奶牛维持、增重和怀孕所需的大量矿物质。

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

Journal of Dairy Science Pub Date : 2025-05-10 DOI:10.3168/jds.2024-25694

C H P Camisa Nova, M I Marcondes, S C Valadares Filho, M M Campos, F S Machado, L H R Silva, M M D Castro, P P Rotta

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Pregnant cows were slaughtered at 140, 200, 240, and 270 d of gestation, and nonpregnant cows were slaughtered at corresponding intervals to compare mineral accretion due to pregnancy. Total-tract digestibility was measured in six 28-d periods (d 122, 150, 178, 206, 234, and 262 of gestation) by collecting DMI, feces, and urine. The net requirements of maintenance (mg/kg of empty BW) for calcium (Ca), phosphorus (P), magnesium (Mg), sodium (Na), potassium (K), and sulfur (S) were 13.48, 8.35, 4.06, 10.07, 45.89, and 7.82, respectively. For BW gain in pregnant cows, the models for Ca, P, Mg, K, Na, and S were set as Net Cagain = 0.4168 × EBW0.7115 × EBGc; Net Pgain = 0.8441 × EBW0.4762 × EBGc; Net Mggain = 0.0492 × EBW0.4391 × EBGc; Net Kgain = 0.1738 × EBW0.5169 × EBGc; Net Nagain = 0.0284 × EBW0.7880 × EBGc; Net Sgain = 0.2530 × EBW0.7982 × EBGc, respectively. 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引用次数: 0

摘要

我们的目的是预测奶牛维持、体重增加和怀孕所需的大量矿物质。选取初始体重522±10.1 kg [mean±SD]、初始年龄5±0.5 yr、泌乳3次的非泌乳奶牛62头，分为妊娠组（n = 44）、非妊娠组（n = 12）和基线组（n = 6）。未授精的基线奶牛在试验开始时被收获，以确定初始体成分。妊娠组和非妊娠组分别按体重1.15%（接近维持水平）的自由采食和限制采食2种喂养方式。在妊娠140、200、240和270 d屠宰怀孕奶牛，在相应的时间间隔屠宰未怀孕奶牛，比较妊娠引起的矿物质增加。通过收集DMI、粪便和尿液，在妊娠第122、150、178、206、234和262个28 d期间测量全道消化率。对钙（Ca）、磷(P)、镁（mg）、钠（Na）、钾(K)和硫(S)的维持净需水量（mg/kg空体重）分别为13.48、8.35、4.06、10.07、45.89和7.82。对于妊娠奶牛增重，Ca、P、Mg、K、Na、S的模型设为净钙= 0.4168 × EBW0.7115 × EBGc；净Pgain = 0.8441 × EBW0.4762 × EBGc；Net Mggain = 0.0492 × EBW0.4391 × EBGc；净Kgain = 0.1738 × EBW0.5169 × EBGc；Net Nagain = 0.0284 × EBW0.7880 × EBGc；净Sgain = 0.2530 × EBW0.7982 × EBGc。妊娠净需要量估计数调整如下：净Capreg = 0.0042e0.02855×GD；Net Ppreg = 0.0042e0.02855×GD；Net Mgpreg = 0.0042e0.02855×GD；Net Kpreg = 0.0042e0.02855×GD；Net Napreg = 0.0042e0.02855×GD；Net Spreg = 0.0042e0.02855×GD。最后，我们提出了一种创新的方法来估计妊娠组织对大量矿物质的利用效率。每种矿物的利用效率（kpreg）建模为：Ca kpreg = 0.0004e0.0263×GD；P kpreg = 0.2974e0.0048×GD；Mg kpreg = 0.00006e0.0233×GD；K kpreg = 0.0003e0.0234×GD；Na kpreg = 0.0038e0.0200×GD；S kpreg = 0.0004e0.0199×GD。这些结果为奶牛对大量矿物质的需求提供了有价值的见解，并为评估怀孕期间的营养效率提供了创新的方法。

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Macromineral requirements for maintenance, body weight gain, and pregnancy of dairy cows.

We aimed to predict macromineral requirements for maintenance, weight gain, and pregnancy in dairy cows. In total, 62 nonlactating cows (initial BW of 522 ± 10.1 kg [mean ± SD], initial age of 5 ± 0.5 yr, and 3 lactations) were enrolled and assigned to 3 groups: pregnant (n = 44), nonpregnant (n = 12), and baseline (n = 6). Baseline cows, which were not inseminated, were harvested at the beginning of the trial to determine the initial body composition. Both pregnant and nonpregnant groups were then divided into 2 feeding treatments: ad libitum or restricted intake at 1.15% of BW (approximating maintenance). Pregnant cows were slaughtered at 140, 200, 240, and 270 d of gestation, and nonpregnant cows were slaughtered at corresponding intervals to compare mineral accretion due to pregnancy. Total-tract digestibility was measured in six 28-d periods (d 122, 150, 178, 206, 234, and 262 of gestation) by collecting DMI, feces, and urine. The net requirements of maintenance (mg/kg of empty BW) for calcium (Ca), phosphorus (P), magnesium (Mg), sodium (Na), potassium (K), and sulfur (S) were 13.48, 8.35, 4.06, 10.07, 45.89, and 7.82, respectively. For BW gain in pregnant cows, the models for Ca, P, Mg, K, Na, and S were set as Net Ca_gain = 0.4168 × EBW^0.7115 × EBG_c; Net P_gain = 0.8441 × EBW^0.4762 × EBG_c; Net Mg_gain = 0.0492 × EBW^0.4391 × EBG_c; Net K_gain = 0.1738 × EBW^0.5169 × EBG_c; Net Na_gain = 0.0284 × EBW^0.7880 × EBG_c; Net S_gain = 0.2530 × EBW^0.7982 × EBG_c, respectively. Estimates of net requirements of pregnancy were adjusted as follows: Net Ca_preg = 0.0042e^0.02855×^GD; Net P_preg = 0.0042e^0.02855×^GD; Net Mg_preg = 0.0042e^0.02855×^GD; Net K_preg = 0.0042e^0.02855×^GD; Net Na_preg = 0.0042e^0.02855×^GD; Net S_preg = 0.0042e^0.02855×^GD. Finally, we propose an innovative method to estimate the efficiency of macromineral utilization by gestational tissues. The efficiency of use (k_preg) for each mineral was modeled as: Ca k_preg = 0.0004e^0.0263×^GD; P k_preg = 0.2974e^0.0048×^GD; Mg k_preg = 0.00006e^0.0233×^GD; K k_preg = 0.0003e^0.0234×^GD; Na k_preg = 0.0038e^0.0200×^GD; S k_preg = 0.0004e^0.0199×^GD. These results provide valuable insights into macromineral requirements in dairy cows and offer innovative approaches to evaluating nutrient efficiency during pregnancy.

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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.