In any sow herd, the design of the farrowing unit is an essential issue for economic and productive success. It includes many factors ranging from the number of places, the size of the rooms, the size of the sites, the crates, the floor, the heating, the ventilation, etc.
This article will explain the different types of farrowing units and farrowing crates.
In any sow herd, the design of the farrowing unit is an essential issue for economic and productive success. It includes many factors ranging from the number of places, the size of the rooms, the size of the sites, the crates, the floor, the heating, the ventilation, etc.
This article will explain the different types of farrowing units and farrowing crates.
The farrowing unit
The farrowing unit is one of the most critical parts of a herd, mainly because it is the most expensive building.
It must be designed considering that it should provide comfort for the sow and the newborn piglets (one of the essential items are the temperature requirements) and accommodate the staff during management procedures.
Types of farrowing crates
Most of the sows are housed in crates approximately five days before farrowing and until the weaning of the piglets, at around 28 days of age. The primary purpose of the farrowing crate (first introduced in the 1960s) was to reduce the risk of the sow crushing her piglets.
The confinement of animals in cages receives significant criticism from public opinion, and the industry is moving towards innovative housing for farrowing sows.
There are different types of farrowing crates depending on the sow's confinement level, and each kind has its advantages and disadvantages.
Conventional types of farrowing crates
Conventional farrowing crates are economical, efficient, and safe, maximizing piglet survival as the primary objective. However, they pose welfare problems for the sows and piglets.
Within the classic farrowing cages, you can bet on crates with:
Another critical part of the design of classic farrowing crates is the addition of an anti-crush internal swing bar. It is essential to prevent the sow from lying down suddenly, crushing her piglets.
As we said, the main disadvantage of this type of farrowing crate is welfare problems. There is:
Temporary confinement farrowing crates
The sow can turn around, but movement can be temporarily restricted during the hours around farrowing.
Individual "zero confinement" farrowing crates
The sow is housed individually and is not caged at any time. Single farrowing pens resemble conventional farrowing crates but without the box and with some facility features to protect the piglets. Designed pens are more elaborated and larger, allowing the sow to separate the defecation and resting areas. In addition, they provide a design that facilitates the change of posture of the sow.
Kinane et al. (2022) concluded that "zero confinement" farrowing crates can:
The main disadvantage of this kind of crate is the vulnerability of neonate piglets. As the sow can move more freely, it risks crushing her piglets if her movements are not delicate, so the piglets must be well protected. The sow is exhausted during farrowing and is still in pain for several hours after farrowing.
Farrowing Crate and litter performance
Depending on the type of farrowing crate, productive parameters such as piglet growth and neonatal mortality can be affected, as we have already mentioned when talking about the advantages and disadvantages of each of them.
Mortality
Piglet mortality is one of the top concerns of farmers and veterinarians. During lactation, there are a lot of causes that increase piglet mortality in the farrowing unit, but the most important is crushing.
Hales et al. (2015) conducted a study to determine the effect of confinement from day 114 of gestation and the first four lactation days on farrowing progress and piglet survival. They concluded that confinement did not affect farrowing progress, but reduced piglet mortality compared to loose-housed sows.
Moreover, Yun et al. (2019) determined that immediate postnatal piglet mortality, mainly due to crushing, may be associated with potential increases in the frequency of postural changes, duration of standing, and incidence of trapping in the open crate system.
On the other hand, Nicolaisen et al. (2019) attributed piglet crushing that occurred during the first three days after birth to piglet behavior because the first 72 h postpartum was characterized by sow inactivity. But they also concluded that temporary confinement after birth could be a practical compromise for sows' and piglets' welfare.
Disease
Among the multiple infectious causes of pre-weaning piglet mortality, scours (caused by viruses, bacteria, parasites, or a combination) are the most significant.
But there are also aspects related to the facilities that can be the origin of disease in piglets that causes an impact on litter performance.
One of these aspects is the floor. Zoric et al. (2008) observed that the most severe abrasions at carpus and soles were seen in the system with a new solid concrete floor and a slatted floor over the dunging area. Moreover, they concluded that peat provides a soft and good bed for piglets.
Types of farrowing units
Scientific articles published about free farrowing systems are becoming more frequent every day. However, the practical implementation of these systems can raise doubts and concerns, especially relevant in areas with a hot climate where heat stress can be a problem.
Conventional farrowing unit with crates
As we said, the crate is designed to restrain the sow to limit her posture changes and movements. But, for welfare reasons, other systems were designed to allow the sow greater freedom of movement within the existing footprint of a conventional crate space.
In this kind of farrowing unit, a question to address is: should the sows be housed facing the wall or the corridor?
With a sow facing the wall and back corridor, it is easier to control the farrowing, and, in case of need for assistance, it will work more comfortably and safely and is easier to clean. On the contrary, to access the feeder, we must enter each time in the farrowing area, with the consequent increase in time and risk of disease transmission.
One solution to that issue is using a double corridor, which increases construction costs.
What will determine that decision is the feeding system we use. If it is automatic, we could place sows facing the wall without needing a front corridor. On the other hand, in more manual systems, a double passage is necessary to access the feeder easily.
Farrowing unit with pens
Baxter et al. (2012) described this type of farrowing unit as follows: "These systems include a range of modified designs in which the crate is absent."
This design could be:
The practical implementation of free farrowing systems can raise doubts and concerns.
Group farrowing unit
These systems allow sows and litters to mix before weaning. Most of them are based on multi-suckling accommodations. Both sows and piglets have more space and are often housed on straw.
Sows are initially housed in individual pens and are herded together with their litters on days 10-21 post-farrowing. Alternatively, sows can be grouped before farrowing giving access to separate farrowing areas that can be removed later.
Some common concerns about group and free farrowing are:
Farrowing unit conditions
A well-prepared farrowing unit is critical to the farm's success, but the task is often overlooked or considered less important than other daily tasks. To achieve this, we must:
Moreover, the farrowing unit management includes tail docking, teeth clipping, castration, administering iron and coccidiostats, etcetera.
But these managements will only be effective if the farrowing unit conditions are adequate.
For example, in the case of group farrowing units, Zhang et al. (2020) concluded that extra care in management needs to be taken to avoid piglet loss (adding nest material will enrich the behavior of sows and piglets).
Cross-fostering is routinely performed on most commercial swine herds. But it must be taken into account that increased freedom farrowing units may also facilitate undesirable sow responsiveness towards cross-fostered piglets, including piglet-directed aggression. King et al. (2020) suggested that foster sows and litters experience increased disruption after cross-fostering in loose lactation systems; however, piglet performance is comparable to crate-housed piglets. Moreover, piglets exhibited reduced average daily gain after cross-fostering.
Conclusion
The importance of the design of maternity wards both at a productive and economic level for the future development of a farm implies the need to analyze it calmly before building a farm. In this analysis, an important part is to weigh the pros and cons of the farrowing unit and the farrowing crate.
References
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