Effects of Pregnancy and Lactation Environments on Postures of Primiparous Sows During Lactation
Effects of Pregnancy and Lactation Environments on Postures of Primiparous Sows During Lactation
Guoan Yin1,2, Lei Wang1, Xiaoyu Zhao1, LangchaoYu1, Liwei Guan1 and
Dapeng Huang1,2*
1College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University, Daqing, 163319, China
2Heilongjiang Key Laboratory of Efficient Utilization of Feed Resources and Nutrition Manipulation in Cold Region, Daqing, 163319, China
ABSTRACT
Environment can affect sows behavioral pattern by creating their physiology and psychology imbalances, and postpartum behavioral pattern of sows is related closely with piglet mortality. However, few studies have focused on effects of pregnancy and lactation environments on Postures of primiparous sows during lactation. This study has investigated the postures of lactating primiparous sows raised in the crates or free pens during pregnancy and lactation. Total 12 gilts were reared in three types of environments randomly during pregnancy and lactation, including gestation pens and farrowing crates (PC), gestation pens and farrowing pens (PP), or gestation crates and farrowing crates (CC). Postures of sows were recorded by monitoring equipment on the 1st to 3rd day of 1-4 week after farrowing, the duration of postures was analyzed, including lateral lying, ventral lying, sitting, and standing. Gestation crates can encourage sow’s sitting behaviour during the first week of postpartum (P=0.032), farrowing crates could increase sow’s lateral lying during 1-4 weeks of postpartum (P=0.001), while the sows reared in farrowing pens performed more ventral lying and standing than farrowing crates (P=0.002; P=0.001, respectively). The restricted pregnancy environments could increase sitting and standing of lactating sows. The restricted lactating environments could prolong the lateral lying and sitting, and decrease the ventral lying and standing of lactating sows.
Article Information
Received 28 June 2019
Revised 13 August 2019
Accepted 21 December 2019
Available online 06 March 2020
Authors’ Contribution
GY and DH conceived and designed the study. XZ, LW, LY and LG performed the experimental work. GY and LW analyzed the data and wrote the manuscript.
Key words
Gilts, Postures, Crates, Pens, Rearing environment
DOI: https://dx.doi.org/10.17582/journal.pjz/20191119081134
* Corresponding author: [email protected]
0030-9923/2020/0003-1079 $ 9.00/0
Copyright 2020 Zoological Society of Pakistan
INTRODUCTION
Farrowing crates as the most common production systems have been widely used in modern swine industry of many countries, in order to decrease piglet’s mortality due to crushing and improve space utilization of house. As crates system has received increasing criticism due to impaired the welfare of sows (Hemsworth, 2018), the gestation crates have been gradually replaced by free pens in many countries. Sows have strong motivation to express several natural behaviors, but always being restricted in crates due to barren environment and lack of space (Hemsworth, 2018; Johnson et al., 2001). Confining pregnancy sows in crates, always cause it chronic physiological and psychological stress. Researches show that, long-term feed in restrictive environment, sows would show a course of stereotypies like bar-biting, sham-chewing, excessive-drinking as a response to maladaptive environment, sows even performed some abnormal maternal behavior in long-term restrictive and barren situation (Hemsworth, 2018; Chapinal et al., 2010; Puterflam et al., 2006; Oliviero et al., 2008; Alakurikka et al., 2017). Besides the effects on gestation sow’s physiology and behavior under environmental stress would manifest more bio-markers of physiological stress such as salivary cortisol and change the pattern or frequency of behavior during lactation (Merlot et al., 2013). Johnson et al. (2001) found that sows among restrictive environment showed more lying and drinking behavior, fewer standing and walking behavior than those among loose environment. Long-term restrictive situations also increase the risk of lameness in sows, and pain or lameness-related sickness could be expected to make their body postures hard to convert (Csermely, 1994). Therefore, animal behavioural parameters can be used as an indicator among evaluation index system of house environment and the welfare of animals (Temple et al., 2011; Ringgenberg et al., 2010).
