JP7066888B2 - Method of increasing milk yield and milk fat content of ruminant livestock - Google Patents
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本発明は、反芻家畜の乳量及び乳脂肪含量増加方法等に関する。詳細には、経口投与又は給与成分により、簡便且つ効果的に、反芻家畜の窒素代謝を活性化させる方法、乳量と当該乳中の乳脂肪含量を同時に増加させる方法等に関する。 The present invention relates to a method for increasing the milk yield and milk fat content of ruminant livestock. More specifically, the present invention relates to a method for activating nitrogen metabolism of ruminant livestock simply and effectively by oral administration or feeding components, a method for simultaneously increasing milk yield and milk fat content in the milk, and the like.
牛、羊、山羊のように乳、肉などが商品となる反芻家畜においては、飼育している個体の体調不良や病気などによる乳量・乳質の低下、体重減少等は、酪農農家や畜産農家にとって深刻且つ直接的な経営問題となる。 In ruminant livestock such as cows, sheep, and goats, where milk and meat are commercial products, dairy farmers and livestock farmers are responsible for the deterioration of milk yield and quality, weight loss, etc. due to poor physical condition or illness of the breeding individuals. It will be a serious and direct management problem for the farmers.
特に、乳又は乳加工品が商品となる反芻家畜(乳牛など)において、その乳量や乳質(乳脂肪含量、乳糖含量等)の低下は大きな問題となる。例えば、乳牛においては、夏季における暑熱ストレス(ヒートストレス)が乳脂肪を低下させ乳生産に多大な影響を及ぼしているため、低乳脂肪を防止する飼養技術の開発が当業界において望まれている。そこで、マルトース、スクロース、澱粉、ルーメンバイパスアミノ酸、トレハロースなどを用いた乳量増加技術(特許文献1~4)や、脂肪酸カルシウムと酢酸ナトリウムの混合物や綿実油の給与による乳脂肪含量増加技術(非特許文献1)が提案され、また、乳量と乳脂肪含量の両方を高める技術の提案もいくつかなされている。 In particular, in ruminant livestock (dairy cows, etc.) for which milk or processed dairy products are commercial products, a decrease in milk yield and milk quality (milk fat content, lactose content, etc.) becomes a big problem. For example, in dairy cows, heat stress (heat stress) in summer reduces milk fat and has a great influence on milk production, so the development of a breeding technique for preventing low milk fat is desired in the industry. .. Therefore, a technique for increasing milk yield using maltose, sucrose, starch, rumen bypass amino acid, trehalose, etc. (Patent Documents 1 to 4), and a technique for increasing milk fat content by feeding a mixture of fatty acid calcium and sodium acetate or cotton seed oil (non-patent). Document 1) has been proposed, and some techniques for increasing both milk yield and milk fat content have been proposed.
しかし、上記非特許文献1では乳量を高める効果は得られなかったと報告されており、さらに、綿実粕、脂肪酸カルシウムなどの飼料への添加は、ルーメン内発酵に悪影響を及ぼす可能性があることからその利用に当たっては飼養技術上難しいことが知られている。また、上記特許文献1~3の技術も、利用方法が難しいという問題がある。そして、酪農の生産現場においては、乳量を増加させる方策をとると乳脂肪等の乳成分の割合・濃度が低下してしまう(薄まってしまう)のが通常であり、これまで提案された乳量と乳脂肪含量の両方を高める技術の実際の効果は極めて乏しく、乳牛等の乳量と乳脂肪含量を同時に高める飼養技術を開発することは非常に難しくなっている。 However, it is reported in Non-Patent Document 1 that the effect of increasing milk yield was not obtained, and further, addition of cottonseed meal, fatty acid calcium, etc. to feed may adversely affect fermentation in the rumen. Therefore, it is known that it is difficult to use it due to the breeding technique. Further, the techniques of Patent Documents 1 to 3 also have a problem that they are difficult to use. At dairy production sites, it is normal for the proportion and concentration of milk components such as milk fat to decrease (thin) if measures are taken to increase the amount of milk, and the milk proposed so far. The actual effect of the technique for increasing both the amount and the milk fat content is extremely poor, and it is very difficult to develop a feeding technique for simultaneously increasing the milk yield and the milk fat content of dairy cows and the like.
