Effects of sodium chloride intake on urea-N recycling and renal urea-N kinetics in lactating Holstein cows

IF 3.7 1区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Journal of Dairy Science Pub Date : 2024-06-20 DOI:10.3168/jds.2024-24921

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Abstract

The effects of high (2.5% of DM) versus normal dietary sodium chloride (NaCl) intake on renal urea-N kinetics and urea-N metabolism were investigated in 9 rumen-cannulated and multicatheterized lactating dairy cows in a crossover design with 21-d periods. It was hypothesized that urinary urea-N excretion would be greater, and BUN concentration lower in response to greater diuresis induced by high NaCl intake. Also, urea-N transport across ruminal and portal-drained viscera (PDV) tissues was hypothesized to be affected by dietary sodium intake. A second experiment was conducted using 8 lactating cows in a crossover design with 14-d periods to test high NaCl (2.5% of DM) versus high KCl (3.2% of DM) intake on milk yield and MUN concentrations. Experiment 1 showed that despite greater diuresis, high NaCl intake had no effect on urinary urea-N excretion or BUN concentration. The high NaCl intake did not affect rumen ammonia concentrations, total rumen VFA concentrations, ruminal venous − arterial concentration differences for ammonia, or ammonia absorption indicating that high NaCl did not adversely affect ruminal fermentation and microbial protein synthesis. High NaCl intake did not affect the total amount of urea-N transport from blood to gut, but ruminal venous − arterial concentration differences for urea-N were lower with high NaCl and ruminal extraction of arterial urea-N was numerically smaller, indicating that the ruminal epithelial urea-N transport was lower with high NaCl. Energy-corrected milk yield was greater with high NaCl (3.2 ± 1.5 kg/d); however, MUN concentrations were not affected by treatment. In experiment 2, ECM was greater with NaCl (1.4 ± 0.31 kg/d) compared with KCl (30.2 and 28.8 ± 0.91 kg ECM/d, respectively). Milk urea-N concentration was lower with KCl, suggesting a urea-N lowering effect in milk not evident with high NaCl intake. In conclusion, the present data show that dietary Na intake of 12 to 13 g/kg DM was followed by greater diuresis but did not affect urea-N excretion or BUN concentration. High NaCl intake did not affect the total amount of urea-N transfer across PDV tissues. Energy-corrected milk yield was greater with high NaCl compared with both control and feeding KCl; however, with KCl, MUN decreased.

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摄入氯化钠对泌乳荷斯坦奶牛尿素-N 循环和肾脏尿素-N 动力学的影响

研究人员在 9 头瘤胃封管和多导管泌乳奶牛中，以 21 天为一个周期，采用交叉设计，研究了日粮氯化钠（NaCl）摄入量高（占 DM 的 2.5%）与正常对肾脏尿素-N 动力学和尿素-N 代谢的影响。研究假设，在高氯化钠摄入量诱导下，尿素-N排泄量会增加，血液中尿素-N浓度会降低。此外，尿素-N 在瘤胃和门静脉内脏（PDV）组织中的转运也会受到日粮钠摄入量的影响。第二项实验使用了 8 头泌乳奶牛，以 14 天为一周期进行交叉设计，测试高 NaCl（占 DM 的 2.5%）和高 KCl（占 DM 的 3.2%）摄入量对产奶量和牛奶尿素氮浓度的影响。实验 1 显示，尽管高氯化钠摄入对尿素氮排泄或血液尿素氮浓度没有影响，但利尿作用更强。高NaCl摄入量不会影响瘤胃氨浓度、瘤胃VFA总浓度、瘤胃静脉-动脉氨浓度差或氨吸收，这表明高NaCl不会对瘤胃发酵和微生物蛋白质合成产生不利影响。高NaCl摄入量并不影响尿素-N从血液到肠道的总转运量，但瘤胃静脉-动脉尿素-N浓度差在高NaCl摄入量时较低，而且瘤胃对动脉尿素-N的提取量在数值上较小，这表明瘤胃上皮尿素-N的转运量在高NaCl摄入量时较低。高 NaCl 下的能量校正产奶量更高（3.2 ± 1.5 kg/d）；但牛奶中的尿素-N 浓度不受处理的影响。在实验 2 中，与氯化钾（ECM 分别为 30.2 千克/天和 28.8 ± 0.91 千克/天）相比，氯化钠（1.4 ± 0.31 千克/天）的 ECM 更大。KCl 牛奶中的尿素氮浓度较低，这表明牛奶中的尿素氮降低效应在摄入大量 NaCl 时并不明显。总之，本研究数据表明，日粮摄入 12-13 克/千克 DM 的 Na 会导致更大的利尿作用，但不会影响尿素-N 的排泄或血液中的尿素-N 浓度。高NaCl摄入量不会影响尿素-N在PDV组织中的转移总量。与对照组和饲喂氯化钾组相比，高氯化钠组的能量校正产奶量更高，但饲喂氯化钾组时，牛奶中的尿素-N减少。

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来源期刊

Journal of Dairy Science 农林科学-奶制品与动物科学

CiteScore

7.90

自引率

17.10%

发文量

784

审稿时长

4.2 months

期刊介绍： The official journal of the American Dairy Science Association®, Journal of Dairy Science® (JDS) is the leading peer-reviewed general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation.