole is mixed at high speed for 15-20 min and then at low speed for 2 hours. At the end of this period, the homogeneity of the mixture is visually controlled by the operator. The homogeneous mixture is then filtered by loop filtration for 2 hours before being sent into a stirred tank.
    [0017] Table 1- Example of a Concentrated Composition According to the Invention Ingredient Function NrCAS% of the ingredient allowing a preferred activity% of ingredient in the composition Algae Laminaria digitata Active ingredient / 10-99 93.8 in aqueous solution (45% P / P) Glutamate Active ingredient 142-47- 0.01-20 1.5 monosodium / monosodium 2 / 6106-04-glutamate / Glutamic acid 3 / 617-65-2 Castor oil ethoxylated Agent 61791-12-6 0 , 1-10 3 Wetting Siloxane Modified Polyester Agent / 0.1-10 1.5 Wetting Potassium Sorbate Preservative 24634-615 0.01-1 0.1 Sodium Methylparaben Preservative 5026-62-0 0.01-1 0, In this embodiment, the Laminaria digitata algae are in aqueous solution comprising 45% by weight of algae and 55% by weight of water, relative to the total weight of this aqueous solution of algae. The aqueous solution is prepared by aqueous extraction and milling of whole algae. The pH of this composition is between 3.5 and 5. The mass percentage of dry matter is between 5% and 15%. The percentage of organic matter is between 5% and 15%. Glutamic acid is between 5 g / kg and 50 g / kg of composition. It should be noted that glutamic acid may be marketed under the following CAS (Chemical Abstract Service) numbers: 617-65-2 or 6893-26-1 or 56-86-0. 6.2. Example of a ready-to-use composition according to the invention The composition according to the invention is prepared by mixing the ingredients in the mass proportions specified in Table 2 below.
    [0018] Table 2 - Example of a ready-to-use composition according to the invention Ingredient Function 1 r'CAS% of the ingredient allowing a preferred% activity of ingredient in the composition Algae Laminaria digitata Active ingredient / 0.1 -10 1 in aqueous solution (45% w / w) Glutamate Active ingredient 142-47- 0.0001-1 0.015 monosodium / monosodium 2 / 6106-04- glutamate / Glutamic acid 3 / 617-65-2 Ethoxylated castor oil Agent 61791-12-6 0.01-0.2 0.1 Wetting Siloxane Modified Polyester Agent / 0.001-1 0.015 Wetting Potassium Sorbate Preservative 24634-615 0.01-1 0.1 Methylparaben Soda Conservative 5026-62-0 0.01-1 0.1 Pyrogenic Silica Agent 112945-52- 1-10 6 Hydrophilic Texturizer 5 Water Solvent / Qsp 100% 92.65 In this embodiment, seaweed extract Laminaria digitata is an aqueous solution comprising 45% by weight of algae and 55% by weight of water. This solution is prepared by an aqueous extraction and grinding of whole algae. The pH of this composition is between 3 and 7. The mass percentage of dry matter is between 0.5% and 15%. The percentage of organic matter is between 0.1% and 15%. The glutamic acid is between 0.001 g / kg and 5 g / kg of composition. It should be noted that glutamic acid may be marketed under the following CAS (Chemical Abstract Service) numbers: 617-65-2 or 6893-26-1 or 56-86-0. 6.3. First comparative test of effectiveness of the composition according to the invention in a controlled medium. Tests have been conducted to determine the effectiveness of the concentrated composition according to the invention. The tests were conducted in France, on a substrate Faliénor 3033473 16 without premix, devoid of nitrogen (nitrogen concentration = 0). The cultivated plant is winter wheat (Premio variety). The plants were grown in pots at a density of 100 plants / m2. The products are applied at the tillering rate, at the ear stage = 1 cm and at the beginning of wheat bloom. Each product is applied in a volume of 250 ml for 5 plants and per condition. In each condition, the additives Deschofix C0125 and BYK 349 are added to the final doses of 0.3 g / L and 0.225 g / L, respectively. A nutrient solution without nitrogen (Liquid Plantin Liquiplant fertilizer) is added dropwise continuously with watering. The nitrogen is supplied by a solution of ammonitrate at 28% nitrogen. One unit of nitrogen corresponds to 1 kg of nitrogen per hectare (kg / ha).
