BE1030991B1 - PENAL BUFFER COMPOSITION - Google Patents

Abstract

The present invention relates to a rumen buffer composition comprising 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides, preferably magnesium oxide and calcium oxide. The invention also relates to a method for preventing acidification of the rumen stomach, a feed mixture and its use.

Description

1 BE2022/5868

PENAL BUFFER COMPOSITION

TECHNICAL DOMAIN

The invention relates to a rumen buffer composition. In a second aspect, the invention also relates to a method. In a third aspect, the invention also relates to a use for preventing acidification of the rumen stomach in ruminants,

STATE OF THE TECHNOLOGY

Ruminants have a unique digestive system. Microorganisms found in the rumen enable animals to produce protein amino acid from the fermentation of roughage and grains. By-products of the fermentation process are volatile fatty acids and ammonia. However, in increased amounts, either of these two products can reduce the efficiency of rumen digestion and even cause death of the animal. Conditions associated with acid balance include acidosis, rumenitis, laminitis, anorexia and liver abscess. Ammonia, which is naturally produced by the rumen microorganisms, is used to synthesize cellular protein. When high levels of ammonia occur, the acid-base balance of the blood changes and toxic symptoms such as incoordination, labored breathing and convulsions can affect the animal. The animal's natural mechanism to regulate rumen pH is the secretion of saliva containing sodium bicarbonate and potassium bicarbonate.

Current agricultural techniques emphasize feeding high levels of concentrated grain. However, the large amounts of easily fermentable grains lead to rapid production of volatile fatty acids and reduced saliva production. Acid buffering of animal feed by adding sodium bicarbonate, seaweed lime or sodium sesquicarbonate is therefore common.

Sodium bicarbonate and sodium sesquicarbonate are effective pH buffers in aqueous solutions, but they have several disadvantages in the rumen system. They are highly soluble in water and can be flushed from the rumen before the typical rumen turnover time of 14 to 16 hours. In addition, bicarbonate is what passes through the intestinal tract

2 BE2022/5868 is not flushed sufficiently to address the large volume of acid digestion leaving the abomasum. Some nutritionists also claim that the palatability of the food is reduced by the addition of sodium bicarbonate. The high sodium content of these two products can strain the cardiovascular system by increasing central venous pressure, resulting in hypertension,

Sodium bicarbonate has a high sodium content which results in soil salinization and groundwater contamination in intensive animal production systems. There is a need for a commercial low-sodium formulation that includes several components suitable to act in the ruminant rumen and intestine at different pHs to prevent and control acidosis.

It is necessary to improve the feed conversion efficiency of ruminants and reduce their methane production. In general, there is an increasing demand for compositions for use in animal nutrition that can modulate the microbial population in the digestive tract of animals, but which are easily available, well tolerable and environmentally friendly.

Such a composition is known, among others, from US7597916 (US 916). US '916 describes anti-acid compositions for ruminants containing a variety of acid-neutralizing salts with pKa's effective over various ruminant gastrointestinal pH ranges and an active probiotic culture that can stimulate the growth and concentration of beneficial acid-consuming rumen microorganisms.

Also known is an additive from WO2010141653 (WO 653). WO '653 relates to a ruminant mineral feed additive for dairy cattle and ruminants comprises a unique combination of zeolite and dolomite hydrate, mineral fine particles that are ground and hydrothermally reacted to produce a valuable nutritional supplement for the control of acidosis.

The present invention aims to find at least a solution for some of the above-mentioned problems or disadvantages. The aim of the invention is to provide a method that eliminates these disadvantages.

3 BE2022/5868

SUMMARY OF THE INVENTION

In a first aspect, the present invention concerns a rumen buffer composition according to claim 1. The rumen buffer composition offers a good alternative to sodium bicarbonate or seaweed lime and it scores at least as well during in vitro tests. A similar or higher average rumen pH is obtained when administering the rumen buffer composition than when administering the control with sodium bicarbonate or seaweed lime. The increase in pH due to the addition of the rumen buffer composition is also visible for a longer period of time than when adding sodium bicarbonate or seaweed lime. The rumen buffer composition is chemically stable during storage and does not cause temperature increases, discoloration or moisture increase during storage. The well-being and comfort of the ruminants is not negatively affected. There is no deviation in the dry matter intake, rumination time, manure score, condition score and water intake,

Preferred forms of the rumen buffer composition are shown in claims 2 to 9.

In a second aspect, the present invention concerns a method according to claim 10. This method has, among other things, the advantage that the rumen stomach does not acidify.

The increase in pH due to the addition of the rumen buffer composition is also visible for a longer period of time than when adding sodium bicarbonate or seaweed lime.

Preferred forms of the method are described in subclaims 11 to 13.

In a third aspect, the present invention concerns a feed mixture according to claim 14. This feed mixture is suitable for protecting the rumen stomach from unwanted pH changes.

In a fourth aspect, the present invention concerns a use according to claim 15,

This use results in beneficially improved protection of the rumen stomach and better feed intake. Appetite is also higher than when sodium bicarbonate is used as a rumen buffer composition.

