Effects of anionic salts supplementation on blood pH and mineral status, energy metabolism, reproduction and production in transition dairy cows

The objectives of this study were to determine the effects of a pre-partum diet with lower than recommended (DCAD = −82 mEq/kg of dietary DM) amounts of anionic salts on metabolism, health, reproductive performance and milk production in dairy cows. Sixty Holstein multiparous cows were enrolled 21 days prior to expected calving date. The animals were randomly assigned to receive one of two rations: 30 cows received anionic ration [−82 mEq (NA + K − Cl − S)/kg of DM] for 21 d to parturition and the other group (n = 30) were fed a usual dry period ration (+192 mEq/kg of DM). Serum samples obtained at days −21, +3 and +21 relative to calving were analyzed for β-hydroxybutyrate (BHBA), non-esterified fatty acids (NEFA), glucose, calcium (Ca), inorganic phosphorus, magnesium, chloride, sodium, potassium, cholesterol, urea, creatinine, total protein, albumin, and aspartate aminotransferase (AST). Urine pH declined from 8.4 at 21 d before calving (pre-treatment) to 6.2 at day 7 pre-partum in the treatment group. Repeated-measure mixed model analysis indicated that the concentrations of Ca were significantly increased and creatinine, and AST were significantly decreased by lowering DCAD. The concentrations of BHBA, NEFA and glucose were not affected by treatment. The incidence of milk fever and culling were 5 and 11 times higher in the control group in comparison with the treatment group, respectively. The intervals from calving to first breeding and to pregnancy were not influenced by treatment. There was no group effect on average daily milk yield or fat percentage.     

Effects of anionic salts in a pre-partum dairy ration on calcium metabolism

The effects of anionic salts in the transition diet on serum and urine calcium at calving and on peripartal health, subsequent milk production and fertility performance were studied in a well-managed, high-producing Friesland dairy herd. Over a period of a year, approximately 21 days before the expected date of calving, 28 pre-partum heifers and 44 multiparous dry cows were randomly allocated within parity to 1 of 2 transition diets, designated control and experimental anionic diets. The anionic diet contained the same quantities of the basic transition ration fed to the control group as well as a standard anionic salt mixture containing 118 g NH4Cl, 36 g (NH4)2SO4 and 68 g MgSO4 (total 222 g) per animal per day. This reduced the DCAD to -11.68 mEq/100 g dietary dry matter compared to +13.57 for the control diet. Blood and urine were randomly sampled from 7 to 8 animals within each category within 3 hours post-partum. Serum calcium (total and ionised) and creatinine, urine calcium and creatinine and the fractional clearance of calcium were assessed. Relevant clinical, milk production, and fertility data were collected. The total serum calcium (2.07 versus 1.60 mmol/l), serum ionised calcium (1.12 vs 1.02 mmol/l), urine calcium (0.92 vs 0.10 mmol/l) and the fractional clearance of calcium (1.88 vs 0.09%) were significantly higher(P <0.01) at calving for multiparous cows fed the anionic diet compared to those fed the control diet. In the primiparous cows there were no significant differences in serum calcium levels. However, the urine calcium (1.07 vs 0.43 mmol/l) and the fractional clearance of calcium was higher (1.75 vs 0.45%) in cows fed the anionic diet (P <0.05 and 0.01 respectively). These results illustrated that there were benefits, although no differences were demonstrated with respect to health, milk production or fertility. The supplementation of diets with anionic salts in the last 2-3 weeks before calving has the potential to significantly improve parturient calcium homeostasis.     

Influence of different calcium contents in diets supplemented with anionic salts on bone metabolism in periparturient dairy cows

