Markland Lucy, Díaz Julia Adriana Calderón, Boyle Laura Ann, Pessoa Joana, van Staaveren Nienke
Pig and Poultry Research and Knowledge Transfer Department, Teagasc Animal and Grassland Research and Innovation Centre, Fermoy, Ireland.
School of Veterinary Medicine, University College Dublin, Dublin, Ireland.
Front Vet Sci. 2025 Mar 24;12:1523663. doi: 10.3389/fvets.2025.1523663. eCollection 2025.
Pigs perform damaging and aggressive behaviors, but few studies investigated associations between behaviors and resulting lesions in intensive settings. We investigated such associations within and across production stages to understand implications for welfare, and interpreted cut-off values of behavior for use as warning signals.
Four batches of 419 pigs each ( 1,676 pigs) were followed on arrival to a commercial grower-finisher unit at 12 weeks of age until slaughter. Pigs had docked tails, were managed according to routine practice and housed in 48 mixed-sex groups in eight rooms [35(±2) pigs/pen; 6 pens/room/batch]. Ear and tail lesions were assessed when pigs arrived to grower stage I [24.9 ± 5.33 kg of body weight (BW)], after 2 weeks when transferred to grower stage II (33.3 ± 7.04 kg BW), and after 4 weeks when transferred to the finisher stage (60.2 ± 7.74 kg BW; 18 weeks of age). All occurrences of damaging (ear, tail, and flank biting) and aggressive behaviors were recorded for 5 min per pen from the week after pigs arrived for 11 weeks.
High variability existed between pens for behaviors and percentage of pigs that developed new ear or tail lesions on arrival to grower II and finisher stage. There were significant correlations among the behaviors only within grower stage II (all behaviors: 0.65 ≤ r ≤ 0.80, < 0.05), while the only correlations across production stages were ear biting (grower II and finisher r = -0.29, < 0.05), flank biting (grower II and finisher r = 0.70, < 0.05), and aggression (grower I and II r = 0.37, < 0.05). This suggests a sensitive period during grower stage II but also that performance of behaviors changes over time. The frequency of ear and tail biting did not need to be high for new lesions to develop, but thresholds changed depending on stage, behaviors, and lesion type.
This underscores the intricacies in developing cut-off values for warning signals and may relate to the cumulative effect of different risk factors. Thus, early identification and multifaceted management strategies tailored to specific pens are needed to address behaviors with adverse implications for pig welfare. This highlights the challenges and complexities of improving pig welfare within current intensive production settings.
猪会表现出具有破坏性和攻击性的行为,但很少有研究调查集约化养殖环境中行为与由此产生的损伤之间的关联。我们研究了生产阶段内和不同生产阶段之间的此类关联,以了解其对猪福利的影响,并解读行为的临界值,用作预警信号。
四批猪,每批419头(共1676头猪),在12周龄抵达一家商业育肥场时开始跟踪,直至屠宰。猪进行了断尾处理,按照常规做法进行管理,饲养在八个房间的48个混合性别猪群中[每栏35(±2)头猪;每批每个房间6栏]。在猪进入生长阶段I时[体重(BW)为24.9±5.33千克]、转入生长阶段II两周后(体重33.3±7.04千克)以及转入育肥阶段四周后(体重60.2±7.74千克;18周龄)评估耳部和尾部损伤情况。从猪到达后的第一周开始,对每栏猪的所有破坏性(耳部、尾部和侧腹咬伤)和攻击性行为进行记录,持续11周,每周记录5分钟。
不同栏之间在行为以及进入生长阶段II和育肥阶段时出现新耳部或尾部损伤的猪的百分比方面存在很大差异。仅在生长阶段II内,行为之间存在显著相关性(所有行为:0.65≤r≤0.80,P<0.05),而不同生产阶段之间唯一的相关性是耳部咬伤(生长阶段II和育肥阶段,r=-0.29,P<0.05)、侧腹咬伤(生长阶段II和育肥阶段,r=0.70,P<0.05)以及攻击行为(生长阶段I和II,r=0.37,P<0.05)。这表明在生长阶段II存在一个敏感期,但行为表现也会随时间变化。新损伤的出现并不需要耳部和尾部咬伤频率很高,但临界值会因阶段、行为和损伤类型而有所不同。
这凸显了制定预警信号临界值的复杂性,可能与不同风险因素的累积效应有关。因此,需要早期识别并针对特定栏制定多方面的管理策略,以应对对猪福利有不利影响的行为。这突出了在当前集约化生产环境中改善猪福利的挑战和复杂性。