このような背景技術において、当業界では、反芻家畜の乳量と乳脂肪含量を同時に高めることができるような新規な飼養技術、飼料成分等の開発、さらには、反芻家畜の乳生産と関連性があると言われている窒素代謝の活性化もできるような飼養技術、飼料成分等の開発が強く望まれていた。 In such background technology, in the art, new feeding technology that can simultaneously increase the milk yield and milk fat content of anti-corruption livestock, development of feed components, etc., and relevance to milk production of anti-corrosion livestock. There has been a strong desire to develop breeding techniques, feed components, etc. that can also activate nitrogen metabolism, which is said to be present.
一方、ビタミンK3(メナジオン)は合成品であり、ヒトでの利用は禁止されているが、家畜用としての利用は許可され、哺乳子ウシ用の飼料添加物として代用乳への添加などがされている。しかし、ビタミンK類は反芻家畜の第一胃内細菌によって合成されることが知られており、第一胃が発達した親ウシ、特に泌乳牛に対し、ビタミンK類は飼料添加物として利用されていない。 On the other hand, vitamin K3 (menadione) is a synthetic product and its use in humans is prohibited, but its use for livestock is permitted, and it has been added to milk replacer as a feed additive for calves. ing. However, vitamin Ks are known to be synthesized by ruminant ruminant ruminant endogastric bacteria, and vitamin Ks are used as feed additives for parent cows with developed ruminants, especially dairy cows. Not.
このことから、ビタミンK類を泌乳牛等に経口投与又は給与することによる生理作用はほとんど知られておらず、ビタミンK3を反芻家畜へ経口投与又は給与することによる乳量、乳脂肪含量等への影響についての記載や示唆がある文献等は今のところ見出せない。 From this, little is known about the physiological effects of oral administration or feeding of vitamin K to lactating cows, etc., and to the milk yield, milk fat content, etc. by oral administration or feeding of vitamin K3 to reed livestock No literature has been found so far that describes or suggests the effects of.
また、酢酸は、反芻家畜の第一胃内細菌により産生される主な揮発性脂肪酸(VFA)であり、反芻動物においてはグルコースに匹敵するくらい重要なエネルギー源である。この酢酸については、反芻家畜の唾液分泌を亢進させる(非特許文献2)と伴に、ルーメン粘膜の炭酸脱水酵素を活性化してルーメンからのVFAの吸収を促進する(非特許文献3)ことなどが報告されている。 In addition, acetic acid is a major volatile fatty acid (VFA) produced by rumen bacteria in ruminants, and is an important energy source comparable to glucose in ruminants. Regarding this acetic acid, along with enhancing saliva secretion of ruminant livestock (Non-Patent Document 2), it activates carbonic anhydrase of rumen mucosa to promote absorption of VFA from rumen (Non-Patent Document 3). Has been reported.
しかし、酢酸を反芻家畜へ経口投与又は給与することによる乳量、乳脂肪含量等への影響についての記載や示唆がある文献等は、ビタミンK3と同様に今のところ見出せない。 However, as with vitamin K3, no literature has been found so far that describes or suggests the effects of oral administration or feeding of acetic acid on ruminant livestock on milk yield, milk fat content, and the like.
本発明は、反芻家畜の窒素代謝を活性化し、また、その乳量及び当該乳中の乳脂肪含量を同時に増加させて、乳質及び乳生産量をともに改善できるような栄養生理学的技術(経口投与又は給与成分、方法等)の提供を目的としてなされたものである。 The present invention is a nutritional physiologic technique (oral administration) capable of activating the nitrogen metabolism of anti-fertilized livestock and simultaneously increasing the milk yield and the milk fat content in the milk to improve both milk quality and milk production. Or, it was made for the purpose of providing (feeding ingredients, methods, etc.).
上記目的を達成するため、本発明者らは鋭意研究の結果、反芻家畜に有効成分としてビタミンK3(メナジオン)、あるいは、酢酸及び/又は酢酸塩とビタミンK3(メナジオン)を一緒に経口投与又は給与することで、反芻家畜の窒素代謝を活性化し、及び/又は、その乳量と当該乳中の乳脂肪含量を同時に増加させ、乳質及び乳生産量を簡便且つ効果的に改善できることを見出し、本発明を完成するに至った。 In order to achieve the above object, as a result of diligent research, the present inventors have orally administered or fed vitamin K3 (menadion) or acetic acid and / or acetic acid and vitamin K3 (menadion) as an active ingredient to antiperspirant livestock. By doing so, it was found that the nitrogen metabolism of anti-fertile livestock can be activated and / or the milk yield and the milk fat content in the milk can be increased at the same time, and the milk quality and milk production can be easily and effectively improved. The invention was completed.