4 BE2022/5868

DETAILED DESCRIPTION

Unless otherwise defined, all terms used in the description of the invention, including technical and scientific terms, have the meanings commonly understood by those skilled in the art of the invention. For a better appreciation of the description of the invention, the following terms are explicitly explained. “A”, “the” and “het” in this document refer to both the singular and the plural unless the context clearly suggests otherwise. For example, “a segment” means one or more than one segment.

Quoting numerical intervals through the endpoints includes all integers, fractions, and/or real numbers between the endpoints, including these endpoints.

The expression “wt%”, “wt%”, “m%” or “%wt” in this document refers to the relative weight of a component based on the total weight of the entire product being referred to.

The term metal oxide describes a compound that can be chemically generated from a metal and oxygen-containing compound such as oxygen. The following groups of the periodic table are considered metals: alkali and alkaline earth groups, main group III except boron, main group IV except carbon and silicon, all transition metals, all lanthanides and actinides, All other elements, including boron, carbon and silicon, are considered non-metals. The term oxides also includes any intermediate form of the compounds such as, but is not limited to, peroxides, superoxides and suboxides.

Calcium carbonate is CaCO:3 and can be present in different forms such as calcite (calcite), aragonite or vaterite.

A ruminant is a herbivore from the families comprising: Ragulidae, Moschidae,

Cervidae, Giraffidae, Antilocapridae and Bovidae (such as cattle, goat, sheep, chamois and various antelopes).

In a first aspect, the invention concerns a rumen buffer composition comprising 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides,

preferably 80-95% by weight calcium carbonate and 5-20% by weight of one or more metal oxides. According to an embodiment, the rumen buffer composition comprises 80-95% by weight calcium carbonate and 1-15% by weight of one metal oxide. According to an embodiment, the rumen buffer composition comprises 80-95% by weight of calcium carbonate 5 and 1-15% by weight of a first metal oxide and 1-15% by weight of a second metal oxide. According to an embodiment, the rumen buffer composition comprises 85-95% by weight calcium carbonate and 3-12% by weight of a first metal oxide and 3-12% by weight of a second metal oxide. According to an embodiment, the rumen buffer composition comprises 85-95% by weight calcium carbonate and 2-7% by weight of a first metal oxide and 2-7% by weight of a second metal oxide. According to an embodiment, the rumen buffer composition comprises 85-95% by weight calcium carbonate and 2-6% by weight of a first metal oxide and 4-8% by weight of a second metal oxide,

This rumen buffer composition containing 80-99% by weight of calcium carbonate and 1-20% by weight of one or more metal oxides offers a good alternative to sodium bicarbonate or seaweed lime and it scores at least as well during in vitro tests. A similar or higher average rumen pH is obtained when administering the rumen buffer composition than when administering the control with sodium bicarbonate or seaweed lime. The increase in pH due to the addition of the rumen buffer composition is also visible for a longer period of time than when adding sodium bicarbonate or seaweed lime. The rumen buffer composition is chemically stable during storage and does not cause temperature increases, discoloration or moisture increase during storage. The well-being and comfort of the ruminants is not negatively affected. There is no deviation in dry matter intake, rumination time, manure score, condition score and water intake.

Ruminants can utilize fiber-rich biomass that has little or no nutritional value for monogastric animals such as humans. To digest this biomass they have a rumen with many micro-organisms. Changes compared to the natural diet can adjust the microbial population in the rumen stomach. The rumen buffer composition as described herein is suitable for maintaining the desired microbial population. Imbalances in microbial populations and the growth of harmful bacteria in the digestive tract of animals can cause significant losses in animal growth and production. These imbalances manifest as intestinal disorders such as diarrhea. The ideal rumen pH is between 5.8 and 6.8. A pH lower than 5.8

6 BE2022/5868 increases the risk of subclinical acidosis and less than 5.5 is considered an acidosis condition. Animals can die if the rumen pH drops below 5.0.

Digestive enzymes in the small intestine are ineffective below pH 6.8. The rumen buffer composition as described herein is suitable for buffering and maintaining the pH in the rumen between 5.8 and 6.8.

The rumen buffer composition as described herein does not result in salinization of the soil or contamination of the groundwater. The rumen buffer composition as described herein is suitable for improving the feed conversion efficiency of ruminants and reducing their methane production. The number of methane-producing bacteria decreases after ingestion of the rumen buffer composition, while protozoa and the total number of bacteria are unaffected by the product. The concentration of lactic acid, propionic acid and valeric acid and total short-chain fatty acids decrease in the rumen fluid.

According to one embodiment, the rumen buffer composition is a dry powder.

According to an embodiment, the water content of the rumen buffer composition is less than 5% by weight, preferably less than 1% by weight and more preferably less than 0.5% by weight. According to one embodiment, the rumen buffer composition is a dry free-flowing powder. According to an embodiment, the rumen buffer composition comprises substantial particles, whereby at least 95% by weight of the rumen buffer composition are particles with a particle size of 0.00005 mm-5.5 mm, preferably 0.0001 mm-2.0 mm, more preferably with a particle size of 0.0003 mm-1.0 mm. According to an embodiment, the rumen buffer composition substantially comprises particles, whereby at least 99% by weight of the rumen buffer composition are particles with a particle size of 0.00005 mm-5.5 mm, preferably 0.0001 mm-2.0 mm, 0.005 mm-1 .5mm. As a dry powder, the rumen buffer composition is stable for storage, convenient to mix with animal feed and the amount required can be easily determined.