    [0019] The conditions tested are summarized in the table below: Table 3- Conditions Tested Condition Concentration Application Concentration of Glutamate Extracted Algae Nitrogen Products Tested Monosodium Laminaria in Products Tested Products Tested (% (% by mass) ) mass control) Control 0 0 210 Units after transplanting N100 4 inputs = complete fertilization dose then at the same time nitrogen as the intake of the products tested Control 0 0 147 Units after transplanting N70 4 inputs = limiting dose of fertilization then at the same time nitrogen as long as the contribution of the tested products T1 2 g / L 1% 3 applications A: Al = beginning of tillering; A2 = the node; A3 = Fi (before heading). T5 5 g / L 1% T10 10 g / L 1% 3033473 17 After a period of 4 months after sowing, the total mass of plant and the dry yield of the grains are measured for each condition. The data are subjected to an analysis of variance. The conditions are compared with each other by a test of Newman and Keuls. The results with respect to each control condition N100 and N70 are summarized in the tables below: Table 4 - Results of the comparative tests in a controlled medium on the straw yield Condition Straw yield (in g / plant) / N100 / N70 N100 19 , 5 106.3 N70 94.1 18.4 T1 115.0 * 122.3 * The values given in the table for conditions N70 and N100 10 correspond to the measured raw values. For the conditions T1, T5 and T10, the values indicated correspond to the relative values with respect to each control condition N70 (noted / N70) or N100 (noted / N100). The asterisk indicates statistically significant results (p <0.05).
    [0020] Table 5 - Results of Comparative Controlled Trials on Dry Grain Performance Condition Dry Yield of Grain (in g / plant) / N100 / N70 N100 11.8 124.9 N70 80.1 * 9.5 T1 91, 9 114.8 * T5 95.9 119.8 T10 92.4 115.4 The values given in the table for conditions N70 and N100 correspond to the raw values measured. For the conditions T1, T5 and T10, the values indicated correspond to the relative values with respect to each control condition N70 or N100. The asterisk indicates statistically significant results (p <0.05). As can be seen from the results of Tables 4 and 5, the difference in nitrogen fertilization has no statistically significant effect on the weight of the straw harvested. On the other hand, a limitation of the amount of nitrogen reduces the quantity of grains harvested (+ 24.9% for the condition N100 / N70). Condition T1 shows a straw weight significantly greater than the control conditions N100 and N70 (+ 15% / N100 and + 22.3% / N70). The straw weight for condition T5 and T10 is equivalent to control condition N70. Concerning the grain yield, the application of the product makes it possible to restore values close to the control condition N100 when the wheat is cultivated in a limiting condition. In conclusion, it can be said that the composition according to the invention makes it possible, under the condition of limiting fertilization, to guarantee a higher yield of straw compared to the normal conditions of fertilization. The composition according to the invention also makes it possible to maintain the yield of dry grain without constituting a nitrogen source complementary to nitrogenous fertilizers. Therefore, the composition according to the invention, combining a Laminaria algae extract and a compound chosen from glutamine, glutamic acid or their derivatives, makes it possible to maintain (or even improve) the culture yield under limiting conditions. fertilization. The composition acts well as a stimulator of assimilation and nitrogen metabolism, which reduces by at least 30% the amount of nitrates released into the soil. 6.4. Second comparative test of effectiveness of the composition according to the invention A second test under controlled conditions makes it possible to determine the best Laminaria / compound algae ratio. The wheat growing conditions are identical to those of the first test. The formulations of the composition tested are summarized below: Condition 1 = Control 25 Condition 2 = Glutamic acid (noted Glu) alone at the dose of 3g / L Condition 3 = Glutamic acid (Glu) alone at a dose of 0.15g Condition 4 = Glutamic acid (Glu) alone at a dose of 0.0075g / L Condition 5 = Laminaria algae solution alone at a dose of 4% (v / v) Condition 