To some extent, the effects of environment on animals’ physical body and physiology can be reflected through their behaviors (Alakurikka et al., 2017), such as lateral lying, ventral lying , sitting and standing or walking which are usual body postures of sows during lactation. lateral lying is the sign for piglets’ access to massage the udder and stimulate milk securely (Pedersen et al., 2003), sows show more lateral lying for better actations and reduce the piglet mortality due to crushing during lactation (Hales et al., 2016) and lateral lying is the optimal posture for sows to rest (Woodgush and Beilharz, 1983), so it plays an important role in piglets survival during lactation (Pedersen et al., 2003). Common knowledge is that sows change posture into ventral lying or standing as their main manner for refuse lactation. So the frequency of ventral lying or standing increase means the lactation motivation of sows is decreasing. Sitting is the intermediate step between ventral lying and standing, the frequency of sitting is positive correlation with piglets mortality due to crushing (Mcglone and Morrowtesch, 1990). Sows would show more change between lying and sitting in loose environment during lactation, which will increase the risk of crushing to piglets.
The behavior of primiparous sows is vulnerable to house environment, and express abnormal behaviors, due to the inexperience of farrowing (Vanheukelom et al., 2012). So it is crucial to provide suitable environment for sows during pregnancy and lactation respectively. The aim of this study was to compare the posture distribution of sows between pregnancy environments and lactation environments combinations after farrowing, hoping to improving the welfare by constantly optimize sows’ house design.
MATERIALS AND METHODS
Animals, treatments, management and feeding
All experiments were approved by the Animal Ethics Committee of College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University.
The experiments were carried out in a commercial herd between September and December 2018, a total of 12 cross breeding gilts (Yorkshire × Landrace) were selected after confirmed pregnancy, and all sows were fed in three types of crates or pens combination randomly during pregnancy and lactation (4 sows each), including gestation pens and farrowing crates combination group (control PC group), gestation pens and farrowing pens combination group (Treatment PP group), gestation crates and farrowing crates combination group (Treatment CC group). Gilts were housed in gestation crates or group-housed in gestation pens from 21 days after mating to 7 days before expected date of delivery, and then all gilts were transferred from the pregnancy house to the farrowing house and fed in farrowing crates (Treatment CC group; Treatment PP group) or farrowing pens (Control PC group). Sows were fed 3 times each day (06:00, 10:00 and 17:00), the house was cleaned and changed straw after morning feed every day, sows were fed by complete formula feed with a suitable amount (NRC, 2012). Other management standard, immune procedures and disease treatment refer to the uniform standard of this pig farm.
Housing environment
The gestation pens measured 3.2 m×3.2 m and had cement floor with a slope of 5 to allow drainage, it was divided into three parts including lying area, dunging area and feeding area. The wall of gestation pens was surrounded by concrete walls or metal bar with a height of about 1.2m, the ground of lying area was covered with about 100 mm thickness straw, feeding area had equipped four individual open feeding stalls, dunging area had been installed with slatted flood, the planar graph showing the design features the gestation pens was shown in the Figure 1. The gestation crates measured 2.1 m×0.6 m, the ground of gestation crates consisted of a concrete floor with slatted dunging area in the rear, beyond that gestation crates ground was not straw covered.
The gestation crates and gestation pens were located in the same pregnancy house, both are equipped with the same type of drinker.
The farrowing pens measured 3.5 m×2.0 m, in which sows could move freely, the wall of farrowing pens was surrounded by 4 PVC board with about 0.5 m height, the
Table I. The behaviors categories and their definitions.
Behaviors categories |
Definitions |
Lateral lying |
Lying down with one shoulder making contact with the floor. |
Ventral lying |
Lying down with chest and abdomen making contact with the floor and front Legs stretched or folded under the body. |
Sitting |
Partly erected on stretched front legs with hindquarter contacting the floor. |
Standing |
Keeping an upright body postures with hooves contacting the floor only, with locomotion or motionless. |
Some behavioral parameters and their definitions are from (Yin et al., 2016).
ground of farrowing pens was aboved a solid concrete floor and covered with about 100 mm thickness straw, the planar graph showing the design features the gestation pens was shown in the Figure 2.
The farrowing crates measured 2.1 m×1.8 m, in which ground was not straw covered, the stall of sows was located in the middle of farrowing crates with 0.6 m width.Farrowing pens and farrowing crates were located in the same farrowing house; both were equipped with a piglet creep, different nipple drinker system for piglets or sows, a piglet nursery box with a heat lamp, a creep feeder and feeder for sows.