According to an embodiment, at least 90% by weight of the calcium carbonate in the rumen buffer composition is present as calcium carbonate particles, whereby at least 90% by weight of the calcium carbonate particles have a particle size of 0.0003 mm - 1.0 mm, preferably of 0.0003 mm - 0.4mm. The speed of dissolution of the calcium carbonate is largely determined by the particle size. The kinetics play a role in the effect of the rumen buffer composition in the rumen of the ruminant. According to one embodiment, the particle size is at least 95

7 BE2022/5868 wt.% of the calcium carbonate particles 0.005 mm-1.5 mm, preferably 0.05 mm-1.0 mm. If the particles were too large, the reaction speed would drop significantly.

If the particles are too small, they can blow away and a large part is lost and not absorbed by the ruminant. According to an embodiment, the particle size of at least 50% by weight of the calcium carbonate particles is 0.0001 mm-0.8 mm, preferably 0.0003 mm-0.5 mm.

According to an embodiment, the particle size of a maximum of 10% by weight of the calcium carbonate particles is larger than 1.5 mm, preferably larger than 1.0 mm.

Particle size distribution can be measured with different sieves. The metal concentration in a liquid can be determined with ICP-OES or ICP-MS.

The calcium carbonate will act as a slower buffer. Since the pKa of calcium carbonate is 6.35, calcium carbonate is suitable for buffering the rumen stomach. According to one embodiment, the metal oxide has a pKa between 6.8 and 25, preferably between 8.0 and 18. The metal oxide is suitable for raising the pH and quickly counteracting acidification,

According to an embodiment, the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides. According to an embodiment, the rumen buffer composition comprises 85-97% by weight calcium carbonate and 3-15% by weight of one or more metal oxides. According to an embodiment, the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides. According to an embodiment, the rumen buffer composition comprises 82-97 wt% calcium carbonate and 3-8 wt% of one or more metal oxides. According to an embodiment, the rumen buffer composition comprises 85-95 wt% calcium carbonate and 5-15 wt% of one or more metal oxides.

According to a preferred embodiment, the one or more metal oxides include: magnesium oxide, calcium oxide, sodium oxide, copper oxide, zinc oxide, manganese oxide, molybdenum oxide, antimony oxide, aluminum oxide, iron oxide, silicon oxide, nickel oxide or a combination thereof. Magnesium oxide is preferably present as MgO; calcium oxide as CaO; sodium oxide as Na2O; copper oxide as

CuO; zinc oxide as ZnO; manganese oxide as Mn304; molybdenum oxide as MoO3; antimony oxide as Sb203; aluminum oxide as Al203; iron oxide as Fez0;3; silicon oxide as SiO; and nickel oxide as NiO.

8 BE2022/5868

According to a preferred embodiment, the one or more metal oxides include: magnesium oxide, calcium oxide, sodium oxide, copper oxide, zinc oxide, manganese oxide, molybdenum oxide, antimony oxide, nickel oxide or a combination thereof.

Because the one or more metal oxides include: magnesium oxide, calcium oxide, sodium oxide, copper oxide, zinc oxide, manganese oxide, molybdenum oxide, antimony oxide, nickel oxide or a combination of these, the rumen buffer composition can induce a rapid increase in pH. The oxide, in contact with water, will form hydroxide ions that increase the pH of the rumen stomach. According to an embodiment, the one or more metal oxides are: magnesium oxide, calcium oxide, copper oxide, zinc oxide, manganese oxide, or a combination thereof. These metal oxides form hydroxides and metal cations.

These cations also have a nutritional function. According to an embodiment, the one or more metal oxides are: a combination of magnesium oxide and calcium oxide; a combination of copper oxide and zinc oxide; a combination of manganese oxide and calcium oxide; or a combination of manganese oxide and magnesium oxide. According to an embodiment, the one or more metal oxides comprise only metal oxides with an oxidation state of +II.

According to an embodiment, the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight a metal oxide, preferably the metal oxides being: magnesium oxide, calcium oxide, sodium oxide, copper oxide, zinc oxide, manganese oxide, molybdenum oxide, antimony oxide, nickel oxide or a combination thereof. include.

According to a preferred embodiment, the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight magnesium oxide. According to an embodiment, the rumen buffer composition comprises 85-98% by weight calcium carbonate and 2-15% by weight magnesium oxide, preferably 85-98% by weight calcium carbonate and 2-10% by weight magnesium oxide, more preferably 85-92% by weight calcium carbonate and 2-8% by weight magnesium oxide.

Because the rumen buffer composition contains 80-99% by weight calcium carbonate and 1-20% by weight magnesium oxide, the rumen buffer composition ensures a rapid pH increase in the rumen stomach and a long-lasting buffering effect. The combination of the calcium carbonate and magnesium oxide creates a synergistic mixture.