すなわち、本発明の実施形態は次のとおりである。
(1)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を有効成分とする反芻家畜の乳量及び乳脂肪含量増加用飼料組成物。
(2)酢酸塩が、酢酸ナトリウム及び/又は酢酸カルシウムである、(1)に記載の飼料組成物。
(3)反芻家畜が、牛、羊、山羊から選ばれる少なくともひとつである、(1)又は(2)に記載の飼料組成物。
(4)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を反芻家畜に経口投与又は給与することを特徴とする、反芻家畜の乳量及び乳脂肪含量増加方法。
(5)酢酸及び/又は酢酸塩を1日当たり酢酸として30~300g/頭経口投与又は給与することを特徴とする、(4)に記載の方法。
(6)酢酸塩が、酢酸ナトリウム及び/又は酢酸カルシウムである、(4)又は(5)に記載の方法。
(7)ビタミンK3(メナジオン)を1日当たり10~200mg/頭経口投与又は給与することを特徴とする、(4)~(6)のいずれか1つに記載の方法。
(8)反芻家畜が、牛、羊、山羊から選ばれる少なくともひとつである、(4)~(7)のいずれか1つに記載の方法。
(9)ビタミンK3(メナジオン)を有効成分とする反芻家畜の乳量及び乳脂肪含量増加用飼料組成物(反芻家畜用乳量及び乳脂肪含量増加剤)。
(10)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を有効成分とする反芻家畜の乳量及び乳脂肪含量増加用飼料組成物(特に、これら有効成分が同時に経口投与又は給与されるように含有してなる飼料組成物、反芻家畜用乳量及び乳脂肪含量増加剤)。
(11)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を有効成分とする反芻家畜の窒素代謝活性化用飼料組成物(特に、これら有効成分が同時に経口投与又は給与されるように含有してなる飼料組成物、反芻家畜用窒素代謝活性化剤)。
(12)酢酸塩が、酢酸ナトリウム及び/又は酢酸カルシウムである、(10)又は(11)に記載の飼料組成物。
(13)反芻家畜が、牛、羊、山羊から選ばれる少なくともひとつである、(9)~(12)のいずれか1つに記載の飼料組成物。
(14)ビタミンK3(メナジオン)を反芻家畜に経口投与又は給与することを特徴とする、反芻家畜の乳量及び乳脂肪含量増加方法。
(15)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を反芻家畜に経口投与又は給与することを特徴とする、反芻家畜の乳量及び乳脂肪含量増加方法。
(16)酢酸及び/又は酢酸塩、及び、ビタミンK3(メナジオン)を反芻家畜に経口投与又は給与することを特徴とする、反芻家畜の窒素代謝活性化方法。
(17)酢酸及び/又は酢酸塩を1日当たり酢酸として(酢酸量換算で)30~300g/頭、好ましくは60~180g/頭経口投与又は給与することを特徴とする、(15)又は(16)に記載の方法。
(18)酢酸塩が、酢酸ナトリウム及び/又は酢酸カルシウムである、(15)~(17)のいずれか1つに記載の方法。
(19)ビタミンK3(メナジオン)を1日当たり10~200mg/頭、好ましくは10~100mg/頭、更に好ましくは10~50mg/頭経口投与又は給与することを特徴とする、(14)~(18)のいずれか1つに記載の方法。
(20)反芻家畜が、牛、羊、山羊から選ばれる少なくともひとつである、(14)~(19)のいずれか1つに記載の方法。
That is, the embodiment of the present invention is as follows.
(1) A feed composition for increasing the milk yield and milk fat content of refurbished livestock containing acetic acid and / or acetate and vitamin K3 (menadione) as active ingredients.
(2) The feed composition according to (1), wherein the acetate is sodium acetate and / or calcium acetate.
(3) The feed composition according to (1) or (2), wherein the ruminant livestock is at least one selected from cattle, sheep and goats.
(4) A method for increasing the milk yield and milk fat content of an anti-corruption livestock, which comprises orally administering or feeding acetic acid and / or acetate and vitamin K3 (menadione) to the anti-corrosion livestock.