At the initiation of lactation, Ca homeostatic mechanisms have to react to a tremendous increase in demand for Ca. Mobilization of Ca from bone and increased absorption from the gastrointestinal tract are required to re-establish homeostasis. It has been shown that dietary anions play an important role in the prevention of milk fever by mobilizing Ca from bone and by increasing Ca absorption in the GI tract. The purpose of the present study was to investigate the influence of different Ca contents in diets supplemented with anionic salts on bone metabolism of dairy cows. Twenty-four holstein cows (housed inside, second to fourth lactation) without a milk fever history were divided into four groups (A, B, C, D). Each group was fed a different diet which was given from day 263 of gestation till the day of parturition. Group A and B received a low calcium diet (4 g/kg DM) whereas group C and D received a high Ca diet (8 g/kg DM). In addition group B and D received anionic salts. The DCAD was calculated with the formula: DCAD (mEq/kg DM)=(0.2 Ca2++0.16 Mg2++Na++K+)-(Cl-+0.6 S2-+0.65 P3-). Blood and urine samples were collected on days 256, 270 and 277 of gestation, on the day of parturition as well as the following 5 days and on days 9, 14 and 19 after parturition. Serum Ca, P, Mg, ICTP, OC, VITD, PTH and urinary pH were analysed. The bone resorption marker ICTP showed a significant increase after parturition in all the groups. On the contrary, the bone formation marker OC decreased after parturition in all the groups. The VITD concentrations in group D and the urinary pH in group B were significantly lower compared to the other groups (p<0.05). The Ca concentrations tended to be higher in group B around parturition than in all the other groups. No significant influence of the four different diets on all the other parameters could be shown. In conclusion, this data showed that the addition of anions and the different Ca contents had no significant influence on bone resorption and bone formation markers. This may be because of the fact that the dietary cation-anion balance was not low enough (DCAD-group A: 181 mEq/kg DM, group B: -48 mEq/kg DM, group C: 210 mEq/kg DM and group D: 28 mEq/kg DM) to induce a metabolic acidosis with all its positive effects on calcium metabolism.     

Experimental studies on the impact of an increased dose of anionic salts on the metabolism of dairy cows

This study was initiated to investigate the influence of a daily dose of anionic salts (AS) above the valid upper limit at present on metabolism of dairy cows. Eleven non-pregnant and non-lactating Holstein-Friesian crossbred cows with a permanent rumen cannula were used in a study with a controlled feeding design. The initial daily dose was 2500 meq/day, which resulted in a Dietary Cation Anion Difference (DCAD) of -211 meq/kg dry matter. Every seven days,the daily dose was raised by 500 meq. If a cow stopped eating, the application of AS was stopped and these cows were monitored over the next seven days. On day 30 another batch of hay, having the same DCAD but higher concentrations of minerals and energy, was fed. Blood and urine samples were taken to monitor acid-base balance and calcium concentrations. Acid-base balance was strongly influenced by AS. Blood pH dropped steadily and reached values around 7.23. Urine pH dropped quickly below 6 and remained at that level regardless of the increased dosage of AS. Net acid base excretion (NABE) fell continuously with the increase of the dosage of AS and reached values below -200 mmol/l. Calcium concentrations in the serum were nearly stable, but those in urine increased sharply and remained on an elevated level with increasing doses of AS. A few days before the individual cow's refusal of feed intake, calcium excretion in urine decreased. The majority of cows stopped eating while consuming a diet containing 3500 to 4000 meq AS except two animals who consumed up to 6000 meq/day AS but they received the better hay in the second half of the treatment period. In this time pH in blood increased slowly. NABE remained stable on a low level at -100 mmol/l. The results showed that with an increasing amount of AS fed the risk of clinical acidosis increased. The decreasing urine concentrations of calcium indicate a breakdown of the compensation capability of the single cow. Besides the dose of AS fed, the quality of the feed stuff might be another factor concerning the tolerance of cows against AS.     

Experimental studies on the impact of an increased dose of anionic salts on the metabolism of dairy cows