9 BE2022/5868

According to an embodiment, at least 90% by weight of the magnesium oxide in the rumen buffer composition is present as magnesium oxide particles, whereby at least 90% by weight of the magnesium oxide particles have a particle size of 0.0005 mm-1.5 mm. According to an embodiment, the particle size of at least 90% by weight of the magnesium oxide particles is 0.005 mm-0.8 mm, preferably 0.00005-0.8 mm. According to an embodiment, the particle size of a maximum of 2% by weight of the magnesium oxide particles is larger than 1.5 mm, preferably larger than 1.0 mm. According to an embodiment, the particle size of a maximum of 1% by weight of the magnesium oxide particles is larger than 1.0 mm, preferably larger than 0.8 mm.

According to one embodiment, the rumen buffer composition comprises 80-98% by weight calcium carbonate, 1-15% by weight magnesium oxide, and 1-10% by weight calcium oxide.

According to one embodiment, the rumen buffer composition comprises 85-95% by weight calcium carbonate, 3-12% by weight magnesium oxide, and 1-8% by weight calcium oxide.

According to one embodiment, the rumen buffer composition comprises 82-92% by weight calcium carbonate, 3-8% by weight magnesium oxide, and 1-8% by weight calcium oxide.

According to one embodiment, the rumen buffer composition comprises 82-95% by weight calcium carbonate, 4-8% by weight magnesium oxide, and 1-6% by weight calcium oxide.

According to one embodiment, the rumen buffer composition comprises 85-95% by weight calcium carbonate, 4-7% by weight magnesium oxide, and 1-4% by weight calcium oxide.

According to an embodiment, the rumen buffer composition comprises 87-92% by weight calcium carbonate, 4-7% by weight magnesium oxide, and 4-6% by weight calcium oxide,

Because the rumen buffer composition contains 80-98% by weight calcium carbonate, 1-15% by weight magnesium oxide, and 1-10% by weight calcium oxide, a rumen buffer composition is obtained that combines a fast action with long-term pH buffering. Both calcium and magnesium are nutritionally desirable for ruminants. This rumen buffer composition does not reduce the appetite of the ruminant. The combination of these three products provided unexpectedly good kinetics for maintaining a desired pH in the rumen of ruminants. According to one embodiment, the rumen buffer composition comprises calcium carbonate particles, magnesium oxide particles, and calcium oxide particles. The different solubilities, reaction rates and particle sizes ensure optimal maintenance of the desired pH in the rumen of ruminants. According to one embodiment, a calcium carbonate particle comprises at least 90% by weight calcium carbonate, preferably

10 BE2022/5868 minimum 95% by weight. According to an embodiment, a magnesium oxide particle comprises at least 90% by weight magnesium oxide, preferably at least 95% by weight. According to an embodiment, a calcium oxide particle comprises at least 90% by weight calcium oxide, preferably at least 95% by weight. The sodium concentration of the rumen buffer composition is less than 3% by weight, preferably less than 0.2% by weight.

According to an embodiment, a calcium carbonate particle comprises at least 90% by weight of the calcium carbonate in the rumen buffer composition, preferably at least 95% by weight. According to an embodiment, a magnesium oxide particle comprises at least 90% by weight of the magnesium oxide in the rumen buffer composition, preferably at least 95% by weight. According to a

In an embodiment, a calcium oxide particle comprises at least 90% by weight of the calcium oxide in the rumen buffer composition, preferably at least 95% by weight.

According to an embodiment, at least 90% by weight of the calcium oxide is present as calcium oxide particles, whereby at least 90% by weight of the calcium oxide particles have a particle size of 0.0005 mm-1.5 mm. According to an embodiment, the particle size of at least 90% by weight of the calcium oxide particles is smaller than 0.2 mm, preferably smaller than 0.1 mm. According to an embodiment, the particle size of a maximum of 2% by weight of the calcium oxide particles is larger than 0.1 mm, preferably larger than 0.09 mm. Because the particle size of the calcium oxide particles is smaller than the particle size of the calcium carbonate particles, the calcium oxide particles are suitable for reacting quickly and raising the pH.

According to an embodiment, the rumen buffer composition comprises 5 to 50 times more calcium carbonate than calcium oxide and the rumen buffer composition comprises 0.5-3.5 times more magnesium oxide than calcium oxide. According to an embodiment, the rumen buffer composition comprises 5 to 40 times more calcium carbonate than calcium oxide and the rumen buffer composition comprises 0.7-2.5 times more magnesium oxide than calcium oxide. According to an embodiment, the rumen buffer composition comprises 10 to 30 times more calcium carbonate than calcium oxide and the rumen buffer composition comprises 1.0-2.0 times more magnesium oxide than calcium oxide.

