The objective was to evaluate suckling performance and behaviour
traits of gilts and piglets in two different single-housing farrowing systems
under practical conditions. Performance data of 70 crossbred gilts and their
842 piglets were collected. The behavioural observation included 17 gilts and
211 piglets. Gilts of the control group (full-time crating, FTC) were fixed
during farrowing and suckling (Pro Dromi® 1), and in the
experimental group (short-time crating, STC) gilts were fixed for 6 days
postpartum (p.p.) only (Pro Dromi® 1.5). Six farrowing crates
were included in each group, and six replications were carried out.
Performance data were collected and gilts' and piglets' behaviour was
observed with 10 min scan samples and categorized by standing, walking (only
in STC), sitting and lying (side and belly). The management and the housing
systems were in accordance with the Tierschutz-Nutztierhaltungsverordnung
(TierSchNutztV, 2017). No significant (
It was possible to conclude that gilts' welfare was improved by STC compared to FTC, and farrowing crates with loose single housing did not lead to higher piglet loss in the suckling period. An earlier end of the fixation period of the gilt at day 2 or 3 p.p. should be tested.
During gestation sows must have the opportunity to move freely in a group of companions according to German legislation (TierSchNutztV, 2017). But in the suckling period sows are still kept on their own and full time in crates. This is not in accordance with a sow's behaviour under natural conditions. Sows live in a herd and leave the group approximately 24 h before farrowing (Jensen, 1986). On average 10 days postpartum (p.p.), sows return together with their piglets to the group and mix with it (Jensen and Redbo, 1987; Pitts et al., 2000). Hence, single housing is in accordance with the needs of a sow around farrowing (Von Borell et al., 2002), but fixation in crates during the whole suckling period is not related to sows' welfare (Baxter et al., 2011). Hence, short-time crating (STC) could be a possible alternative to the present commercial practice of full-time crating (FTC) (Bünger, 2002; Weber et al., 2009).
Studies from Bohnenkamp et al. (2013) showed that suckling duration was similar in single and group housing. But other studies concluded that loose single housing or even group housing led to higher piglet loss due to crushing (Damm et al., 2005; Danholt et al., 2011; D'Eath, 2005; Maletinska and Spinka, 2001).
The aim of the present study was to evaluate suckling performance and behaviour of gilts and piglets in two different single-housing farrowing systems under practical conditions.
The present investigation was performed in a newly built barn for 550 sows in the northern part of Germany, and it was not organized according to the rules of organic farming. The trial period lasted from February to May 2015, and it was possible to include BHZP (Bundes Hybrid Zucht Programm) Viktoria gilts mated to db77 boars. The gilts of the control group experienced FTC, which means conventional single housing. It was possible to include six farrowing crates, and gilts were fixated from 48 h prior to farrowing till weaning (Pro Dromi® 1). In the trial group, STC was practised and the gilts were fixated from 48 h prior to farrowing till the sixth day of suckling (Pro Dromi® 1.5). Six farrowing crates were a part of the investigation.
The single pens were identical in construction with an area of 6.5 m
The housing systems and the management used in the present study were in accordance with the Tierschutz-Nutztierhaltungsverordnung (TierSchNutztV, 2017).
It was possible to analyse performance data of 70 gilts (first parity) and 842 piglets. Behavioural observations of 17 gilts and 211 piglets were performed.
Birth weight was measured 1 day after the main farrowing day and at the end of the first and second week of suckling. The final weight was recorded at day 18 p.p.
Behavioural parameters were recorded on video (Mobotix, 2017) with the scan
sampling method (Hoy, 2009) on day
Mean (SD as index; minimum and maximum in parenthesis) for fertility traits of gilts across the two housing systems.
LSQ (least-square) mean (SE as index; minimum and maximum in parenthesis) for growth traits of piglets across the two housing systems.
LSQ mean (SE as index) for behaviour of gilts across the two housing systems.
Statistical analysis was performed with the statistical software package
IBM SPSS, Version 22.0 (IBM Corp., 2013). The statistical model of
the piglets' performance traits and of behavioural observations of piglets
and gilts included fixed effects as shown below. The model of the traits of
gilts performance obtained the fixed effect of the housing system only.
As shown in Table 1 the number of piglets born alive did not differ between FTC and STC, with 13.2 and 13.9, respectively. About one piglet was born dead per farrow, and the loss of piglets was low, with 1.4 in FTC and 1.6 in STC. The percentage of piglet loss due to crushing was the same in both systems and the proportion of lost piglets did not vary significantly (between 9.8 (FTC) and 10.2 (STC)). In STC only 1 out of a total of 21 piglets killed due to crushing were lost after the sixth day of suckling, the last day of gilts' fixation.