Behaviour recording and analysis
All sows were monitored by monitoring equipment (Cloudsee JVS-H411-H1, Jinan, China) from the 1st to 4th week of lactation continuously, the monitoring equipment mounted above the pens or crates. From 00:00 to 23:59 on the 1st to 3rd day of each week videotaping was conducted for observing each posture duration. The behavior duration longer than 5s was considered as valid, otherwise invalid. All postures were observed as definitions in Table I. All behavior data was converted into percentages and conformed to the normal distribution before being analyzed with One-Way ANOVA (IBM SPSS statistics 22.0).
RESULTS
Lateral lying
As shown in Table II, PC sows spent more time on lateral lying than CC sows during 1-4 weeks postpartum, but not significantly (P>0.10). Lateral lying was influenced by lactation environment. PP sows spent less time (P=0.001) engaged in lateral lying than PC sows during 1-4 weeks postpartum. However, there was no difference (P=0.229) in lateral lying between PP and PC sows at 1st week postpartum, while the lateral lying time was significantly different between PP group and PC group at the 2nd, 3rd or 4th week (P=0.005; P=0.001; P=0.006, respectively).
Table II. Lateral lying distribution (%).
Times |
PC group |
CC group |
PP group |
SE |
Gestation environment |
Lactation environment |
W1 |
85.62 |
81.26 |
79.83 |
4.48 |
P=0.356 |
P=0.229 |
W2 |
74.89 |
63.22 |
49.06 |
7.10 |
P=0.135 |
P=0.005 |
W3 |
67.13 |
61.97 |
38.54 |
6.13 |
P=0.422 |
P=0.001 |
W4 |
70.83 |
58.88 |
55.01 |
10.13 |
P=0.272 |
P=0.006 |
W1-4 |
74.62 |
67.07 |
50.09 |
4.15 |
P=0.103 |
P=0.001 |
Note: The significant level is P<0.05 and the extremely significant level is P<0.01
Ventral lying
As shown in Table III, Pregnancy environment had no significant influence (P>0.05) on ventral lying of lactating sows. Sows’ ventral lying in lactation was influenced by lactation environment. PP sows spent more time (P=0.001) engaged in ventral lying than PC group during 1-4 weeks postpartum. Although the lying duration of PP sows was greater than PC group in each week, there was only significant difference at 2nd week postpartum (P<0.05).
Table III. Ventral lying distribution (%).
Times |
PC group |
CC group |
PP group |
SE |
Gestation environment |
Lactation environment |
W1 |
9.71 |
9.3 |
11.46 |
3.83 |
P=0.918 |
P=0.657 |
W2 |
17.91 |
16.45 |
41.66 |
10.04 |
P=0.888 |
P=0.042 |
W3 |
21.25 |
28.85 |
38.75 |
8.18 |
P=0.377 |
P=0.061 |
W4 |
21.66 |
14.1 |
36.14 |
9.46 |
P=0.451 |
P=0.137 |
W1-4 |
17.63 |
17.51 |
32.08 |
3.40 |
P=0.972 |
P=0.002 |
Note: The significant level is P<0.05 and the extremely significant level is P<0.01
Sitting
As shown in Table IV, sitting of CC sows was significant longer than PC sows, but only significant in the first week postpartum (P<0.05). The Lactation environment had no significant influence (P>0.05) on sitting of lactating sows.
Table IV. Sitting distribution (%).
Times |
PC group |
CC group |
PP group |
SE |
Gestation environment |
Lactation environment |
W1 |
0.83 |
3.54 |
0.81 |
1.06 |
P=0.032 |
P=0.983 |
W2 |
1.56 |
2.6 |
1.25 |
0.89 |
P=0.276 |
P=0.736 |
W3 |
2.81 |
2.91 |
2.08 |
1.20 |
P=0.933 |
P=0.560 |
W4 |
1.51 |
1.25 |
1.77 |
1.29 |
P=0.846 |
P=0.834 |
W1-4 |
1.67 |
2.72 |
1.47 |
0.84 |
P=0.250 |
P=0.828 |
Note: The significant level is P<0.05 and the extremely significant level is P<0.01
Standing
As shown in Table V, standing of CC sows was longer than that of PC group in each week of postpartum, but only significantly at 4th week postpartum (P<0.05). Location environment also had influence on sitting: PP sows spent more time in standing than PC sows during location (P<0.05), but not significantly at the 1st week (P>0.05).