Because the rumen buffer composition contains 5 to 40 times more calcium carbonate than calcium oxide and the rumen buffer composition contains 0.7-2.5 times more

11 BE2022/5868 magnesium oxide than calcium oxide, a rumen buffer composition is obtained with the desired properties. The increase in pH by adding the rumen buffer composition is visible for a long time. The rumen buffer composition is chemically stable during storage. The well-being and comfort of the ruminants is not negatively affected. According to one embodiment, the rumen buffer composition contains 5 to 20 times more calcium carbonate than magnesium oxide; 5 to 20 times more calcium carbonate than calcium oxide; and 0.8-1.2 more magnesium oxide than calcium oxide. According to one embodiment, the rumen buffer composition contains 10 to 20 times more calcium carbonate than magnesium oxide; and 5 to 10 times more calcium carbonate than calcium oxide.

According to a preferred embodiment, the rumen buffer composition contains 10 to 20 times more calcium carbonate than calcium oxide, preferably 15 to 20 times; and the rumen buffer composition comprises 0.7-1.5 times more magnesium oxide than calcium oxide, preferably 0.8-1.2 times more.

According to one embodiment, the rumen buffer composition contains 8 to 38 times more calcium carbonate than magnesium oxide; 10 to 45 times more calcium carbonate than calcium oxide; and 0.8-2.5 more magnesium oxide than calcium oxide.

According to one embodiment, the rumen buffer composition contains 15 to 20 times more calcium carbonate than magnesium oxide; and 15 to 40 times more calcium carbonate than calcium oxide. According to a preferred embodiment, the rumen buffer composition contains 10 to 18 times more calcium carbonate than calcium oxide, preferably 15 to 18 times; and the rumen buffer composition comprises 0.1-5 times more magnesium oxide than calcium oxide, preferably 1-2.5 times more.

According to a preferred method, the calcium carbonate has a porosity of 45-60%, preferably of 50-55%.

Because the calcium carbonate has a porosity of 45-60%, preferably 50-55%, there is sufficient contact surface between the calcium carbonate and digestive fluids of the ruminant. The porosity influences the kinetics of the calcium carbonate. Thanks to the sufficiently high porosity, the calcium carbonate particles react sufficiently with the digestive fluids of the ruminant. If the porosity is too high, the bulk density is much lower and this makes transport and mixing with the feed more difficult.

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According to a preferred embodiment, the calcium carbonate has a specific surface area of 2-10 m2/g, preferably of 3-6 m2/g, more preferably of 3.5-5 m2/g.

Because the calcium carbonate has a specific surface area of 2-10 m2/g, preferably 3-6 m2/g, more preferably 3.5-5 m2/g, the digestive juices of the ruminant react sufficiently quickly with the calcium carbonate.

Calcium carbonate with a low specific surface area reacts very slowly with the digestive juices of ruminants.

According to a preferred embodiment, the rumen buffer composition has an instant buffer capacity of 5000-10000 meg/kg, preferably of 6500-85000 meg/kg.

Because the rumen buffer composition has an instant buffer capacity of 5000-10000 meg/kg, the rumen buffer composition can quickly increase the pH of the ruminant rumen if desired. The particle size and composition of the rumen buffer composition ensure this desired instant buffer capacity.

The instant buffer capacity of a product was determined by allowing the product to dissolve in water for 30 minutes and then titrating with HCl to pH 5.5. The instant buffer capacity is expressed in the number of meg HCl needed to reach the pH of 5.5 per kg of product. The higher the amount of meg/kg, the more HCl was needed to reach a pH of 5.5 and therefore the higher the instant buffer capacity of the product.

According to a preferred embodiment, the rumen buffer composition has a total buffer capacity of 20000-25000 meg/kg, preferably of 22000-25000 meg/kg, more preferably of 22000-23500 meg/kg.

At the total buffer capacity, the pH is kept constant at 5.5 for 6 hours. This is in contrast to the instant buffer capacity where titration is stopped as soon as pH 5.5 is reached. The buffering capacity is an important factor to evaluate the use of a nutritional supplement. The buffer capacity is preferably sufficiently high to achieve effective operation.

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According to another embodiment, the rumen buffer composition comprises less than wt% water, preferably less than 1 wt% water. The amount of water is determined by drying at 105°C to constant weight. If the amount of water is below this maximum amount, the rumen buffer composition will not clump and flow freely. Moreover, the chance of microbial growth is reduced.

According to another embodiment, the rumen buffer composition does not comprise calcium carbonate extracted from algae. According to another embodiment, the rumen buffer composition does not include calcium carbonate extracted from the sea.

According to another embodiment, the rumen buffer composition comprises calcium carbonate particles where the most common pore size is between 1.0 and 100 µm, preferably between 2.0 and 40 and more preferably between 5.0 and 10. For comparison, for seaweed lime the most common is pore size 170-190 um. Furthermore, the particle size distribution of seaweed lime shows a second, smaller, peak between 0.3 and 0.6 um.

According to another embodiment, the rumen buffer composition comprises less than 15 mg/kg arsenic (As), preferably less than 7 mg/kg. According to another embodiment, the rumen buffer composition comprises less than 2 mg/kg cadmium (Cd), preferably less than 1 mg/kg. According to another embodiment, the rumen buffer composition comprises less than 350 mg/kg fluorine (F), preferably less than 100 mg/kg. According to another embodiment, the rumen buffer composition comprises less than 0.3 mg/kg of mercury (Hg), preferably less than 0.1 mg/kg. According to another embodiment, the rumen buffer composition comprises less than 20 mg/kg lead (Pb), preferably less than 5 mg/kg. According to another embodiment, the rumen buffer composition contains less than 0.75 ng/kg dioxins, preferably less than 0.3 ng/kg. In too high concentrations, these components can lead to health problems for the ruminant.