6 = Laminaria algae solution only at 1% (v / v) dose 30 Condition 7 = Laminaria algae solution only at a dose of 0.2% (v / v) Condition 8 = Glutamic acid (Glu) 3g / L + Laminaria algae solution 4% (v / v) Condition 9 = Glutamic acid (Glu) 0.15g / L + algae solution Laminaria 1% (v / v) 3033473 19 - Condition 10 = Glutamic acid (Glu) 0.0075g / L + Laminaria seaweed solution 0.2% (v / v) Under each condition, the Deschofix C0125 and BYK 349 adjuvants are added to the final doses of 0.3 g / L and 0.225 g / L, respectively. A nutrient solution without nitrogen 5 (Plantin Liquiplant liquid fertilizer) is added dropwise continuously with watering. Laminaria seaweed solution is an aqueous solution of algae Laminaria digitata comprising about 45% by weight of algae and about 55% by weight of water. The tests were conducted in France, on a substrate Faliénor without premix, devoid of nitrogen (nitrogen concentration = 0). The cultivated plant is winter wheat (Premio variety). The plants were grown in pots at a density of 100 plants / m2. The products are applied at the tillering rate, at the ear stage = 1 cm and at the beginning of wheat bloom. Each product is applied in a volume of 250 ml for 5 plants and per condition. The nitrogen is supplied by a solution of ammonitrate at 28% nitrogen at the rate of 210 units per hectare (complete fertilization dose). The aerial parts (PF) of the plants are harvested and weighed. Figure 1 presents the results of this test with the weight of the aerial parts of the plants (in gram per pot) on the ordinate, and the conditions on the abscissa. As can be seen in Figure 1, it can be seen that both glutamic acid and algae are active for all doses tested. However, the combinations of glutamate and algae make it possible to obtain results greater than the doses of each active ingredient used separately. We also find that conditions 8 and 9 give equivalent results, which suggests that there is a plateau effect beyond which the plant is no longer able to assimilate more nitrogen. Condition 9 is therefore the optimum condition which ensures maximum effectiveness of the composition at a reasonable cost. The composition according to the invention therefore makes it possible to improve tillering of the treated plants. Moreover, this figure indicates the composition according to the invention functions for different algae / compound ratios. However, the 45: 1.5 or 30: 1 ratio maximizes the effects of the composition. 6.5. Demonstration of the Mode of Action of the Concentrated Composition According to the Invention Tests to demonstrate the mode of action of the composition according to the invention were carried out on the Arabidopsis thaliana model, which is a classical model of genetic research in plant biology. After dormancy and germination synchronization, the plants are grown in a climatic chamber, maintained at a temperature of 22 ° C during the day and 19 ° C at night, with a 16-hour hemeroperiod. Two conditions are tested: - control = water + Deschofix C0125 at 0.3 g / L + BYK 349 at 0.225 g / L; 5 - test = composition according to the invention comprising 1% Laminaria digitata algae solution and 0.15 g / L of compound + Deschofix C0125 at 0.3 g / L + BYK 349 at 0.225 g / L. The algae solution is an aqueous solution of Laminaria digitata algae comprising about 45% by weight of algae and about 55% by weight of water, as previously explained. Each composition is administered by foliar spraying once a day. The leaves are taken 48 hours after treatment and placed in a RNA later RNA Stabilization Reagent (Qiagen). The tissues are ground in a Tissue lyser solution (Qiagen). Extraction of the total RNAs is performed with the RNesasy protect mini kit with DNAse I (Qiagen) treatment, in accordance with the protocol instructions of the supplier. A retrotranscription step is performed in the presence of an oligodT coupled to the promoter of T7 polymerase, dCTP-Cy3 or Cy5. The retrotranscription products are then purified before quantification. The quantification step is done on a DNA microarray (CATMAy7 Slides, Agilent Technology). Hybridization (30 pmol / sample / slide) is performed at 42 ° C overnight in the presence of formamide.
    [0021] After statistical analysis of the raw results, a list of genes compared to the control (dye-swap technique) is produced.