(5) The method according to (4), wherein 30 to 300 g / head of acetic acid and / or acetate is orally administered or fed as acetic acid per day.
(6) The method according to (4) or (5), wherein the acetate is sodium acetate and / or calcium acetate.
(7) The method according to any one of (4) to (6), wherein vitamin K3 (menadione) is orally administered or fed at 10 to 200 mg / head per day.
(8) The method according to any one of (4) to (7), wherein the ruminant livestock is at least one selected from cattle, sheep and goats.
(9) A feed composition for increasing the milk yield and milk fat content of anti-fertilized livestock containing vitamin K3 (menadione) as an active ingredient (milk mass and milk fat content-increasing agent for anti-corrupted livestock).
(10) A feed composition for increasing the milk yield and milk fat content of refurbished livestock containing acetic acid and / or acetate and vitamin K3 (menadion) as active ingredients (particularly, these active ingredients are orally administered or fed at the same time). Feed composition, milk yield and milk fat content increasing agent for anti-fertilized livestock).
(11) A feed composition for activating nitrogen metabolism of anti-garment livestock containing acetic acid and / or acetate and vitamin K3 (menadion) as active ingredients (particularly, these active ingredients are contained so as to be orally administered or fed at the same time. Nitrogen metabolism activator for livestock, anti-acetic acid).
(12) The feed composition according to (10) or (11), wherein the acetate is sodium acetate and / or calcium acetate.
(13) The feed composition according to any one of (9) to (12), wherein the ruminant livestock is at least one selected from cattle, sheep and goats.
(14) A method for increasing the milk yield and milk fat content of ruminant livestock, which comprises orally administering or feeding vitamin K3 (menadione) to ruminant livestock.
(15) A method for increasing the milk yield and milk fat content of an anti-corruption livestock, which comprises orally administering or feeding acetic acid and / or acetate and vitamin K3 (menadione) to the anti-corrosion livestock.
(16) A method for activating nitrogen metabolism in ruminant livestock, which comprises orally administering or feeding acetic acid and / or acetate and vitamin K3 (menadione) to ruminant livestock.
(17) 30 to 300 g / head, preferably 60 to 180 g / head of acetic acid and / or acetate as acetic acid per day, orally administered or fed (15) or (16). ).
(18) The method according to any one of (15) to (17), wherein the acetate is sodium acetate and / or calcium acetate.
(19) Vitamin K3 (menadione) is orally administered or fed at 10 to 200 mg / head, preferably 10 to 100 mg / head, more preferably 10 to 50 mg / head per day, (14) to (18). ). The method according to any one of.
(20) The method according to any one of (14) to (19), wherein the ruminant livestock is at least one selected from cattle, sheep and goats.
本発明によれば、反芻家畜の窒素代謝を活性化し、及び/又は、その乳量と当該乳中の乳脂肪含量を同時に増加させ、乳質及び乳生産量を簡便且つ効果的に改善することができる。そして、本発明により、安定した反芻家畜の乳生産性あるいは乳生産性の向上、ならびに、酪農経営の安定化を図ることができる。 According to the present invention, it is possible to activate the nitrogen metabolism of ruminant livestock and / or simultaneously increase the milk yield and the milk fat content in the milk to improve milk quality and milk production easily and effectively. can. Further, according to the present invention, stable improvement of milk productivity or milk productivity of ruminant livestock and stabilization of dairy farming can be achieved.
以下、本発明を詳細に説明する。 Hereinafter, the present invention will be described in detail.
本発明においては、反芻家畜の乳量及び乳脂肪含量増加、窒素代謝活性化の有効成分として、酢酸及び/又は酢酸塩、ビタミンK3(メナジオン)を使用する。 In the present invention, acetic acid and / or acetate and vitamin K3 (menadione) are used as active ingredients for increasing milk yield and milk fat content and activating nitrogen metabolism in anti-fertilized livestock.
酢酸、酢酸塩については、市販されている純品乾燥物などを使用することができ、酢酸塩としては、酢酸ナトリウム、酢酸カルシウム、酢酸カリウム、酢酸アンモニウムなどが例示される。本発明では、これらのうち、特に、酢酸、酢酸ナトリウム、酢酸カルシウムから選ばれる1以上を用いるのが非常に好適である。 As for acetic acid and acetate, commercially available pure dried products can be used, and examples of the acetate include sodium acetate, calcium acetate, potassium acetate, ammonium acetate and the like. In the present invention, it is very preferable to use one or more of these, which are selected from acetic acid, sodium acetate and calcium acetate.