According to another embodiment, the rumen buffer composition comprises 0.5-10% by weight of a phosphate or biphosphate. According to another embodiment, the rumen buffer composition comprises 0.5-10% by weight calcium phosphate or magnesium phosphate, preferably 1-5% by weight. According to another embodiment, the rumen buffer composition comprises 0.5-10% by weight dicalcium phosphate or dimagnesium phosphate, preferably 1-5% by weight.

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In a second aspect, the invention concerns a method for preventing acidification of the rumen stomach, comprising: obtaining a rumen buffer composition and an amount of food; mixing the rumen buffer composition with at least part of the food; obtaining a feed mixture; administering the feed mixture to a ruminant, wherein the rumen buffer composition comprises 75-99% by weight calcium carbonate and 1-25% by weight of one or more metal oxides.

This method with a rumen buffer composition containing 75-99% by weight calcium carbonate and 1-25% by weight of one or more metal oxides offers a good alternative to sodium bicarbonate or seaweed lime and it scores at least as well during in vitro tests. A similar or higher average rumen pH is obtained when administering the rumen buffer composition than when administering the control with sodium bicarbonate or seaweed lime. The increase in pH due to the addition of the rumen buffer composition is also visible for a longer period of time than when adding sodium bicarbonate or seaweed lime. The rumen buffer composition is chemically stable during storage and does not cause temperature increases, discoloration or moisture increase during storage. The well-being and comfort of the ruminants is not negatively affected. There is no deviation in dry matter intake, rumination time, manure score, condition score and water intake.

The amount of sodium bicarbonate normally used to maintain the pH of ruminants within a desired range can be halved by using a rumen buffer composition as described herein. The process requires a significantly lower amount of salts compared to the amounts currently used,

If a cow continuously eats the same amount of the same ration for 24 hours, this would result in an ideal pH curve in the rumen with a low pH amplitude (<0.6). In practical conditions in highly productive dairy cattle, a pH amplitude of <0.8 should be aimed for. This indicates that the dairy cows are fed an ideal ration. Excessive amplitudes (>0.8) or in extreme cases >1.0 indicate nutritional or management problems. These animals often eat irregularly, do not always have access to feed or have a ration that is too concentrated, causing the pH value to fluctuate sharply up and down. By feeding the animals with a rumen buffer composition as described here, the pH amplitude decreases.

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According to a preferred embodiment, the feed mixture comprises an amount of rumen buffer composition, wherein the amount of rumen buffer composition is between 0.2 and 2.5% by weight of the amount of dry matter of the food, preferably between 0.4 and 1.5% by weight. of the amount of dry matter of the food, more preferably between 0.4 and 0.8% by weight of the amount of dry matter of the food.

Because the feed mixture comprises an amount of rumen buffer composition, wherein the amount of rumen buffer composition lies between these limits, the pH of the rumen of the ruminant can be maintained at an optimal pH. The amount of dry matter provides a better indication for adjusting the amount of rumen buffer composition compared to the weight of the ruminant or the type of ruminant,

According to a preferred embodiment, the amount of rumen buffer composition is between 0.6 and 1.5% by weight of the amount of dry matter of the feed mixture if the food contains at least 20% by weight starch.

According to a preferred embodiment, the amount of rumen buffer composition is between 0.6 and 0.8% by weight of the amount of dry matter of the feed mixture if the food contains at least 20% by weight starch.

Because the amount of rumen buffer composition lies between these limits if the food contains at least 20% by weight starch, the ruminant ingests sufficient rumen buffer composition to regulate the pH of the rumen and keep it within acceptable limits. The amount of energy that the ruminant can extract from the food has an effect on the functioning of the stomachs. The microbial populations in the rumen preferably remain cultures that are suitable for breaking down grass fibers. If too much feed with high starch concentrations is consumed, other populations may begin to dominate.

According to a preferred embodiment, the amount of rumen buffer composition is between 0.2 and 0.6% by weight of the amount of dry matter of the feed mixture if the food contains a maximum of 20% by weight starch.

According to a preferred embodiment, the amount of rumen buffer composition is between 0.4 and 0.6% by weight of the amount of dry matter of the feed mixture if the food contains a maximum of 20% by weight starch.

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Because the amount of rumen buffer composition is between 0.4 and 0.6% by weight of the amount of dry matter of the feed mixture if the food contains a maximum of 20% by weight starch, the ruminant ingests sufficient rumen buffer composition to regulate the pH of the rumen. and within acceptable limits,

According to one embodiment, the ruminant is fed daily with the rumen buffer composition. According to one embodiment, the rumen buffer composition is mixed with the entire amount of solid food given to the ruminant. According to another embodiment, the rumen buffer composition is mixed with 10-70% by weight of the solid food given daily to the ruminant, preferably with 10-30% by weight.