    [0022] Table 6 - Selection of Statistically Significant Induced Genes AGI Gene Name Induction Factor Relative to Control AT3G45060 "ATNRT2.6 (Arabidopsis thaliana high affinity nitrate 4.12 * transporter 2.6); nitrate transporter" AT3G44300 "NIT2 (NITRILASE 2) "3.91 * AT5G11210" ATGLR2.5 (Arabidopsis thaliana glutamate receptor 1.04 2.5) "AT5G48410" ATGLR1.3 (Arabidopsis thaliana glutamate receptor 1.10 1.3) "AT1G74590" ATGSTU10 (Arabidopsis thaliana Glutathione S-2, 82 * transferase (class tau) 10); glutathione transferase "AT5G62480" ATGSTU9 (GLUTATHIONE S-TRANSFERASE TAU 9); 2.44 * glutathione transferase "AT5G64260" phosphate-responsive protein, putative "1.45 * AT5G09440" phosphate-responsive protein, putative "1.11 The asterisk reports statistically significant results (p <0.05). From the results, the genes AT3G45060, AT3G44300, AT5G11210, AT5G48410, AT1G74590, AT5G62480, AT5G64260, and AT5G09440 are the genes that are stimulated by the composition according to the invention. These genes code for proteins involved in assimilation, nitrogen transport and plant growth. Therefore, the composition according to the invention acts directly on plant cell genes to stimulate assimilation and plant growth. The combination of Laminaria algae and the glutamic acid / glutamate compound makes it possible to stimulate the nitrogen metabolism and thus promotes plant growth. 6.6. Field trials of the composition according to the invention on wheat under complete fertilization conditions Field trials to determine the effectiveness of the composition according to the invention on a large scale were conducted. The measurements were made on two parcels 3033473 22 each time, two consecutive years. The wheat used is winter wheat (Premio variety). A volume of 2L of concentrated composition as described in §6.1 is diluted in a tank of 200L of water for spraying. The concentration of glutamate is therefore 0.15 g / L and the concentration of Laminaria algae solution is 1%. The indicator used is water. Each condition includes, in addition to the product sprayed directly on the foliage, a soil supply of 210 units of nitrogen supplied by a solution of ammonitrate at 28% nitrogen. The algae solution is an aqueous solution of algae Laminaria digitata comprising about 45% by weight of algae and about 55% by weight of water.
    [0023] The plots tested were either sandy-clay loam soils or shallow clay-limestone soils. The results are summarized in Table 7 below: Table 7 - Average Efficiency of the Composition According to the Invention, as a Percentage of the Control Condition Number of Yield Weight Weight Tales / meter dry in q / ha protein thousand grain specific linear grains (in g) in kg / hl in% Indicator 48.2 80.9 10.1 48.8 76.2 (33.4 - 55.8) (69.4 - 86.4) (8.9 - 11.6) (44.8 - 56.4) (73.9 - 80.0) Composition 117 108 102 102 102 ( 111 - 131) (105 - 110) (101 - 105) (97 - 104) (101 - 102) The values indicated for the control are raw values. The values indicated for the composition are values relating to the control (control = base 100). The values indicated for the composition represent the composition / control ratio. The values in parentheses correspond to the extreme values.
    [0024] As can be seen in Table 7 above, the composition according to the invention makes it possible to increase tillering of wheat by 17% on average, the dry yield of approximately 8%, the protein content, the weight of 1000 grains and the specific gravity of 2% on average. 6.7. Field trials of the composition according to the invention on wheat and rapeseed under limiting fertilization conditions The experimental conditions of this test are identical to the test described in §6.6 except that the quantity of nitrogen administered to control N70 and the composition condition is reduced by 30% (174 units of nitrogen) and that the test was made on a plot of silt-sandy clay type. The plants used for this experiment are winter wheat (Premio variety) and rapeseed. Three conditions were tested: - Control N100 = water + Deschofix C0125 at 0.3 g / L + BYK 349 at 0.225 g / L; - Control N70 = water + Deschofix C0125 at 0.3 g / L + BYK 349 at 0.225 g / L; Composition = composition according to the invention comprising 1% Laminaria digitata algae extract and 0.15 g / L of compound + Deschofix C0125 at 0.3 g / L + BYK 349 at 0.225 g / L; - The control N100 is fertilized with 210 units of nitrogen, the control N70 and the condition "N70 + Composition" are fertilized with 174 units of nitrogen. Average grain yields, measured in quintals / hectare (q / ha), are shown in the table below.
    [0025] Table 8- Results of the wheat and rapeseed trials under limiting conditions Condition Average grain yield (q / ha) Wheat Rapeseed Control N100 92.12 (2.51) 38.36 (2.07) Control N70 75.88 ( 6.87) 33.98 (3.87) N70 + Composition 89.38 (3.66) 38.41 (1.02) Values in parentheses are standard deviations. The results correspond to the raw measurement values.
    [0026] As can be seen, plants grown under the condition of limiting fertilization (N70) have a reduced dry yield in grains compared to the control condition in complete fertilization, which validates the model. The administration of the composition in limiting fertilization makes it possible to restore the yields, as well for the wheat as for the rapeseed. 7. Conclusion The composition according to the invention, whether in diluted form to be ready for use or concentrated, thus makes it possible to stimulate the assimilation and metabolism of nitrogen in plants. The inventors have thus demonstrated that the combination of an extract of algae of the genus Laminaria with a compound chosen from glutamine, glutamic acid or their derivatives makes it possible to improve plant growth and thus the various agricultural yields. The composition according to the invention makes it possible under complete fertilization conditions to increase crop yields by up to 10%. The composition also makes it possible to maintain an identical grain yield and quality by reducing the amount of nitrogen administered to the plants by 30%. Consequently, the composition according to the invention makes it possible to reduce the pollution related to the use of nitrogen fertilizers as well as the farming costs by allowing the plant to better assimilate and better utilize the nitrogen which is lavished.