Summary

This study was initiated to investigate the influence of a daily dose of anionic salts (AS) above the valid upper limit at present on metabolism of dairy cows. Eleven non‐pregnant and non‐lactating Holstein‐Friesian crossbred cows with a permanent rumen cannula were used in a study with a controlled feeding design. The initial daily dose was 2500 meq/day, which resulted in a Dietary Cation Anion Difference (DCAD) of ‐211 meq/kg dry matter. Every seven days, the daily dose was raised by 500 meq. If a cow stopped eating, the application of AS was stopped and these cows were monitored over the next seven days. On day 30 another batch of hay, having the same DCAD but higher concentrations of minerals and energy, was fed. Blood and urine samples were taken to monitor acid‐base balance and calcium concentrations. Acid‐base balance was strongly influenced by AS. Blood pH dropped steadily and reached values around 7.23. Urine pH dropped quickly below 6 and remained at that level regardless of the increased dosage of AS. Net acid base excretion (NABE) fell continuously with the increase of the dosage of AS and reached values below ‐200 mmol/l. Calcium concentrations in the serum were nearly stable, but those in urine increased sharply and remained on an elevated level with increasing doses of AS. A few days before the individual cow's refusal of feed intake, calcium excretion in urine decreased. The majority of cows stopped eating while consuming a diet containing 3500 to 4000 meq AS except two animals who consumed up to 6000 meq/day AS but they received the better hay in the second half of the treatment period. In this time pH in blood increased slowly. NABE remained stable on a low level at ‐100 mmol/l. The results showed that with an increasing amount of AS fed the risk of clinical acidosis increased. The decreasing urine concentrations of calcium indicate a breakdown of the compensation capability of the single cow. Besides the dose of AS fed, the quality of the feed stuff might be another factor concerning the tolerance of cows against AS.     

阴离子盐对围产期奶牛的作用机理及其应用

本论文从阴离子盐的作用机理出发,综述了阴离子盐对奶牛采食量、尿液pH值、产奶性能与乳成分、血液离子浓度和血液生化指标、奶牛健康等的影响.     

阴离子盐对奶牛围产期血浆离子平衡的影响

采用20头荷斯坦经产奶牛按配对试验设计,研究在干奶后期(产前约3周)添加阴离子盐添加剂对奶牛产前1周、2周和产后1周、2周及分娩当日血浆离子浓度、胎衣不下发病率以及产乳热发病情况的影响。结果表明,饲喂阴离子盐日粮4d后可使尿液pH值显著降低(P<0.05),试验组与对照组比较产前一周和产后一周血浆钙离子浓度有上升的趋势,分别为(7.98vs7.26)和(7.81vs7.19),距分娩1周血浆镁离子浓度有降低趋势(1.96vs2.16),在分娩当日试验组血浆镁离了浓度低于对照组(1.90vs2.01),产前1周和分娩当日血浆钠离子浓度低于对照组,分别为(123.90vs126.43,P<0.05)和(124.28vs125.93,P<0.05)。在本试验条件下添加阴离子盐对血浆其他离子浓度没有显著影响(P>0.05),通过对胎衣不下发生情况的统计表明,饲喂阴离子盐能够减少胎衣不下的发生。     

Effect of dietary potassium and anionic salts on acid–base and mineral status in periparturient cows

Dry cow diets based on grassland forage from intensive production contain high amounts of K and could be responsible for a reduced ability to maintain Ca homoeostasis. The aim of this study was to determine whether a moderate anionic salt supplementation to a forage‐based pre‐calving diet with varying native K content affects the mineral and acid–base status in transition cows. Twenty‐four dry and pregnant Holstein cows, without antecedent episodes of clinical hypocalcemia, were assigned to two diets during the last 4 weeks before estimated calving date. Twelve cows were fed a hay‐based diet low in K (18 g K/kg DM), and 12, a hay‐based diet high in K (35 g K/kg DM). Within each diet, six cows received anionic salts during the last 2 weeks before the estimated calving day. After calving, all cows received the high K diet ad libitum. Blood samples were taken daily from day 11 pre‐partum to day 5 post‐partum. Urine samples were taken on days 7 and 2 pre‐partum and on day 2 post‐partum. The anionic salt did not alter feed intake during the pre‐partum period. Serum Ca was not influenced by the dietary treatments. Feeding pre‐partum diets with low K concentrations induced a reduced metabolic alkalotic charge, as indicated by reduced pre‐partum urinary base–acid quotient. Transition cows fed the low K diet including anionic salts induced a mild metabolic acidosis before calving, as indicated by higher urinary Ca, lower urinary pH and net acid–base excretion. Although serum Ca during the post‐partum period was not affected by dietary treatment, feeding a low K diet moderately supplemented with anionic salts to reach a dietary cation–anion difference close to zero permitted to obtain a metabolic response in periparturient cows without altering the dry matter intake.     

