BRPI0416145B1 - ADJUVANT FOR APPLICATION TO THE LEAF OR FRUIT OF A PLANT, SPRAY TO PROVIDE MICRONUTRIENTS TO A PLANT THROUGH THE FRUIT OR LEAF OF THE PLANT AND METHOD OF USE - Google Patents

Description

(54) Title: ADJUVANT FOR APPLICATION TO THE LEAF OR FRUIT OF A PLANT, SPRAY TO PROVIDE MICRONUTRIENTS TO A PLANT THROUGH THE FRUIT OR LEAF OF THE PLANT AND METHOD OF USING THE ADJUVANT SAYING (73) Owner: AGRILIANCE LLC,. Address: 5500 Cenex Drive, Inver Grove Heights, MN 55164, UNITED STATES OF AMERICA (US) (72) Inventor: JOE V. GEDNALSKE; GREGORY DAHL; RICHARD VANDENHEUVEL; DARIN EBELING

Validity Term: 10 (ten) years from 10/02/2018, subject to legal conditions

Issued on: 10/02/2018

Digitally signed by:

Liane Elizabeth Caldeira Lage

Director of Patents, Computer Programs and Topographies of Integrated Circuits

1/11 “ADJUVANT FOR APPLICATION TO THE LEAF OR FRUIT OF A PLANT, SPRAY TO PROVIDE MICRO-NUTRIENTS TO A PLANT THROUGH THE FRUIT OR LEAF OF THE PLANT AND METHOD OF USING THE ADJUVANT TEXT”

BACKGROUND OF THE INVENTION [001] The present invention, in general, relates to a fertilizer and adjuvant applied to the fruit or leaf. More particularly, the present invention relates to an adjuvant that is applied to the foliage and / or fruit that increases the absorption of nutrients by a plant in the fruit through the foliage and / or fruit.

[002] Typically, fertilizers or nutrients are spread over the surface and are plowed in the soil or allowed to disperse through a surface layer and in the soil. Once in the soil, nutrients are absorbed by plants, be they trees, eucalyptus, crop species, grass or other types of plants, through the root system.

[003] There are examples where the application of desired nutrients or fertilizers to the plant by the root system is not practical or impossible due to the location of the plants, the size of the plants or the condition of the soil. Whatever the reason, there are times when the plant requires nutrients and the only way to distribute the nutrients to the plant is by a foliar spray.

[004] However, some nutrients do not absorb easily into the plant by the foliage. In addition, some nutrients must be dispersed over the foliage in relatively low concentrations and absorbed over a large area to prevent damage to the foliage, such as "burning" by concentrated nitrogen compounds.

SUMMARY OF THE INVENTION [005] The present invention includes an adjuvant that is applied to the foliage and / or fruit of a plant. The adjuvant comprises an effective amount of ammonium sulfate, an effective amount of an alkyl polysaccharide and an

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2/11 effective amount of a mono, di or polysaccharide. The adjuvant is dispersed in a selected amount of water along with a selected amount of micronutrients or secondary nutrients such that when applied to the foliage or fruit, the adjuvant causes an increase in the absorption of nutrients in the fruit by the foliage or fruit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [006] The present invention includes a mixture of liquid adjuvant for use as a foliar spray and fruiting structure spray that includes water, ammonium sulfate, an alkyl polysaccharide and such a mono- or polysaccharide. like fructose. The adjuvant mixture is used to disperse the leaf spray more evenly over the foliage and / or fruit and to increase the absorption of a micronutrient or secondary micronutrients and nutrients by the plants. The present invention also includes a ready-to-use premix comprising an effective amount of fructose, an effective amount of ammonium sulfate, an effective amount of an alkyl polysaccharide and an effective amount of the micronutrient or micronutrients, and secondary nutrients or a mixture which is formulated in the on-site tank in a spray tank which is sprayed on the foliage and / or fruit to increase the absorption of micronutrient or micronutrients and secondary nutrients. The present invention surprisingly increases the absorption of micronutrients and secondary nutrients by plants at significantly higher levels.

[007] More precisely, the present invention relates to an adjuvant for application to the foliage or fruit of a plant, in which the adjuvant comprises an amount of ammonium sulfate in a range between 0.001 weight percent and 34 weight percent ; an amount of an alkyl polysaccharide in a range between 1.0 weight percent and 20 weight percent; and an amount of a mono, di or polysaccharide in a range between 1.0 weight percent and 20 weight percent, in which the adjuvant is dispersed in a quantity 870180049289, from 06/08/2018, pg. 14/27

3/11 selected water quality, such that the adjuvant comprises between 0.25 percent by weight and 5 percent by weight of the combined mixture of water and the adjuvant, and in which the adjuvant is dispersed together with a selected amount of micronutrients or secondary nutrients, such that the micronutrient or secondary nutrient comprises between 0.0005 percent by weight and 1.0 percent by weight of the total weight of the adjuvant, water and micronutrient or secondary nutrient, except in the case of sulfur the amount of sulfate of ammonium would be excluded.