    权利要求:
    Claims (15)
    [0001]
    REVENDICATIONS1. A concentrated composition for agricultural use for stimulating nitrogen metabolism in crop plants, comprising: a compound selected from the group consisting of glutamic acid, glutamine, one of their hydrates, one of their enantiomers, one of their salts, and their combinations; seaweed of the genus Laminaria; Said algae of the genus Laminaria and said compound being present respectively in a mass ratio of between 4.5: 1 and 67.5: 1.
    [0002]
    The concentrated composition of claim 1, wherein the Laminaria genus and said compound are present in a weight ratio of from 11.25: 1 to 45: 1, respectively; alternatively between 18: 1 and 38.25: 1; alternatively in a mass ratio of 45: 1.5.
    [0003]
    3. Concentrated composition according to one of the preceding claims, comprising a mass proportion of said compound of between 0.01% and 20%; alternatively between 0.1% and 10%; alternatively between 0.5% and 5%; and alternatively 1.5% relative to the total weight of the concentrated composition.
    [0004]
    4. Concentrated composition according to one of the preceding claims, wherein said compound is selected from glutamic acid D, glutamic acid L, monosodium glutamate, glutamine, monosodium glutamate or mixtures thereof; alternatively monosodium glutamate, monosodium glutamate or mixtures thereof; alternatively glutamic acid.
    [0005]
    5. Concentrated composition according to one of the preceding claims comprising a mass proportion of seaweed of the genus Laminaria between 4.5% and 50%; alternatively between 15% and 50%; alternatively between 25% and 50%; alternatively 30 to 35%; alternatively between 40% and 45%; alternatively 42.2% relative to the total weight of the concentrated composition.
    [0006]
    6. Concentrated composition according to one of the preceding claims, in which the larva of the genus Larninaria is selected from the species Larninaria abyssali, Larninaria agardhii, Larninaria andersonii, Larninaria angustata, Larninaria belyisii, Larninaria biruncinata, Larninaria bon gardiana, Larninaria bracteata, Larninaria brasiliensis, Larninaria brongardiana, Larninaria bulla ta, Larninaria cichorioides, Larninaria complanata, Larninaria conica, Larninaria coriacea, Larninaria cornea, Larninaria crassifolia, Larninaria diabolica, Larninaria digitata, Larninaria discolor, Larninaria ephemera, Larninaria farlowii, Larninaria fissilis, Larninaria flagellum, Larninaria flexicaulis, Larninaria gunneri, Larninaria hyperborea, Larninaria japonica, Larninaria larnourouxii, Larninaria leptopoda, Larninaria longicruris, Larninaria longipedalis, Larninaria longipes, Larninaria longissima, Larninaria lyrata, Larninaria nigripes, Larninaria ochotensis, Larninaria ochroleuca, Larninaria ophiura, Larninaria pallida, Larninaria palmata, Larninaria papyrina, Larninaria platymeris, Larninaria polyphylla, Larninaria pseudodigitata, Larninaria punctata, Larninaria religosa, Larninaria remotifolia, Larninaria repens, Larninaria rodriguezi, Larninaria ruprechtiana, Larninaria ruprechtii, Larninaria saccharina, Larninaria sachalinensis, Larninaria sarniensis, Larninaria setchellii, Larninaria sinclairii, Larninaria solidungula, Larninaria taeniata, Larninaria turneri, Larninaria yiridissima, Larninaria yittata, Larninaria yendoana, Larninaria yezoensis or combinations thereof; alternatively the alga is selected from the species Larninaria digitata, Larninaria hyperborea, Larninaria japonica, Larninaria saccharina or combinations thereof; alternatively the alga belongs to the species Larninaria digitata.