Effects of feeding buffering mineral mixture on subacute rumen acidosis and some production traits in dairy cows

This trial was designed in order to evaluate the incidence of subacute rumen acidosis (SARA) during early lactation and to investigate the possibilities for its prevention by use of a buffering mineral mixture. On the beginning of the trial it was found that the pH value of rumen fluid in 4 animals was lower than normal (pH < 6.0) and that 20% of animals have had SARA. The control and the experimental group of cows were fed the same meal with exception of concentrated feed which in the experimental group contained the mineral mix with buffering activity in amount of 1%. Continuous addition of buffering mineral mixture in the amount of 1% in concentrated feed for early lactation cows successfully prevents SARA formation and leads to increased milk production, as well as increased milk fat and protein content.     

硫酸钠对奶牛瘤胃发酵的影响

本文旨在研究不同添加水平的硫酸钠对泌乳中期奶牛瘤胃发酵的影响。试验选用4头体重、胎次、产奶量均相近的荷斯坦奶牛,采用4×4拉丁方设计,试验分4个处理组,添加不同水平的硫酸钠,即0%(对照组)、0.4%(试验1组)、0.8%(试验2组)与1.2%(试验3组),试验分为4期,每期18 d(预试期15 d,正试期3 d)。结果表明:(1)饲粮中添加硫酸钠对瘤胃液pH、NH3-N平均浓度无显著影响(P>0.05);(2)饲粮中添加硫酸钠后,瘤胃内原虫数均有所提高,其中试验2组和试验3组与对照组相比均差异显著(P<0.05);(3)添加硫酸钠的试验2组瘤胃液菌体蛋白浓度与对照组相比显著提高(P<0.05)。结果说明,日粮中添加适量的硫酸钠可以改变瘤胃发酵环境,提高瘤胃液菌体蛋白浓度。     

不同瘤胃细菌培养物添加水平对奶牛瘤胃发酵及BCP含量的影响

本文旨在研究不同剂量的瘤胃细菌培养物对荷斯坦奶牛瘤胃发酵及菌体蛋白(BCP)含量的影响。试验采用单因素试验设计,选用4头装有永久性瘤胃瘘管,体况相近的荷斯坦奶牛,取其瘤胃液混匀,添加不同剂量的瘤胃细菌培养物进行体外培养,分别为:对照组(0 CUF/g),试验Ⅰ组(添加量为3%,4.4×108CUF/g),试验Ⅱ组(添加量为5%,7.8×108CUF/g),试验Ⅲ组(添加量为10%,1.2×109CUF/g),每组分别设2、4、8、12、24、36、48 h 7个指标测定时间点,每个时间点3个重复。结果表明:(1)添加瘤胃细菌培养物使瘤胃液pH有所降低,但始终在6.5～7.0,对瘤胃内环境无不良影响;(2)添加3%的瘤胃细菌培养物显著降低氨态氮(NH3-N)的含量(P<0.05),显著增加了培养液BCP的浓度(P<0.05);(3)添加3%的瘤胃细菌培养物可一定程度增加总挥发性脂肪酸(TVFA)和乙酸浓度,但对其他各挥发性脂肪酸及乙酸/丙酸比值无显著影响。由此可见,添加3%剂量的瘤胃细菌培养物可改变瘤胃的发酵环境,提高BCP浓度。     

甘露寡糖对围产期奶牛瘤胃微生物区系的影响

试验旨在研究饲粮中添加不同水平的甘露寡糖(MOS)对荷斯坦奶牛围产后期瘤胃微生物区系的影响.选取60头荷斯坦奶牛,随机分4组,每组15头.对照组饲喂基础饲粮,低、中、高剂量组分别在基础饲粮基础上添加5、10、15 g/(头·d)MOS.结果 显示,随着MOS添加量的增加,奶牛产后21 d瘤胃液中微生物蛋白含量、总挥发性...     

