South Australian Research and Development Institute, Roseworthy, South Australia, Australia.
School of Veterinarian and Life Science, Murdoch University, Murdoch, Western Australia, Australia.
Theriogenology. 2017 Jul 1;96:42-48. doi: 10.1016/j.theriogenology.2017.03.026. Epub 2017 Mar 28.
With conventional lactation management, sows only conceive after weaning. However, intermittent suckling (IS) enables follicle growth and ovulation during lactation by reducing the suckling-induced inhibition of gonadotrophins. The current study evaluated IS regimes initiated at Day 21 or Day 28 post farrowing compared to conventional weaning on Day 28, in primiparous sows. Sows (Large White and Large White x Landrace) were randomly allocated to Control (C28; n = 44), IS21 (n = 29) and IS28 (n = 34) treatments at Day 20. Sows in IS21 and IS28 were subjected to intermittent suckling from Day 21 or Day 28 post farrowing. During IS, sows were separated from their piglets for 8 h daily, then weaned 7 d later at Day 28 and Day 35 respectively, whereas piglets in the C28 treatment had continuous access to sows until weaning at Day 28. Percentage of IS sows that showed oestrus during lactation was 59% (16/27) in IS21 and 72% (21/29) in IS28 (P > 0.05). Cumulatively over the lactation and 7 d post-weaning period, 93% of IS21, 85% of IS28 and 93% (31/33) of C28 sows showed oestrus (P > 0.05). Pregnancy rate at Day 30 post mating, for sows that were mated during lactation was 93% (15/16) in IS21 and 95% (20/21) in IS28, whereas C28 sows had a 96% (30/31) pregnancy rate (P > 0.05). No difference was found in the time of oestrus relative to weaning (C28) or onset of IS (IS21 and IS28) (P > 0.05). The IS sows that did not ovulate before weaning all showed oestrus within 7 days from weaning, and the weaning to oestrus interval was similar to control sows (P > 0.05). However, for all IS sows (across IS treatments) that showed lactational ovulation, LH secretion pattern at onset of IS was different (P < 0.05) from the sows that did not ovulate in lactation. Plasma progesterone concentration tended to be lower in the IS21 treatment (P < 0.10) compared to the C28 sows at 4 d after ovulation. The subsequent litter size was not affected by treatments although numerically lower for IS21 (P > 0.05). The present study showed that in modern primiparous sows, lactational oestrus can be induced and pregnancy can be maintained at a similar rate and producing comparable subsequent litter sizes to conventionally weaned sows when IS commenced at four weeks post farrowing. However, when IS commences at three weeks post farrowing, this may affect the percentage of sows showing oestrus in lactation and may potentially influence subsequent litter size.
采用传统的哺乳管理方式,母猪只有在断奶后才能再次怀孕。然而,间歇哺乳(IS)通过减少哺乳引起的促性腺激素抑制作用,使卵泡生长和排卵在哺乳期发生。本研究评估了在产后第 21 天或第 28 天与传统的第 28 天断奶相比,在初产母猪中实施的第 21 天或第 28 天开始的 IS 方案。母猪(长白猪和长白猪 x 兰德瑞斯猪)在产后第 20 天被随机分配到对照组(C28;n=44)、IS21(n=29)和 IS28(n=34)处理组。IS21 和 IS28 组的母猪从产后第 21 天或第 28 天开始接受间歇哺乳。在 IS 期间,母猪每天与仔猪分离 8 小时,然后在第 28 天和第 35 天分别断奶 7 天,而 C28 组的母猪在断奶前一直可以与仔猪接触。在哺乳期表现发情的 IS 母猪比例分别为 IS21 组的 59%(16/27)和 IS28 组的 72%(21/29)(P>0.05)。在哺乳期和断奶后 7 天期间,93%的 IS21 组、85%的 IS28 组和 93%的 C28 组(31/33)母猪出现发情(P>0.05)。在哺乳期交配的母猪,在配种后第 30 天的妊娠率分别为 IS21 组的 93%(15/16)和 IS28 组的 95%(20/21),而 C28 组的母猪妊娠率为 96%(30/31)(P>0.05)。发情相对于断奶(C28)或 IS 开始(IS21 和 IS28)的时间没有差异(P>0.05)。在断奶前没有排卵的 IS 母猪在断奶后 7 天内都出现发情,断奶至发情的间隔与对照组母猪相似(P>0.05)。然而,对于所有在哺乳期排卵的 IS 母猪(不论 IS 处理),IS 开始时 LH 分泌模式都不同(P<0.05)。与 C28 母猪相比,排卵后第 4 天,IS21 组母猪的血浆孕酮浓度有下降的趋势(P<0.10)。尽管 IS21 组的产仔数较低,但处理组之间的产仔数没有受到影响(P>0.05)。本研究表明,在现代初产母猪中,当 IS 在产后 4 周开始时,可以诱导哺乳期发情,维持妊娠的速度与传统断奶母猪相似,并产生类似的后续产仔数。然而,当 IS 在产后 3 周开始时,这可能会影响哺乳期发情的母猪比例,并可能对后续产仔数产生影响。