[008] The micronutrients and secondary nutrients of interest in the present invention include iron, zinc, manganese, magnesium, copper, calcium, boron, cobalt, iron (sulfur), sulfate, chlorine and molybdenum. Micronutrient means a nutrient whose natural level found in plants is 0.1% or less. Secondary nutrient means calcium, magnesium and sulfur. Macronutrient means nitrogen, phosphorus and potassium. The micronutrient or secondary nutrient comprises between about 0.0005 weight percent and about 1.0 weight percent on a weight basis of the total weight of the spray, less in the case of sulfur the amount of ammonium sulfate would be excluded . The source of the micronutrients for use in the adjuvant mixture includes, but is not limited to, oxides, hydroxides, salts, carbonates, chlorides, nitrates, sulfates, sequestrants, chelators and complexes.

[009] A non-exhaustive list of oxides that may be useful in the present invention includes: FeO, Fe2O3, Fe3O4, ZnO, ZnO2, CaO, CaO2, MnO, Μηθ2, Μη2θ3, Μη2θ7, Μη3θ4, Μη3θ4, MgO, CuO, CU2O, B2O3, MoO, Μοθ2, Μοθ3, MO2O3, MO2O5, CoO and CO3O4.

[0010] A non-exhaustive list of sulfates that may be useful in the present invention includes iron sulfate (FeSOQ, zinc sulfate (ZnSOQ, calcium sulfate (CaSOQ, manganese sulfate (MnSOQ, copper sulfate (CuSOQ, MgSO4 molybdenum (molybdate salts), borates, poliborates and cobalt sulfate (CoSO4). Ammonium sulfate is preferred in a range of about 0 to about

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34% by weight.

[0011] The present invention also includes chelating and complex forms of micronutrients. Some non-exhaustive examples of chelators for use with micronutrients and secondary nutrients include EDTA (Ethylene diaminetetraacetic acid), HEDTA (N- (hydroxyethyl) -ethylenediaminetriacetic acid), DTPA (diethylenetriaminopentacetic acid), EDDHA (ethylene-diaminic acid-hydroxyphenyl acid), EDDHA , combinations of EDTA / Citric Acid and NTA (Nitrilotracetic Acid).

[0012] The micronutrient complexes can likewise be formed and used as a source of the micronutrient. A non-exhaustive list of complexes includes Mannitols and other complex sugars, Glucoheptonates, Lignosulfonates, Humatos and Amino acids.

[0013] A non-exhaustive list of mono- and polysaccharides which may be useful in the present invention includes glucose, fructose, galactose, mannose, lactose, fucose, xylose, amylose, raffinose, maltotriose, glycosides, trehalose and saccharide alcohols such as mannitol, sorbitol, xylitol and maltitol and compositions containing sugar such as molasses. Mono- and polysaccharides are preferred in a range of about 1.0 to about 20% by weight.

[0014] The alkyl polysaccharide of the present invention is a commercially available surfactant. Alkyl polysaccharides are preferred in a range of about 1 to about 20% by weight. Alkyl polysaccharides useful in the present invention include Agrimul PG2069® and APG 325®, available from Henkel Corporation of Ambler, Pennsylvania. Agrimul PG 2069® includes polyglycoside alkyl polymers with nine carbon alkyl chains at a concentration of 20% by weight, ten carbon atoms at a concentration of 40% by weight and eleven carbon atoms at a concentration of 40% by weight . The alkyl polyglycoside has an average degree of polymerization of 1.6, and is considered a nonionic surfactant. It is non-gelling, biodegradable and soluble in

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5/11 dispersions of high salt concentrations.

[0015] The other alkyl polysaccharide in use is sold under the trade name AT Plus 438®, available from Uniqema Surfactant of Wilmington, Delaware. This alkyl polysaccharide is based on glucose and fatty alcohols derived from plant sources.