The role of dietary calcium concentration in the use of anionic salts to prevent parturient paresis in dairy cows

The role of dietary calcium concentration during the feeding of anionic salts (AS) was reviewed. Hypocalcaemia is still the major cause of parturient paresis in dairy cows. Feeding AS is an established method for preventing severe hypocalcaemia by activating the calcium metabolism in the last two to three weeks before parturition by inducing a metabolic acidosis. In compensation for this acidosis, the organism increases the concentrations of ionised Ca [Ca2+] in the blood. This increase leads to an increasing excretion of calcium via the urine, which is ensued by an increased calcium absorption in the intestine. The ongoing metabolic acidosis changed the flux of Ca. The size of the Ca pool, however, remained unchanged. As the calcium metabolism is activated by AS, it seems necessary to increase the amount of calcium that is fed to the cows. Several studies examined the impact of different dietary calcium concentrations on the acid-base balance and the calcium metabolism in cows fed anionic salts. The study designs vary concerning the amounts of calcium fed and the use of pregnant or non-pregnant cows. Only one study combined the feeding of AS with a very low amount of calcium, which fell below the daily requirements of pregnant cows in the last three weeks before parturition. In this study, the calcium balance post partum was better in the cows that were administered AS and a high calcium diet. In the other studies, the amount of calcium in the different experimental groups and the difference between the amounts of calcium fed varied greatly. As far as it was monitored in the studies, the calcium concentration of the diet did not have a significant impact on the degree of acidosis induced by AS. In pregnant cows, no significant differences in the calcium concentration in serum or urine occurred before parturition. Some of the researchers found a lower incidence of parturient paresis when cows were fed a combination of AS and a higher amount of calcium, but some other researches did not. Interestingly, the parameters of bone metabolism did not change between experimental groups. According to what is currently known, the feeding of AS to transition cows should not be combined with a dietary calcium concentration that falls below the requirement of cows in this stage of lactation. On the other hand, there is no need to increase the Ca concentration. When AS are used the dietary calcium concentration should be between 9 g and 12 g/kg dry matter. Further research is needed to investigate the role of dietary calcium regarding the use of AS for improving Ca metabolism in dairy cows around parturition.     

奶牛瘤胃酸中毒的发病机理与营养调控

瘤胃酸中毒主要是由于饲喂大量的极易发酵的碳水化合物,引起瘤胃内酸度升高,从而导致机体功能紊乱的一种营养代谢病。发病快、病程短、病症重、死亡率高,给奶牛养殖造成严重的损失。本文主要就奶牛瘤胃酸中毒的发病机制及预防的研究进展作了简要综述。合理调配饲料,日粮中添加缓冲物质,调控瘤胃内微生物区系,加强饲养管理等手段的综合运用可有效的防止瘤胃酸中毒的发生。     

Effect of several doses of zeolite A on feed intake,energy metabolism and on mineral metabolism in dairy cows around calving

The object of the present study was to determine the influence of different zeolite A doses on dry matter intake (DMI) and mineral metabolism, and to evaluate an optimum dosage for preventing hypocalcaemia. Eighty pregnant dry cows were assigned to four groups (I–IV). They were fed a total mixed ration (TMR) ad libitum. Groups II, III and IV received an average daily dose of 12, 23 and 43 g zeolite A/kg DM for the last 2 weeks prepartum. Individually DMI was recorded daily. Blood and urine samples were taken before, during and after zeolite A supplementation. Serum was analysed for Ca, Mg, P_i, K, non‐esterified fatty acids and β‐hydroxybutyrate (BHB). Urine was analysed for Ca, Mg, P_i, K and net acid‐base excretion (NABE). After calving, milk yield (fat corrected milk) and milk composition were determined. During zeolite A supplementation, mean DMI of Group IV (7.3 ± 1.3 kg/cow/day) was significantly lower compared to Groups I–III (10.1, 10.9, 9.5 kg/cow/day). The reduced feed intake of Group IV resulted in significantly increased BHB as well as decreased NABE after calving. Zeolite A supplementation in higher doses (III and IV) had a stabilizing effect on Ca metabolism around calving for older cows, whereas cows in Groups I and II showed a subclinical hypocalcaemia. The mean serum Mg concentration decreased significantly in older cows in Group IV at calving. The mean P_i concentration in cows of Group IV decreased into ranges of hypophosphataemia already 1 week after beginning of zeolite A feeding. The mean DMI postpartum as well as the milk yield was not affected by zeolite A supplementation. Feeding of 23 g zeolite A/kg DM TMR prepartum proved to be an adequate dosage for reducing subclinical hypocalcaemia frequency without significant effects on feed intake and P_i concentration in serum.     