Table V. Standing distribution (%).
Times |
PC group |
CC group |
PP group |
SE |
Gestation environment |
Lactation environment |
W1 |
3.95 |
5.89 |
8.07 |
2.11 |
P=0.328 |
P=0.083 |
W2 |
6.66 |
12.81 |
17.7 |
3.58 |
P=0.121 |
P=0.013 |
W3 |
7.86 |
12.08 |
20.6 |
3.49 |
P=0.258 |
P=0.037 |
W4 |
6.04 |
18.19 |
25.83 |
5.06 |
P=0.043 |
P=0.003 |
W1-4 |
6.13 |
11.45 |
18.06 |
2.54 |
P=0.066 |
P=0.001 |
Note: The significant level is P<0.05 and the extremely significant level is P<0.01
DISCUSSION
The result of present study showed that sows in loose gestation environment express more lateral lying during lactation than those in restricted gestation environment, but not significantly. Lateral lying of lactating sows provides a warm and comfortable micro environment to piglets, and increases udder accessibility (Ringgenberg et al., 2010). Thus, loose gestation environment might reduce the mortality of piglets.
Studies showed that the mortality of piglets in loose pens was higher than that in crates (Hales et al., 2014; Weber et al., 2009), thus restricted lactation environments are considered beneficial to piglet welfare (Blackshaw et al., 1994). However some natural behaviors of sows are forbidden, particularly nesting behavior, thus the crates could cause the chronic stress in sows progressively with the time of restriction (Singh et al., 2017; Illmann et al., 2016; Moustsen et al., 2013). In general, loose environment could keep sows in a ‘semi-natural’ habitat, which allow sows to perform their normal behavior pattern, sows also showed more lateral lying in loose environment during lactation in present study. But Increasing sow’s activity space by changing the size and shape of the pens, Lou and Hurnik (1998) found no difference in lateral lying between loose pens and restricted crates during lactation. In our study, there was no effect of the gestation environments on sows’ lateral lying during lactation, which may be partially due to the time in restricted crates has been short.
Farrowing pens had increased the duration of ventral lying and standing in sows during 1-4 weeks postpartum significantly. Because of increased teat massage of piglets in the farrowing pens, sows perform ventral lying, standing or walking to avoid piglets. Thus ventral lying and standing/walking can be deemed as the signal of sows’ refusal to breastfeed. Chidgey et al. (2016) found that sows express more standing/walking and less lying in farrowing pens at 1-6 days postpartum. Standing is often expressed along with other behaviors, such as nose-nose contacting, pen-directed behavior or drinking behavior. The loose lactation environment provide enough space for lactation sows to move freely, and gives sows more freedom to start and stop breastfeeding willingness, so loose lactation environment had improved the welfare of sows.
Farrowing crates had increased the total duration of sitting during 1-4 weeks postpartum. The increased sitting might be associated with the result of chronic stress on sows caused by long-term restrictive or barren situations. Oliviero et al. (2008) found that sows fed in crates had a higher level of cortisol than that in the pens. Previous studies also showed that sows housed in gestation crates showed more sitting than those in loose pens during pregnancy or lactation (Yin et al., 2016; Weng et al., 2009; Bolhuis et al., 2018). The over-expression of sitting might be due to the space provided for the animal is too small or simple and barren housing situation, and sitting was often accompanied by sham-chewing, which was regarded as an symptom of depression and indicated a state of stress of sows, and sitting could be used to evaluate the mental status of sows (Wemelsfelder, 1993; Petersen et al., 1995). Besides, increasing sows’ sitting may lead to more postures changing which was positively correlated with the crushing of piglets.
CONCLUSIONS
The gestation crates could promote sows anxiety and stress, sows showed more sitting and standing after farrowing. Sows express more lateral lying and sitting in farrowing crates, but more ventral lying and standing in farrowing pens. To some extent, farrowing crates reduce the risk of piglet’s mortality due to crushing.
ACKNOWLEDGEMENT
This project was supported by University Nursing program for Young Scholars with Creative Talents in Heilongjiang (UNPYSCT-2017107), National Natural Science Foundation of China (31402114) and Heilongjiang Bayi Agricultural University Support Program for San Heng San Zong (TDJH201804).
Statement of conflict of interest
The authors declare no conflict of interest in this study.
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