また、合成ビタミンであるビタミンK3(メナジオン)については、純品乾燥物が使用できることはもちろんのこと、その粗精製物(ペースト化物、希釈物、乳化物、懸濁物など)も使用可能である。また、デンプンやデキストリン等の賦形剤を加えて顆粒化したり、タブレットにしたりして製剤化したものも使用可能である。さらには、ルーメンで分解されないように油脂等でコーティングしたものも使用可能である。 As for vitamin K3 (menadione), which is a synthetic vitamin, not only a pure dried product can be used, but also a crude product thereof (paste product, diluted product, emulsion, suspension product, etc.) can be used. .. Further, a product formulated by adding an excipient such as starch or dextrin to granules or made into a tablet can also be used. Further, those coated with oil or fat so as not to be decomposed by lumens can also be used.
そして、このビタミンK3(メナジオン)を有効成分とし、あるいは、酢酸及び/又は酢酸塩とビタミンK3(メナジオン)を有効成分として併用し、そのまま飼料添加物、飼料、飼料組成物、動物医薬、その他の剤として使用することができる。また、常用される飼料成分を添加、混合して、飼料添加物、飼料、飼料組成物を提供することも可能であり、さらには、これらを有効成分とする動物医薬製剤としても提供することができる。この場合は、動物医薬製剤の常法にしたがって製剤化すればよく、他の生理機能を有する有効成分を併用することもできる。飼料添加物等とする場合でも、他の栄養成分(タンパク質、脂質、ミネラル(カリウム、ナトリウム、マグネシウム等)、ビタミンK3以外のビタミン(ビタミンA、ビタミンE等))などを併用できる。 Then, this vitamin K3 (menadione) is used as an active ingredient, or acetic acid and / or acetate and vitamin K3 (menadione) are used in combination as an active ingredient, and feed additives, feeds, feed compositions, veterinary drugs, and others are used as they are. It can be used as an agent. It is also possible to add and mix commonly used feed components to provide feed additives, feeds and feed compositions, and further, it is also possible to provide them as veterinary pharmaceutical preparations containing these as active ingredients. can. In this case, it may be formulated according to the conventional method of veterinary pharmaceutical preparation, and an active ingredient having other physiological functions may be used in combination. Even when it is used as a feed additive, other nutritional components (proteins, lipids, minerals (potassium, sodium, magnesium, etc.), vitamins other than vitamin K3 (vitamin A, vitamin E, etc.)) and the like can be used in combination.
本有効成分は、種々の形態で経口投与される。その投与形態としては例えば錠剤、カプセル剤、顆粒剤、散剤、シロップ剤等による経口投与などをあげることができる。これらの各種製剤は、常法に従って主薬に賦形剤、結合剤、崩壊剤、滑沢剤、矯味矯臭剤、溶解補助剤、懸濁剤、コーティング剤などの動物医薬剤等の製剤技術分野において通常使用しうる既知の補助剤を用いて製剤化することができる。なお、ビタミンK3(メナジオン)をそのまま、あるいは、酢酸及び/又は酢酸塩とビタミンK3(メナジオン)をそのまま混合して製剤として用いることも可能である。 The active ingredient is orally administered in various forms. Examples of the administration form include oral administration using tablets, capsules, granules, powders, syrups and the like. These various formulations are used in the field of formulation technology such as excipients, binders, disintegrants, lubricants, flavoring agents, solubilizing agents, suspending agents, coating agents and other veterinary pharmaceutical agents according to conventional methods. It can be formulated with known adjuvants that can be commonly used. Vitamin K3 (menadione) can be used as it is, or acetic acid and / or acetate and vitamin K3 (menadione) can be mixed as they are and used as a preparation.
なお、このようにして製剤化したものは、動物医薬剤として使用できるだけでなく、飼料組成物として使用することも充分可能であって、それ自体を飼料として直接家畜に給与することもできるし、飼料添加剤として他の飼料原料に添加、混合して用いることも可能である。 The product thus formulated can be used not only as a veterinary drug but also as a feed composition, and can be directly fed to livestock as a feed by itself. It can also be added to other feed raw materials as a feed additive and mixed and used.