[0016] The present invention is also directed to a method of using the adjuvant, which comprises: (i) mixing in water a selected amount of an adjuvant, such that the adjuvant comprises between 0.25 percent by weight and 5 percent weight percent of the combined mixture of water and the adjuvant, the adjuvant comprising: an amount of ammonium sulfate in a range between 0.001 weight percent and 34 weight percent; an effective amount of an alkyl polysaccharide in the range of 1.0 weight percent to 20 weight percent; and an amount of a mono, di or polysaccharide in a range between 1.0 weight percent and 20 weight percent; (ii) mixing a selected amount of a secondary micronutrient or nutrient in water, such that the micronutrient or secondary nutrient comprises between 0.0005 weight percent and 1.0 weight percent of the total weight of the water, adjuvant and micronutrient or secondary nutrient, except in the case of sulfur, the amount of ammonium sulfate would be excluded; and (iii) spraying the mixture of water, adjuvant and secondary micronutrient or nutrient over the foliage or fruit of a plant, and in which the adjuvant disperses the micronutrient or secondary nutrient over the foliage or fruit.

[0017] Using the present invention, it was found that an increase of at least about 20% in the absorption of micronutrients occurred over leaf spray without an adjuvant. Samples taken from plants have inherent levels of variability in micronutrients. It is believed that an increase of about 20% represents a statistically significant increase.

[0018] Table 1 mentioned below shows the treatment results

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6/11 of soybeans with Fe with the adjuvant mixture of the present invention (alkyl polysaccharide, fructose and ammonium sulfate). Without treatment, the soybeans had a natural Fe content of 89 ppm (parts per million). Leaf spray of Fe without an adjuvant showed an increase in Fe content of approximately 168 ppm. Employing adjuvants such as a nonionic surfactant as described in United States Patent No. 5,260,260, the Fe content in soybeans was increased to 191 ppm (12% increase over Fe without adjuvant). Using a methylated seed oil adjuvant as described in United States Patent No. 5,495,033, the Fe content in soybeans was 171 ppm (5% increase over Fe without adjuvant). No adjuvant increased Fe absorption significantly when used as a leaf spray. However, using the adjuvant mixture of the present invention as a foliar spray, the Fe content increased to 257 ppm which is a 53% increase over the foliar application of Fe without an adjuvant.

Table 1

Foliar Spray Treatment Fe content in soybeans (ppm) 4 No treatment 89 Fe without adjuvant 168 Fe with non-ionic surfactant2 191 Fe with methylated seed oil3 171 Fe with alkyl polysaccharide, fructose and sulfate ammonium 257

1. The amount of Fe applied in each case was constant and the amount of adjuvant used when the adjuvant was used was likewise kept constant.

2. United States Patent No. 5,260,260.

3. United States Patent No. 5,495,033

4. Values are the average of three combined replications. (Each replica Petition 870180049289, of 06/08/2018, page 18/27

7/11 tion is the average of 10 samples).

[0019] A study of the effectiveness of the individual components of the adjuvant mixture of the present invention as individual adjuvants was likewise conducted. The components studied the content of Fe examined in soybeans. The amount of Fe applied was constant along with the amount of component used as an adjuvant. Using no treatment as a control, the soybeans had a natural Fe content of 90 ppm. Using the adjuvant mixture of the present invention, the Fe content in the soybeans increased to 169 ppm.

[0020] Using only ammonium sulfate as an adjuvant, the soy content was 127 ppm, while using only the alkyl polysaccharide, the Fe content in soybeans was 126 ppm at the same time as using fructose as an adjuvant increased the Fe content to 107 ppm in soybeans.

Table 2

Foliar Spray Treatment Fe content in soybeans (ppm) No treatment 90 Fe with fructose alkyl polysaccharide and ammonium sulfate 169 Fe with ammonium sulfate 127 Fe with alkyl polysaccharide 126 Fe with fructose 107

[0021] As the results in Table 2 indicate, the three components, alkyl polysaccharide, ammonium sulfate and fructose, when combined for use as an adjuvant for foliar application increase micronutrient absorption much more than as individual components.

[0022] Another study was done to evaluate the increase in the application rate of the adjuvant mixture of the present invention while keeping constant the amount of Fe that is applied to the soybeans. The results of this study are shown 870180049289, of 06/08/2018, p. 19/27

8/11 shown in Table 3 mentioned below. Increasing the rate of application of the adjuvant mixture while keeping the amount of Fe that is applied constant shows an increase in the absorption of Fe by the soybeans with increasing rate of application of the adjuvant mixture.

