高产泌乳母猪饲粮中赖氨酸的最适需要量 1。
Optimal lysine in diets for high-yielding lactating sows1.
机构信息
SEGES Danish Pig Research Centre, Copenhagen, Denmark.
Department of Animal Science, Aarhus University, Tjele, Denmark.
出版信息
J Anim Sci. 2019 Oct 3;97(10):4268-4281. doi: 10.1093/jas/skz286.
The objective of the current study was to determine the optimal concentration of dietary standardized ileal digestible (SID) Lys required to maximize litter gain and minimize sow BW loss in modern high-yielding lactating sows when SID CP was kept constant across dietary treatments. A total of 396 parity 1 to 5 sows (L × Y, DanBred, Herlev, Denmark) were included in the study from day 3 after farrowing until weaning at day 26. Sows were allocated to 6 dietary treatments increasing in SID Lys concentration (6.19, 6.90, 7.63, 8.33, 9.04, and 9.76 g/kg). Diets were isoenergetic (14.04 MJ ME/kg as-fed). Litters were standardized to 14 piglets at day 3 ± 2 d postpartum. At day 3 ± 2 d and at day 26 ± 3 d in lactation, litter weight, and sow BW and back fat were registered. On a subsample of 72 parity 2 to 4 sows, litters were additionally weighed at days 10 and 17 ± 3 d, and milk and blood were sampled at day 3 ± 2 d, and 10, 17 and at 24 ± 3 d in lactation. For the 72 sows, body pools of fat and protein were also determined at days 3 ± 2 and 26 ± 3 d using the D2O dilution technique. All data were analyzed as a randomized complete block design using PROC MIXED in SAS. Furthermore, data were subjected to linear and quadratic polynomial contrasts. Variables with quadratic or linear effects or days in milk × treatment interactions were selected for analysis in PROC NLMIXED using linear broken-line models to evaluate optimal SID Lys concentrations. Only models that converged and the best fitting models were included. Average daily litter gain increased until a breakpoint at 8.11 g/kg of SID Lys (as-fed). At and above the breakpoint, multiparous and primiparous sows had litter gains of 3.36 and 2.93 kg/d, respectively. Weaning litter size (13.0 ± 0.1) was similar between the 6 dietary treatments (P = 0.28). Lactation sow BW loss was minimized to 0.17 kg/d at 9.05 g/kg of SID Lys and sow body protein loss was minimized to 0.23 kg at 9.22 g/kg of SID Lys. Linear broken-line analyses showed that for 3, 10, 17, and 24 DIM, plasma urea was minimized at 7.02, 8.10, 8.73, and 8.32 g/kg of SID Lys, respectively, and milk fat was maximized at 7.80 g/kg of SID Lys. In conclusion, in our conditions, high-yielding lactating sows required 8.11 g/kg of SID Lys to maximize litter gain and 9.05 g/kg of SID Lys to minimize sow BW loss. Based on plasma urea, the optimal dietary concentration of SID Lys was lowest in week 1, intermediate in week 2 and 4, and greatest in week 3 of lactation.
本研究的目的是确定饲粮中可消化色氨酸(SID Lys)的最佳浓度,以最大限度地提高窝增重并最小化现代高产泌乳母猪的体重损失,同时保持饲粮SID CP 不变。共有 396 头初产至 5 胎的母猪(L × Y,丹麦丹育公司,赫勒夫)参与了本研究,从分娩后第 3 天至第 26 天断奶。母猪被分配到 6 种饲粮处理组,SID Lys 浓度逐渐增加(6.19、6.90、7.63、8.33、9.04 和 9.76 g/kg)。饲粮的能量水平相同(14.04 MJ ME/kg 干物质)。产后第 3 天,每窝仔猪数量标准化至 14 头±2 头。在泌乳的第 3 天±2 天和第 26 天±3 天,记录窝重、母猪 BW 和背脂。在 72 头 2-4 胎次的母猪亚组中,在泌乳的第 10 天和第 17 天±3 天,还额外记录了窝重,在泌乳的第 3 天±2 天、第 10 天、第 17 天和第 24 天±3 天,还采集了乳样和血样。对于这 72 头母猪,在第 3 天±2 天和第 26 天±3 天使用 D2O 稀释技术还测定了体脂肪和体蛋白质的体池。所有数据均采用 SAS 中的 PROC MIXED 作为随机完全区组设计进行分析。此外,还对具有二次或线性效应或泌乳天数×处理相互作用的变量进行了分析,使用 PROC NLMIXED 中的线性折线模型进行分析,以评估最佳 SID Lys 浓度。只包括收敛和拟合最好的模型。随着 SID Lys 浓度的增加,窝日增重呈线性增加,直到达到 8.11 g/kg 的拐点。在该拐点之上,经产和初产母猪的窝日增重分别为 3.36 kg/d 和 2.93 kg/d。6 种饲粮处理间(P=0.28)断奶窝重(13.0±0.1)相似。在 SID Lys 浓度为 9.05 g/kg 时,泌乳母猪 BW 损失最小化至 0.17 kg/d,在 SID Lys 浓度为 9.22 g/kg 时,母猪体蛋白质损失最小化至 0.23 kg。线性折线分析表明,在第 3、10、17 和 24 天泌乳时,血浆尿素氮分别在 SID Lys 浓度为 7.02、8.10、8.73 和 8.32 g/kg 时最低,乳脂含量在 SID Lys 浓度为 7.80 g/kg 时最高。综上所述,在我们的条件下,高产泌乳母猪需要 8.11 g/kg 的 SID Lys 来最大限度地提高窝增重,需要 9.05 g/kg 的 SID Lys 来最小化母猪 BW 损失。基于血浆尿素氮,SID Lys 的最佳饲粮浓度在泌乳第 1 周最低,第 2 周和第 4 周居中,第 3 周最高。
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