In STC, birth weight was lower than in FTC, but there was no difference in live weight at the 18th day p.p. between both housing systems (Table 2). Because of a significantly higher daily gain in week 2 and 3, STC piglets had a significantly higher daily gain during the suckling period with 205 g compared with FTC piglets reaching 199 g.
Focusing on the lying behaviour, no significant differences were found between FTC and STC (Table 3). Gilts were lying on their side 57 % (FTC) and 55.9 % (STC) and on their belly 22.5 % (FTC) and 23.4 % (STC) of the total observation time. In FTC gilts spent a higher time period sitting (5.8 %) than gilts in STC (4.0 %). The difference was statistically significant. Neither in standing nor in suckling behaviour were significant differences found between the two systems (Table 3).
Piglets' behaviour differed between the two systems as shown in Table 4. FTC piglets showed significantly higher lying, sitting and standing frequencies. STC piglets spent significantly more time in their nest (61.6 %) than piglets in FTC (55.9 %). The observed differences in suckling behaviour between FTC and STC were not significant (Table 4).
The investigation took place in a newly built barn with a capacity of 550 sows, and it was not organized according to the rules of organic farming. So the circumstances differed from the usual ones when short-time crating in single housing or even group housing during farrowing and suckling was practised.
The number of piglets born alive in the present study was 13.2 and 13.9 and was a bit higher than the number of 13.0 observed in German commercial herds (ZDS, 2013). The total loss was 9.8 and 10.2 % and was lower than reported in German commercial herds (14.5 %; ZDS, 2013). Baumgartner (2011) showed a live-born piglet mortality between 12.6 and 17.2 % in eight European countries (CH, DK, GE, NL, SE, UK, NO, AT). Hence, it was possible to conclude that the circumstances of the present investigation represented well-managed commercial herds.
The loss of piglets due to crushing was less than half of all loss, and it was the same in both systems (FTC, STC). Jungbluth et al. (2005) concluded that 60 % of all loss was caused by crushing. With 4.2 % (FTC) and 4.3 % (STC) crushed piglets in similar systems, Soede et al. (2014) had nearly the same results as the present study. By contrast with these results, Weber et al. (2007) found higher loss due to crushing in loose single housing (5.4 %) than in FTC (4.5 %). Even Damm et al. (2005), Danholt et al. (2011), D'Eath (2005), and Maletinska and Spinka (2001) found higher loss due to crushing in loose single and even group housing.
LSQ mean (SE as index) for behaviour of piglets across the two housing systems.
One reason for the low crushing loss in STC in the present study could be that piglets spent about 60 % of the observed time in the nest. This could be due to the construction of the Pro Dromi® system were the piglets' nest was located in front of the head of the gilt and piglets could keep contact with their mother. Further, the jute bag used by the gilt to show nesting behaviour was put into the piglets' nest which made it more attractive for the piglets. Possibly this management led to a strong mother offspring bond.
Only 1 of 21 piglets was lost after ending the fixation of the gilt at day 6 p.p. This led to the conclusion that the ending of fixation at an earlier stage of suckling must not necessarily lead to higher loss. Research should be intensified to optimize STC systems.
In the present study suckling frequencies were a bit lower in STC, but the
difference was not significant. The study of Bohnenkamp et al. (2013)
confirmed this result because they found no differences in suckling
frequencies between FTC and STC. Although the suckling frequencies were similar from
a statistical point of view and the birth weight was higher in FTC,
in the second and third week the daily gain of piglets was significantly
higher in STC compared to FTC. This is in accordance with Soede et
al. (2014), who found a significantly higher daily gain in STC (250 g day
Hence, piglets' welfare was not negatively influenced by STC, where the gilt has more opportunities to move than in FTC. Gilts showed sitting behaviour less often, which might lead to the conclusion that gilts' welfare was improved by STC compared to FTC.
We conclude the following:
The loss of piglets due to crushing was not significantly higher in STC
compared to FTC. The daily gain of piglets was slightly higher when gilts were fixated for a
short time compared to full-time crating. Sitting behaviour occurred more often in FTC, and it was possible to conclude that
gilts' welfare was adversely influenced. No differences between FTC and STC were found in suckling frequency, and a
higher moving activity of piglets could be observed in STC.
Data are available on request from the corresponding author.
The authors declare that they have no conflict of interest.