Table 3

Description of Treatment with Foliar Spray (Fe Application: 2 Rooms / Acre Rate of Application Fe content in soybeans (PPm) Fe without adjuvant ___ 225 Fe with adjuvant mixture 0.6 238 Fe with adjuvant mixture 1.2 247 Fe with adjuvant mixture 2.5 256 Fe with adjuvant mixture 3.75 273

* Gallons / acre [0023] The adjuvant mixture of the present invention was used to increase the absorption of manganese (Mn) in soybeans. The results of this experiment are illustrated in Table 4 below. Without treatment, the soybeans had a natural Mn content of 77 parts per million. The application of Mn without adjuvant resulted in an Mn content of 146 parts per million in soybeans. Using the nonionic surfactant of United States Patent No. 5,260,260, the Mn content in soybeans was 143 parts per million. Using the adjuvant system of United States Patent No. 5,495,033, the absorption of manganese increased to 189 parts per million. Using the adjuvant mixture of the present invention, the Mn content in soybeans was 197 parts per million which was a 35% increase over the application of Mn without an adjuvant.

Table 4

Foliar Spray Treatment Mn content in Soybeans (Application of Mn: 2 Rooms / Acre pprrn

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No treatment 77 Mn without adjuvant 146 Mn with nonionic surfactant2 143 Mn with methylated seed oil3 189 Mn with alkyl polysaccharide, fructose and sulfate ammonium 197

1. The amount of Μη applied in each case was constant and the amount of adjuvant used when the adjuvant was used was likewise kept constant.

2. United States Patent No. 5,260,260.

3. United States Patent No. 5,495,033

4. Values are the average of three combined replications. (Each replication is the average of 10 samples).

[0024] Another study was carried out applying Fe without adjuvant and then applying Fe with the adjuvant mixture of the present invention, keeping the amount of Fe applied constant. The results of the study are listed in Table 5 below. As Table 5 indicates, significant increases in the absorption of Fe by soybeans were made when compared to foliar spraying of soybeans with Fe without adjuvant, with the amount of Fe that is applied being kept constant.

Table 5

Foliar Spray Treatment Fe content in soybeans (ppm) 1 Qt / Acre of Fe without adjuvant mixture 1 Qt / Acre of Fe with adjuvant mixture 175 215 23% increase 2 Qts / Acre of Fe without adjuvant mixture 220 2 Qts / Acre of Fe with adjuvant mixture 252 15% increase 4 Qts / Acre of Fe without adjuvant mix 255 4 Qts / Acre of Fe with adjuvant mixture 334 increase of 31%

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10/11 [0025] Table 6 mentioned below shows the results of studies of several crops submitted to foliar spray of micronutrients Zn, Mn, Fe and Cu without adjuvant, and the same micronutrients being applied with the adjuvant mixture of the present invention. The adjuvant mixture of the present invention helps in significantly increasing micronutrient absorption in corn, oats, soybeans, potatoes, alfalfa and rapeseed from Zn, Mn, Fe and Cu. Situations in which an increase of 20% or more in micronutrient absorption occurred when compared to the application without any adjuvant are indicated with an Those situations in which micronutrient absorption did not result in an increase of 20% or more are indicated by an

Table 6

Harvest Zn (PPm) Mn (PPm) Faith (PPm) Ass (PPm) Corn + + Oats + + + + Soybeans + + Potatoes + + + Alfalfa + + + Canola (Rapeseed Seed) + + + +

"+" Absorption of 20% or more, when compared to the application of nutrient without adjuvant.

Absorption less than 20%, when compared to the application of nutrient without adjuvant.

[0026] The bitter seed is a physiological disorder in the fruit of the apple. The bitter seed is seen as dark submerged stones and brown cork tissue on the surface of the apples. Research indicates that calcium deficiency is responsible for bitter lump. The bitter seed can be controlled in alPetição 870180049289, of 06/08/2018, p. 22/27

11/11 gum degree ensuring the same harvest load on the tree and applying the calcium spray directly to the developing fruit. To assess the effectiveness of the adjuvant mixture of the present invention, the adjuvant mixture was applied with calcium chloride directly to Honeycrisp apples in Minnesota.

[0027] Now, the level of calcium that may be required to prevent Bitter Lump in the tissue of the Honeycrisp apple fruit is not known. It is not as well known whether the application of calcium alone will resolve the bitter stone. However, as shown in Table 7 below, the use of the adjuvant mixture of the present invention dramatically increases the absorption of calcium by the apple fruit when directly applied to the fruit in a spray. For example, the natural calcium content without application of calcium chloride in Honeycrisp apples is 0.055%. With a spray applying calcium chloride without an adjuvant mixture, the absorption of calcium by the apple fruit was increased to 0.075%. However, using the adjuvant mixture of the present invention, the calcium content increased to 0.175%.