    [0007]
    7. Concentrated composition according to one of the preceding claims further comprising at least one preservative agent.
    [0008]
    8. Concentrated composition according to one of the preceding claims, further comprising an adjuvant; alternatively an adjuvant selected from a gelling agent, a dispersing agent, a surfactant or combinations thereof. 3033473 27
    [0009]
    9. A ready-to-use composition for agricultural use for stimulating the nitrogen metabolism of cultivated plants, said composition comprising: 0.0001% to 1% by weight of a compound selected from the group consisting of glutamic acid, glutamine one of their hydrates, one of their enantiomers, one of their salts, and their combinations, based on the total weight of the ready-to-use composition; 0.045% to 5% by weight of the algae of the genus Laminaria, relative to the total weight of the ready-to-use composition; at least one preservative, said algae of the genus Laminaria and said compound being present respectively in a mass ratio of between 4.5: 1 and 67.5: 1.
    [0010]
    10. A method of treating cultivated plants, to stimulate their nitrogen metabolism, comprising the following steps: providing a concentrated composition according to one of claims 1 to 8; Diluting said concentrated composition in an aqueous medium at a dilution ratio of between 0.05% and 10%, alternatively between 0.1% and 4%; alternatively between 0.4% and 2%; and alternatively 1% relative to the total volume of the diluted composition; spraying said composition diluted on said plants by air. 20
    [0011]
    11. The method of claim 11, in that the plants to be treated are the plants selected from straw cereals, corn, rice, rapeseed, potato, beet, sunflower, grapevine, trees. fruit trees, leafy vegetables, fruits, root vegetables, a meadow, turf; alternatively the plants to be treated are the plants selected from wheat or rapeseed.
    [0012]
    12. The method of claim 12, in that the spraying step is carried out at stages 29, 30 and 61 according to the BBCH scale when the plant to be treated is wheat; or stage 55 on the BBCH scale when the plant to be treated is rapeseed. 30
    [0013]
    13. Use (1) of algae of the genus Laminaria and (2) glutamic acid, glutamine, one of their hydrates, one of their enantiomers, one of their salts, and their 3033473 28 combinations, or a composition comprising them, to stimulate the nitrogen metabolism of the cultivated plants.
    [0014]
    14. Use of a concentrated composition according to one of claims 1 to 8, which in the ready-to-use state, diluted in an aqueous medium, is intended to increase the harvest yield.
    [0015]
    15. Use according to claim 15 wherein said concentrated composition is diluted in said aqueous medium at a dilution ratio of between 0.05% and 10%, alternatively between 0.1% and 4%; alternatively between 0.4% and 2%; and alternatively 1% relative to the total volume of the diluted composition.
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    同族专利:
    公开号 | 公开日
    EP3066925A1|2016-09-14|
    EP3066925B1|2018-06-20|
    FR3033473B1|2017-04-28|
    引用文献:
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    GB2408045A|2003-11-12|2005-05-18|Algatech Ltd|A method for preparing a seaweed based soil enriching composition|
    CA2708742A1|2007-12-20|2009-07-02|Swetree Technologies Ab|Use of a fertilizer containing l-amino acid for improving root growth and growth of mycorrhiza|
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    CN104055058A|2014-03-18|2014-09-24|浙江省海洋开发研究院|Seaweed-fishbone composited seafood sauce and preparation method thereof|
    CN104072254A|2014-05-23|2014-10-01|陈忠家|High-fertility sustained-release composite fertilizer special for sugarcane planting|
    WO2018156843A1|2017-02-24|2018-08-30|Heliae Development, Llc|Laminaria based compositions for benefitting plants and methods of application|
    CN112739213A|2018-07-18|2021-04-30|瓦拉格罗股份公司|Compositions and their use in agriculture|
    FR3111767A1|2020-06-26|2021-12-31|Olmix|Use of an organo-mineral composition by foliar application to stimulate plant development in the presence of at least one abiotic stress or biotic stress|
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    FR1552014A|FR3033473B1|2015-03-11|2015-03-11|AGRICULTURAL COMPOSITION FOR STIMULATING PLANT NITROGEN METABOLISM COMPRISING LAMINARIA GENE ALGAE EXTRACT AND GLUTAMIC ACID, METHODS AND USES THEREOF|FR1552014A| FR3033473B1|2015-03-11|2015-03-11|AGRICULTURAL COMPOSITION FOR STIMULATING PLANT NITROGEN METABOLISM COMPRISING LAMINARIA GENE ALGAE EXTRACT AND GLUTAMIC ACID, METHODS AND USES THEREOF|
    EP16159095.5A| EP3066925B1|2015-03-11|2016-03-08|Agricultural composition for stimulating the nitrogen metabolism of plants, comprising a seaweed extract of the laminaria genus and glutamic acid, corresponding methods and uses|
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