The effects of high levels of rumen degradable protein on rumen pH and histamine concentrations in dairy cows

An experiment was conducted to test the hypothesis that the supplementation of crude protein (CP) results in rumen acidosis and increased histamine concentrations in dairy cows. Six ruminally fistulated, non-pregnant dry cows were fed three experimental rations in a replicated 3 × 3 Latin square design. The CP contents in the low-CP, the high rumen undegradable protein (high-RUP) and the high rumen degradable protein (high-RDP) rations were 112, 259 and 266 g/kg dry matter (DM) respectively. The cows were fed 7.7 kg DM of the concentrates and 2.7 kg DM of rice straw. High levels of RDP in the ration significantly increased the ammonia, total volatile fatty acid (VFA) and histamine concentrations in the rumen fluid. However, supplemental CP, whether degradable or undegradable, did not significantly affect the pH of rumen fluid. Plasma urea nitrogen concentration was higher in both high-RDP and high-RUP in relation to cows fed the low-CP ration. The rise in ruminal histamine concentrations was physiologically non-relevant, most likely because rumen pH was not affected by supplemental CP at the installed level of DM intake. Therefore, it can be concluded that the issue of supplemental CP, rumen pH and ruminal histamine concentrations has not yet been settled. Further research is warranted to understand these relationships.     

瘤/胃/反/刍/月/形/单/胞/菌/的/分/离/鉴/定

反刍月形单胞菌（Selenomonas ruminantium）是瘤胃内一种主要的乳酸发酵菌，约占瘤胃细菌总数的50％以上，研究表明，在反刍兽饲喂大量粗饲料时，主要通过该菌作用经琥珀酸脱羧途径生成丙酸嘲。反刍动物体内90％的葡萄糖是经肝糖异生供给的，其中生糖先质丙酸经肝糖异生生成的葡萄糖约占50％～60％。运用微生态理论，调控瘤胃微生物发酵产生丙酸的比例，可缓解和纠正围产期奶牛的能量负平衡，防治酮病、脂肪肝等能量代谢性疾病的发生。     

阴离子盐预防奶牛低血钙症的机理及应用

低血钙症是经产奶牛干奶过渡期非常容易出现的代谢性疾病.这不但会严重影响奶牛的健康和经济效益,而且患有低血钙症的奶牛还常常伴有其他产后疾病.因此,预防低血钙症具有重大的意义.实际生产中,在干奶过渡期的奶牛日粮中添加阴离子盐,使日粮阴阳离子差(DCAD)达到-100～-150毫当量,同时每天为奶牛提供120～150 g钙,定期监测尿液pH和采食量,能够避免低血钙症的出现.     

异麦芽糖对泌乳早期奶牛瘤胃发酵及生产性能的影响

为了研究异麦芽糖对泌乳早期奶牛瘤胃发酵及生产性能的影响,选择4头泌乳天数为20 d、日产奶量30 kg左右、体重550 kg左右的经产(二胎)中国荷斯坦泌乳奶牛,随机分为2组,对照组饲喂基础日粮,试验组在基础日粮中添加60 g异麦芽糖,采用2×2交叉试验设计,每期21d。结果表明:添加异麦芽糖可以显著提高奶牛瘤胃中挥发性脂肪酸(VFA)的含量(P0.05),显著降低氨态氮(NH_3-N)的含量(P0.05),其中瘤胃液中丁酸含量有极显著差异(P0.01),乙酸和丙酸的含量呈上升趋势,但无显著差异(P0.05)。对奶样进行分析,添加异麦芽糖可以显著提高牛奶的乳脂率(P0.05),显著降低乳体细胞数(P0.05),产奶量、乳蛋白和尿素氮浓度均无显著差异(P0.05)。综上所述,异麦芽糖有助于改善奶牛的瘤胃发酵功能,提高牛奶的乳脂率。