本発明の対象となる動物は、その乳及び/又は乳加工品が食用等となる泌乳期(通常は分娩後から12ヶ月程度まで)の反芻家畜である。例えば、乳牛(特にホルスタイン種、ジャージー種など)、羊、山羊などがより好適な対象動物として例示される。けれども、水牛、ラクダ、ヤクなどを対象としても構わない。 The animal to be the subject of the present invention is a ruminant livestock during the lactation period (usually up to about 12 months after calving) when the milk and / or processed milk product is edible. For example, dairy cows (particularly Holstein, Jersey, etc.), sheep, goats, etc. are exemplified as more suitable target animals. However, buffalo, camels, yaks, etc. may be targeted.
酢酸及び/又は酢酸塩、ビタミンK3(メナジオン)の反芻家畜への経口投与又は給与量としては、例えば乳牛であれば、酢酸及び/又は酢酸塩は1日・頭の経口投与又は給与で飼料の乾物当たり0.5~5.0mol(酢酸量で換算すると30~300g)、好ましくは1.0~3.0mol(酢酸量で換算すると60~180g)添加することが好適であり、ビタミンK3は10~200mg、好ましくは10~100mg、更に好ましくは10~50mg、例えば10~25mg程度添加することが好適である。そして、この量の経口投与又は給与を1日当たり2回程度に分けて行うのが好ましい。有効成分の経口投与又は給与量が当該範囲より多い場合、安全性やその効果という点において特段の問題はないが、コスト面などから上記範囲内の方が好ましい。また、当該範囲より少ない場合には、本発明の効果が十分発揮されない恐れがあるため好ましくない。
なお、他の反芻家畜においても、その体重等を勘案して経口投与又は給与量を設定すれば良いが、乳牛も含め上記以外の経口投与又は給与量を完全に除外するものではない。
As for the oral administration or feeding amount of acetic acid and / or acetate and vitamin K3 (menadion) to repetitive livestock, for example, in the case of dairy cows, acetic acid and / or acetate is given daily by oral administration or feeding. It is preferable to add 0.5 to 5.0 mol (30 to 300 g in terms of acetic acid amount), preferably 1.0 to 3.0 mol (60 to 180 g in terms of acetic acid amount) per dry matter, and vitamin K3 is It is preferable to add 10 to 200 mg, preferably 10 to 100 mg, more preferably 10 to 50 mg, for example, about 10 to 25 mg. Then, it is preferable to administer this amount orally or feed the medicine in two divided doses per day. When the oral administration or the amount of the active ingredient is larger than the above range, there is no particular problem in terms of safety and its effect, but it is preferable to be within the above range from the viewpoint of cost. Further, if the amount is less than the above range, the effect of the present invention may not be sufficiently exhibited, which is not preferable.
For other ruminant livestock, the oral administration or the feeding amount may be set in consideration of the body weight and the like, but the oral administration or the feeding amount other than the above including the dairy cow is not completely excluded.
本発明は、ビタミンK3(メナジオン)、あるいは、酢酸及び/又は酢酸塩とビタミンK3(メナジオン)の併用の有効性(乳量と乳脂肪含量の同時増加や窒素代謝活性化)を実際の生産現場における反芻家畜生体を用いて直接確認し、特に、これまで非常に困難であるとされてきた乳牛等の乳量と乳脂肪含量を同時に高める作用の科学的立証がなされた極めて実用的なものであると言える。 The present invention demonstrates the effectiveness of the combined use of vitamin K3 (menadion) or acetic acid and / or acetate and vitamin K3 (menadion) (simultaneous increase in milk yield and milk fat content and activation of nitrogen metabolism) at an actual production site. It was confirmed directly using the living body of anti-metabolism in Japan, and in particular, it was extremely practical with scientific proof of the action of simultaneously increasing the milk yield and milk fat content of dairy cows, etc., which had been considered to be extremely difficult. It can be said that there is.
なお、本発明において「乳脂肪含量を高める」、「乳脂肪量の増加」とは、乳中の脂肪含量全体(総量)が増加することを意味し、乳脂肪中の特定の脂肪酸比率が高まること(総量は変わらないこと)とは意味が異なる。 In the present invention, "increasing the milk fat content" and "increasing the amount of milk fat" mean that the total fat content (total amount) in the milk is increased, and the ratio of a specific fatty acid in the milk fat is increased. The meaning is different from that (the total amount does not change).