According to one embodiment, the rumen buffer composition is a rumen buffer composition as described herein.

Because the rumen buffer composition is a rumen buffer composition as described herein, it is extremely suitable for maintaining the pH of the rumen of the ruminant at an optimal pH. Each feature described in this document, above as well as below, may therefore relate to any of the three aspects of the present invention.

In a third aspect, the invention concerns a feed mixture comprising an organic and an inorganic fraction. The inorganic fraction is meant here: the fraction obtained after heating to 550°C for 1-4 hours under an oxygen-rich atmosphere. The organic fraction is oxidized to CO: during this process. Water and volatile organic molecules will evaporate at lower temperatures.

According to one embodiment, the inorganic fraction comprises 3 to 50 times more calcium carbonate than calcium oxide; 0.4-3.5 times more magnesium oxide than calcium oxide; and the inorganic fraction comprises at least 10% by weight calcium carbonate. According to one embodiment, the inorganic fraction, after drying at 105°C to constant weight, contains 5 to 40 times more calcium carbonate than calcium oxide; 0.7-2.5 times more magnesium oxide than calcium oxide; and the inorganic fraction comprises at least 20% by weight calcium carbonate. Because it

17 BE2022/5868 feed mixture contains an inorganic fraction that meets these conditions, this feed mixture is extremely suitable for maintaining optimal pH of the rumen of the ruminant.

According to an embodiment, the inorganic fraction comprises, after drying at 105°C, 80-98% by weight calcium carbonate, 1-15% by weight magnesium oxide, and 1-10% by weight calcium oxide. The amount of inorganic components naturally present in the food are not present in such high concentrations.

According to an embodiment, the inorganic fraction of the feed mixture corresponds for at least 10% by weight to the rumen buffer composition as described herein, preferably for at least 20% by weight and more preferably for at least 30% by weight. According to an embodiment, the inorganic fraction of the feed mixture corresponds for at least 50% by weight to the rumen buffer composition as described herein, preferably for at least 90% by weight and more preferably for at least 99% by weight. According to one embodiment, the inorganic fraction is substantially equal to the rumen buffer composition as described herein.

In a fourth aspect, the invention concerns a use of the rumen buffer composition as described herein, feed mixture as described herein or the method as described herein for preventing acidification of the rumen stomach.

The use of the rumen buffer composition ensures higher milk production, for example in Holstein cows. The use of sodium bicarbonate would reduce the animals' appetite, causing the animals to eat less. Consequently, their yield decreases in the form of, for example, their milk production and/or their weight gain.

According to an embodiment, the rumen buffer composition is used in a solvent, dissolved in solution form, preferably dissolved in water. According to one embodiment, the rumen buffer composition is used in a solid product, preferably with a filler such as starch or cellulose. According to one embodiment, the rumen buffer composition is used mixed with ruminant food, preferably with roughage or concentrates. According to one embodiment, the

18 BE2022/5868 rumen buffer composition used in a pressed mixture with food, such as in the form of chunks or cookies.

Heating for 1 hour at 550°C of products produced based on the rumen buffer composition as described above for use as a rumen buffer results in an ash residue comprising the rumen buffer composition as described above, preferably comprising 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides.

EXAMPLES

The invention will now be further explained by means of the following example, without being limited thereto.

EXAMPLE 1

Example 1 concerns a comparative study of the instant buffer capacity of different products and mixtures,

The instant buffer capacity at pH 5.5 examines the buffering capacity of the raw material by allowing the product to dissolve in water for 30 minutes and then titrating it with HCl to pH 5.5. The higher the meg/kg, the more HCl was needed to achieve a pH of 5.5 and therefore the higher the buffer capacity of the product.

Sodium bicarbonate dissolves very quickly and reacts with acid, Seaweed lime and a mixture according to the present invention react more slowly and have a lower instant buffer capacity than sodium bicarbonate.

Sodium carbonate 11750-12150 meg/kg

Magnesium oxide: 2800-3000 meg/kg

Limestone: 150-250 meg/kg

Seaweed lime: 5300-5500 meg/kg

Mixture according to the present invention: 7700-7800 meg/kg

EXAMPLE 2

Example 2 concerns a comparative study of the total buffer capacity of different products and mixtures.

19 BE2022/5868

At the total buffer capacity, the pH is kept constant at 5.5 for 6 hours. This is in contrast to the instant buffer capacity where titration is stopped as soon as pH 5.5 is reached. The higher the meq/kg, the higher the buffer capacity of the product,

This makes a big difference for products that dissolve more slowly, such as seaweed lime and a mixture according to the current invention. This makes no difference to sodium bicarbonate as everything is quickly reacted away. This method shows the actual long-term buffer capacity in a continuous system such as the rumen of cattle.

Sodium carbonate 11750-12150 meg/kg

Magnesium oxide: 5300-5500 meg/kg

Limestone: 350-500 meg/kg

Seaweed lime: 20000-21500 meg/kg

Mixture according to the present invention: 22000-23500 meg/kg

EXAMPLE 3

Example 3 concerns a comparative in-vivo study of different products and mixtures.