Table 7

Treatment Ca content in apple peel (% Ca) No treatment 0.055 CaCÍ2 without adjuvant mixture 0.075 CaCÍ2 without fructose, ammonium sulfate and alkyl polysaccharide 0.175

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Claims (10)

1. Adjuvant for application to the foliage or fruit of a plant, the adjuvant being CHARACTERIZED by the fact that it comprises: an amount of ammonium sulphate in the range of 0.001 weight percent and 34 weight percent; an amount of an alkyl polysaccharide in a range between 1.0 weight percent and 20 weight percent; and an amount of a mono, di or polysaccharide in a range between 1.0 weight percent and 20 weight percent, wherein the adjuvant is dispersed in a selected amount of water, such that the adjuvant comprises between 0.25 percent by weight and 5 percent by weight of the combined mixture of water and adjuvant, and in which the adjuvant disperses along with a selected amount of micronutrients or secondary nutrients, such that the micronutrient or secondary nutrient comprises between 0.0005 per percent by weight and 1.0 percent by weight of the total weight of the adjuvant, water and micronutrient or secondary nutrient, except in the case of sulfur the amount of ammonium sulfate would be excluded. 2. Adjuvant, according to claim 1, CHARACTERIZED by the fact that the mono, di or polysaccharide comprises fructose. 3. Spray to supply micronutrients to a plant through the fruit or foliage of the plant, the spray being CHARACTERIZED by the fact that it comprises: an effective amount of water; an effective amount of micronutrients or secondary nutrients; and an adjuvant comprising: an amount of ammonium sulphate in the range of 0.001 weight percent and 34 weight percent; an amount of an alkyl polysaccharide in a range between 1.0 per Petition 870180049289, of 06/08/2018, p. 24/27 2/3 percent by weight and 20 percent by weight; and an amount of a mono, di or polysaccharide in a range between 1.0 weight percent and 20 weight percent, and where the adjuvant is dispersed in a selected amount of water along with the effective amount of micronutrients or secondary nutrients, where the adjuvant is dispersed in water, such that the The adjuvant comprises between 0.25 percent by weight and 5 percent by weight of the combined mixture of water and the adjuvant, and in which the micronutrients or secondary nutrients comprise between 0.0005 percent by weight and 1.0 percent by weight from the total weight of the spray, except in the case of sulfur the amount of ammonium sulfate would be excluded. 4. Spray according to claim 3, CHARACTERIZED by the fact that micronutrients or secondary nutrients comprise iron, zinc, manganese, magnesium, copper, calcium, boron, cobalt, iron (sulfur), sulfate, chlorine and molybdenum. 5. Spray, according to claim 3, CHARACTERIZED by the fact that micronutrients or secondary nutrients comprise oxides, hydroxides, salts, carbonates, chlorides, nitrates, sulfates, sequestrants, chelators and complexes. 6. Spray, according to claim 3, CHARACTERIZED by the fact that the mono, di or polysaccharide comprises fructose. 7. Method of using the adjuvant as defined in claim 1, CHARACTERIZED by the fact that it comprises: mixing in water a selected amount of an adjuvant, such that the adjuvant comprises between 0.25 percent by weight and 5 percent by weight of the combined mixture of water and the adjuvant, the adjuvant comprising: an amount of ammonium sulphate in the range of 0.001 weight percent and 34 weight percent; Petition 870180049289, of 06/08/2018, p. 25/27 3/3 an effective amount of an alkyl polysaccharide in a range between 1.0 weight percent and 20 weight percent; and an amount of a mono, di or polysaccharide in a range between 1.0 weight percent and 20 weight percent; mixing in the water a selected amount of a secondary micronutrient or nutrient, such that the secondary micronutrient or nutrient comprises between 0.0005 weight percent and 1.0 weight percent of the total weight of the water, adjuvant and secondary micronutrient or nutrient, except in the case of sulfur the amount of ammonium sulphate would be excluded; and spraying the mixture of water, adjuvant and micronutrient or secondary nutrient onto the foliage or fruit of a plant, and in which the adjuvant disperses the micronutrient or secondary nutrient over the foliage or fruit. 8. Method according to claim 7, CHARACTERIZED by the fact that the micronutrients or secondary nutrients comprise iron, zinc, manganese, magnesium, copper, calcium, boron, cobalt, iron (sulfur), sulfate, chlorine and molybdenum. 9. Method, according to claim 7, CHARACTERIZED by the fact that the micronutrients or secondary nutrients comprise oxides, hydroxides, salts, carbonates, chlorides, nitrates, sulfates, scavengers, chelators and complexes. 10. Method according to claim 7, CHARACTERIZED by the fact that the mono, di or polysaccharide comprises fructose. Petition 870180049289, of 06/08/2018, p. 26/27