以下、本発明の実施例について述べるが、本発明はこれらの実施例のみに限定されるものではなく、本発明の技術的思想内においてこれらの様々な変形が可能である。 Hereinafter, examples of the present invention will be described, but the present invention is not limited to these examples, and various modifications thereof are possible within the technical idea of the present invention.
ホルスタイン種泌乳牛7頭(平均乳量28kg、平均分娩後日数217.1日、平均産次数2)を供試し、試験を行った。飼養試験期間中は、コーンサイレージと乳牛配合飼料を主体とした慣行飼料を1日2回給餌し自由採食・自由飲水とした。朝夕の給餌ごとに、酢酸ナトリウム;125gと市販のビタミンK3;1g(1%換算=10mg)を処理区の餌に同時添加し、対照区は無添加とした。11日間の予備試験と3日間の試験の14日間を一期として、2期の反転試験を行った。 Seven Holstein lactating cows (average milk yield 28 kg, average postpartum days 217.1 days, average calving order 2) were tested. During the breeding test period, conventional feed mainly composed of corn silage and dairy cow compound feed was fed twice a day for free feeding and free drinking. Sodium acetate; 125 g and commercially available vitamin K3; 1 g (1% conversion = 10 mg) were simultaneously added to the diet of the treated group for each morning and evening feeding, and the control group was not added. A two-stage reversal test was performed with 14 days of the 11-day preliminary test and the 3-day test as one period.
まず、飼養試験において、対照区と処理区におけるルーメン発酵について比較した。この結果を下記表1に示した。給餌前0時間、給餌後5時間目において、ルーメン内総VFA濃度及びVFA組成を比較したところ、両区において有意差は見られなかった。しかし、アンモニア態窒素濃度は給餌後5時間目で処理区において有意に低い値を示した(P<0.05)。
First, in the feeding test, the rumen fermentation in the control group and the treatment group was compared. The results are shown in Table 1 below. When the total VFA concentration in the lumen and the VFA composition were compared at 0 hours before feeding and 5 hours after feeding, no significant difference was observed between the two groups. However, the ammonia nitrogen concentration showed a significantly low value in the treated
次に、血液代謝産物の濃度変化の結果を下記表2に示した。血液中遊離脂肪酸(NEFA)、グルコース及びトリグリセリドの濃度は両区において有意な差は見られなかったが、血中尿素態窒素濃度は処理区で有意に低い値を示した(P<0.05)。 Next, the results of changes in the concentration of blood metabolites are shown in Table 2 below. The blood free fatty acid (NEFA), glucose and triglyceride concentrations were not significantly different between the two groups, but the blood urea nitrogen concentration was significantly lower in the treated group (P <0.05). ).
さらに、乾物摂取量、乳量、乳成分の変化の結果について下記表3に示した。両区において乾物摂取量には差が見られなかったが、乳量は処理区において有意に高い値を示した(P<0.01)。乳成分においても、乳脂肪含量は処理区において有意に高い値を示した(P<0.05)。また、乳タンパク質含量は処理区において、有意に低い値を示した(P<0.01)。 Furthermore, the results of changes in dry matter intake, milk yield, and milk components are shown in Table 3 below. There was no difference in dry matter intake between the two groups, but the milk yield was significantly higher in the treated group (P <0.01). Also in the milk component, the milk fat content showed a significantly high value in the treated group (P <0.05). In addition, the milk protein content showed a significantly low value in the treated group (P <0.01).
さらに、この試験における、ルーメン内アンモニア態窒素、血中尿素態窒素濃度(BUN)、乳中尿素態窒素濃度(MUN)の変化を図1に示した。酢酸ナトリウムとビタミンK3の飼料への添加によりルーメン内アンモニア態窒素とBUNは有意に低下し(P<0.05)、MUNも有意に低下し(P<0.01)、窒素代謝が活性化していると認められた。 Furthermore, the changes in the ammonia nitrogen in the rumen, the urea nitrogen concentration in the blood (BUN), and the urea nitrogen concentration in the milk (MUN) in this test are shown in FIG. Addition of sodium acetate and vitamin K3 to the feed significantly reduced ammonium nitrogen and BUN in the rumen (P <0.05), significantly reduced MUN (P <0.01), and activated nitrogen metabolism. Was admitted.