To measure the rumen pH directly, boluses were used that measured the rumen pH value 24/7. The boluses continuously measure the pH value in the rumen and thus display a complete rumen pH profile.

A series of practical tests were set up in which a rumen pH bolus was given to various cows in the herd. Afterwards, they were alternately given a control ration, a risk ration or a risk ration with rumen buffer for six days. Two types of rumen buffers were tested: 150g of buffer according to the present invention/cow/day and 250g/cow/day sodium bicarbonate serving as a reference buffer.

Three important parameters are extracted from the pH measurements of the bolus: the average pH, the number of hours/day that the pH is <5.8 and the daily amplitude. The amplitude indicates the difference between the highest and lowest pH readings in a day. This parameter provides the best insight into rumen health and can also be done alone

20 BE2022/5868 be measured with a bolus. The smaller the daily pH fluctuations, the lower the amplitude and therefore the healthier the rumen.

The control ration, formulated for a limited risk of rumen acidosis, gave an amplitude <0.8 as expected (Table 1). The risk ration, with a higher content of rumen-degradable starch and a lower NDF content, increased the amplitude to 0.94. By adding a rumen buffer it was possible to reduce the amplitude values. The pH no longer dropped as low, but also did not rise as high, resulting in a healthier rumen. This shows that rumen buffers are a powerful tool against rumen acidification. 150g of buffer according to the present invention gave similar results to 250g of sodium bicarbonate. Compared to the control ration, the amplitude was slightly higher, which shows that other feeding and management measures should certainly not be forgotten in a total approach to rumen acidification.

Table 1 Results of in-vivo study

Average Minimum Maximum Amplitude

PHH

Control ration 6.13 5.75 6.52 0.77

Risk ration 6.09 5.64 6.58 0.94

Risk ration + 6.11 5.70 6.54 0.84 150 g buffer according to the current invention

Risk ration + 6.12 5.69 6.54 0.85 250 g sodium bicarbonate

Claims (15)

21 BE2022/5868 CONCLUSIONS 1. A rumen buffer composition comprising 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides. Rumen buffer composition according to claim 1, characterized in that at least 90% by weight of the calcium carbonate is present as calcium carbonate particles, wherein at least 90% by weight of the calcium carbonate particles have a particle size of 0.0003 mm - 1.0 mm. 3. Rumen buffer composition according to claim 1 or 2, characterized in that the one or more metal oxides comprise: magnesium oxide, calcium oxide, sodium oxide, copper oxide, zinc oxide, manganese oxide, molybdenum oxide, antimony oxide, nickel oxide or a combination thereof. 4. Rumen buffer composition according to any one of the preceding claims 1-3, characterized in that the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight magnesium oxide. Rumen buffer composition according to any of the preceding claims 1-4, characterized in that the rumen buffer composition comprises 80-98% by weight calcium carbonate, 1-15% by weight magnesium oxide, and 1-10% by weight calcium oxide. 6. Rumen buffer composition according to any of the preceding claims 1-5, characterized in that the rumen buffer composition comprises 5 to 50 times more calcium carbonate than calcium oxide and wherein the rumen buffer composition comprises 0.5-3.5 times more magnesium oxide than calcium oxide. 7. Rumen buffer composition according to any one of the preceding claims 1-6, characterized in that the calcium carbonate has a porosity of 45-60%, preferably 50-55%, 22 BE2022/5868 8. Rumen buffer composition according to any of the preceding claims 1-7, characterized in that the calcium carbonate has a specific surface area of 3-6 m2/g. 9. Rumen buffer composition according to any one of the preceding claims 1-8, characterized in that the rumen buffer composition has an instant buffer capacity of 5000-10000 meg/kg. 10. Method for preventing acidification of the rumen stomach, comprising: obtaining a rumen buffer composition and an amount of food; mixing the rumen buffer composition with at least part of the food; obtaining a feed mixture; administering the feed mixture to a ruminant, characterized in that the rumen buffer composition comprises 80-99% by weight calcium carbonate and 1-20% by weight of one or more metal oxides. 11. Method according to claim 10, characterized in that the feed mixture comprises an amount of rumen buffer composition, wherein the amount of rumen buffer composition is between 0.4 and 0.8% by weight of the amount of dry matter of the food. Method according to claim 10 or 11, characterized in that the amount of rumen buffer composition is between 0.6 and 0.8% by weight of the amount of dry matter of the feed mixture if the food contains at least 20% by weight starch. Method according to claim 10 or 11, characterized in that the amount of rumen buffer composition is between 0.4 and 0.6% by weight of the amount of dry matter of the feed mixture if the food contains a maximum of 20% by weight starch. 14. Feed mixture comprising an organic and an inorganic fraction, characterized in that the inorganic fraction contains 3 to 50 times more calcium carbonate than calcium oxide; contains 0.4-3.5 times more magnesium oxide than calcium oxide; and the inorganic fraction comprises at least 10% by weight calcium carbonate, 23 BE2022/5868 Use of the rumen buffer composition according to any one of claims 1-9 or the method according to any one of claims 10-13 for preventing acidification of the rumen stomach.