以上の結果から、有効成分として酢酸ナトリウムとビタミンK3の併用給与は、泌乳牛の窒素代謝を活性化し、さらに、乳量、乳脂肪含量の両方を同時に高めることが示された。また、継続給与の安全性及び持続効果についても明らかとなった。 From the above results, it was shown that the combined feeding of sodium acetate and vitamin K3 as active ingredients activates nitrogen metabolism in lactating cows and further increases both milk yield and milk fat content at the same time. In addition, the safety and sustainability of continuous salary were also clarified.
ホルスタイン種泌乳牛6頭(平均乳量19kg、平均搾乳日数241日、平均産次数1.8)を供試し、試験を行った。飼養試験期間中は、コーンサイレージと乳牛配合飼料を主体とした慣行飼料を1日2回給餌し自由採食・自由飲水とした。朝夕の給餌ごとに市販のビタミンK3;2.5g(1%換算=25mg、50mg/日)をビタミンK区の餌に添加し、対照区は無添加とした。11日間の予備試験と3日間の試験の14日間を一期として、反転試験を行った。 Six Holstein lactating cows (average milk yield 19 kg, average milking days 241 days, average production order 1.8) were tested. During the breeding test period, conventional feed mainly composed of corn silage and dairy cow compound feed was fed twice a day for free feeding and free drinking. Commercially available vitamin K3; 2.5 g (1% conversion = 25 mg, 50 mg / day) was added to the diet of vitamin K group for each morning and evening feeding, and the control group was not added. A reversal test was conducted with 14 days of the 11-day preliminary test and the 3-day test as one period.
試験後の対照区とビタミンK区における乾物摂取量(DMI)、ルーメンでのメタン(CH4)生成量、乳量、乳成分組成(乳脂肪、乳蛋白質、乳糖)、乳中尿素態窒素の測定結果について下記表4に示した。両区において乾物摂取量には差が見られなかったが、乳量及び乳脂肪含量の両方がビタミンK区において有意に高い値を示した。なお、表中の数値右側にあるアルファベットが各区で同じであれば有意差なし、異なれば有意差ありを表す。 Dry matter intake (DMI), methane (CH 4 ) production in rumen, milk yield, milk composition (milk fat, milk protein, lactose), urea nitrogen in milk in the control group and vitamin K group after the test. The measurement results are shown in Table 4 below. There was no difference in dry matter intake between the two groups, but both milk yield and milk fat content were significantly higher in the vitamin K group. If the alphabets on the right side of the numerical values in the table are the same in each section, there is no significant difference, and if they are different, there is a significant difference.
以上の結果から、有効成分としてビタミンK3の単独給与も、泌乳牛の乳量、乳脂肪含量の両方を同時に高めることが示された。 From the above results, it was shown that the single feeding of vitamin K3 as an active ingredient also increases both the milk yield and the milk fat content of lactating cows at the same time.
なお、本発明を要約すれば次のとおりである。 The present invention can be summarized as follows.
すなわち、本発明は、牛、羊、山羊などの反芻家畜の窒素代謝を活性化し、また、その乳量及び当該乳中の乳脂肪含量を同時に増加させて、乳質及び乳生産量をともに改善できるような栄養生理学的技術(経口投与又は給与成分、方法等)を提供することを目的とする。 That is, the present invention can activate the nitrogen metabolism of rubbish livestock such as cows, sheep and goats, and simultaneously increase the milk yield and the milk fat content in the milk to improve both milk quality and milk production. It is an object of the present invention to provide such nutritional and physiological techniques (oral administration or feeding ingredients, methods, etc.).
そして、有効成分としてビタミンK3(メナジオン)、あるいは、酢酸及び/又は酢酸塩とビタミンK3(メナジオン)を反芻家畜に経口投与又は給与することで、反芻家畜の窒素代謝を活性化し、及び/又は、その乳量と当該乳中の乳脂肪含量を同時に増加させ、乳質及び乳生産量を簡便且つ効果的に改善する。 Then, by orally administering or feeding vitamin K3 (menadion) or acetic acid and / or acetic acid and vitamin K3 (menadion) as an active ingredient to the rutted livestock, the nitrogen metabolism of the rutted livestock is activated and / or. The milk yield and the milk fat content in the milk are increased at the same time to improve milk quality and milk production easily and effectively.
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